Prof. Tzu-Ming LIU’s full publication list

Journal Publication

1. Lu, M. Li, Q. Zhou, C. Cheang, W. Zheng*, Y. Hu, H. Shang, S. Tai, B. Jiang, Z.-J. Huang, Y.-H. Chen, Y. Zhou, P.-L. Cai, H. Zhong, L. Liu, J. Mai, X.-P. Wu, X. Liu, F. Guo, N. Zeng* , Y. G. Assaraf*, and T.-M. Liu*, “Real-time identification of acute illness using advanced spectral analysis of intrinsically fluorescent plasma metabolites,” manuscript submitted.
2. Zhu, Z. Chen , H. Zhang , H. Chen , L. Liu , W. Yu , K. Wu , Y. Chen , X. Tao , Z. Yu , L. Shi , J. Wang , F. Zhang , J. Shen , F. Liu , C. Hu , Y. Ren , T.-M. Liu , Y. Luo*, and F. Guo*, B. Niu* “Explainable AI Unravels Sepsis Heterogeneity via Coagulation–Inflammation Profiles for Prognosis and Stratification,” Nature Communication accepted (2025). IF = 15.7
3. He, Y. Peng, L.-L. Leong, J. Zhou, D. Tang, W. Wang, X. Wu, J. H. Lei, Y. Ye, Y. Feng, Y. Qiao, X. Chu, D. Mu, Q. Zhao, T.-M. Liu, Y. Chen, P. K. Tam*, C.-X. Deng*, “CDK4/6 Inhibition Induces CD8⁺ T Cell Antitumor Immunity via MIF-Induced Functional Orchestration of Tumor-Associated Macrophages,” Advanced Science, e11330 (2025). IF = 14.1
4. Hu, X. Wang, K. Lu, C. Cheang, Y. Liu, L. Xie, M. Li, Q. Zhou, W. Yan, Y. Hou, H. Zhang, W. Zheng*, C. Xu*, X. Chen, H.-M. Shen, Z.-J. Huang, Y.-H. Chen, Y. Zhou, P.-L. Cai, H. Zhong, L. Liu, X.-P. Wu, X. Liu, X. Li, N. Zeng*, Y. G. Assaraf*, and T.-M. Liu*, “Aggregation-Induced Emission of DNA Fluorescence as a Novel Pan Marker of Cell Death, Senescence and Sepsis in vitro and in vivo,” Theranostics 16, 1063- 1078 (2026). IF = 13.3
5. Ye, H.-Y. Chen, H.-C. Gao, J.-Y. Lu, Y.-H. Liao, T.-M. Liu*, Y.-H. Cheng, Y. Wei, L.-I. Seng, Y. Chen, T.-D. Wang*, and C.-K. Sun*, “Color-Resolved Third Harmonic Generation Microscopy for Single-RBC HbA1c Measurement and Glycemic History Assessment,” Science Advances 11, eady1318 (2025). IF = 12.5
6. Chen, X. Geng, G. H. Rao, W.-C. Wei, A. Venkateswararao, T.-M. Liu*, K.-T. Wong*, Y. Li, P. C. Ke, and Z. Yuan*, “Genetically engineered bacteria outer membrane vesicles coated small-molecule organic dye facilitates cDC1s-mediated antitumor immune cascade response for NIR-II tumor photoimmunotheranostics,” Chemical Engineering Journal 520, 166083 (2025). IF = 13.2
7. C. Liu, X. Tian, Z. Wang, J. C. W. Mak, Mao, T.-M. Liu*, and Y. Zheng*, “Hydrogen-induced Disruption of the Airway Mucus Barrier Enhances Nebulized RNA Delivery to Reverse Pulmonary Fibrosis,” Science Advances 11, eadt2752 (2025). IF = 12.5
8. He, X. Wang, Z. Wang, R. Xie, Z. Zhang, T.-M. Liu, Y. Cai*, and L. Chen, “Interpretable deep learning method to predict wound healing progress based on collagen fibers in wound tissue,” Computers in Biology and Medicine 191, 110110 (2025). IF = 6.3
9. Du, H. Shen, C. Xu*, X. Zhu, B. Wang, Q. Zhou, C. Liu, H. H. Y. Sung, R. T. K. Kwok, J. W. Y. Lam*, Q. Zhou, T.-M. Liu*, B. Z. Tang*, “Molecule to Aggregate: Designing AIE Nanocrystals for Low-Power Backward Third-Harmonic Generation Angiography,” Advanced Materials 37, e2414419 (2025). IF = 26.8
10. Chen, L. Xie, L. Wang, X. Zhan, Z. Zhuo, S. Jiang, L. Miao, X. Zhang, W. Zheng, T.-M. Liu*, J. He*, and Y. Liu*, “Patchoulene epoxide mitigates colitis and hepatic damage induced by dextran sulfate sodium by regulating the colonic microbiota and purine metabolism,” Frontiers in Immunology 16, 1509114 (2025). IF = 5.9
11. Yu, X. Cao, F. Xiang, N. Wang, T. Wu, Y. Gao, J. Liao, H. Li, T.-M. Liu,* and W. Zheng*, “Five-Modal Three-Dimensional Optical Microscopy via Single 1550 nm Fiber Laser,” Advanced Photonics Research 6, 2400115 (2025). IF = 3.9
12. Wang, Z. Zhang, X. Ye, L. Chen, W. Zheng, N. Zeng*, Z. Shen, F. Guo, I. O. Koshevoy, K. Kisel, P.-T. Chou*, and T.-M. Liu*, “Assessing wound healing in vivo using a dual-function phosphorescent probe sensitive to tissue oxygenation and regenerating collagen,” ACS Applied Materials & Interfaces 17, 398-407 (2024). Front Cover, IF = 8.2
13. M. F. Abdalsalam, A. Ibrahim, M. A. Saliu, T.-M. Liu*, X. Wan*, D. Yan*, “MDSC: a new potential breakthrough in CAR-T therapy for solid tumors,” Cell Communication and Signaling 22, 612 (2024). IF = 8.9
14. P., A. Bhattacharya, L. Du, A. Silswal, M. Li, J. Cao, Q. Zhou, W. Zheng*, T.-M. Liu*, and A. L. Koner*, “Activity-based Dicyanoisophorone Derivatives: Fluorogenic Toolbox Enables Direct Visualization and Monitoring of Esterase Activity in Tumor Models,” Analytical Chemistry 96, 18278-18286 (2024). IF = 6.7
15. Wu, J. H. Lei, M. Li, A. Zhang, Y. Li, X. Liang, S. C. de Souza, Z. Yuan, C. Wang, G. Chen, T.-M. Liu*, C.-X. Deng*, Z. Tang*, and S. Qu*, “Carbon Dots Crosslinked Egg White Hydrogel for Tissue Engineering,” Advanced Science 11, 2404702 (2024). IF = 14.1
16. Zhang, H. Shen, Z. Xiong, L. Du, M. Li, X. Ou, X. Zhu, Jacky W. Y. Lam, T.-M. Liu, C. Xu*, H. Zhang*, B. Z. Tang*, “Two-photon Clusteroluminescence Enabled by Through-Space Conjugation for In Vivo Bioimaging,” Angewandte Chemie International Edition 64, e202413751 (2024). IF = 16.9
17. Shen, L. Du, C. Xu*, B. Wang, Q. Zhou, R. Ye, R. T. K. KwokJacky, W. Y. Lam, G. Xing, J. Sun, T.-M. Liu*, and B. Z. Tang*, “A Near-Infrared-II Excitable Pyridinium Probe with 1000-Fold ON/OFF Ratio for γ-Glutamyltranspeptidase and Cancer Detection,” ACS Nano 18, 20268-20282 (2024). IF = 16
18. Yi, G. Qin, H. Yang, H. Jia, Q. Zeng, D. Zheng, S. Ye, Z. Zhang, T.-M. Liu, K. Q. Luo, C.-X. Deng, and R.-H. Xu*, “Mesenchymal Stromal Cells Increase the Natural Killer Resistance of Circulating Tumor Cells via Intercellular Signaling of cGAS-STING-IFN𝜷-HLA,” Advanced Science 11, 2400888 (2024). IF = 14.1
19. Huang^#, F. Xing^#, Y. Dai^#, Z. Zhang, G. Zhou, S. Yang, Y. Liu, Z. Yuan, K. Q. Luo, T. Ying, D. Chu*, T.-M. Liu*, C.-X. Deng*, Q. Zhao*, “Navigating Chimeric Antigen Receptor-Engineered Natural Killer Cells as Drug Carriers via Three-Dimensional Mapping of the Tumor Microenvironment,” Journal of Controlled Release 362, 524-535 (2023). IF = 11.5
20. Shen, C. Xu,* R. Ye, T.-M. Liu, J. Zhang, R. T. K. Kwok, J. W. Y. Lam, Z. Guo, J. Sun,* B. Z. Tang, “Water-Soluble Aggregation-Induced Emission Luminogens with Near-Infrared Emission for Advanced Phototheranostics,” Small Science 2023, 2300052 (2023). IF = 8.3
21. Xiang, J. Yu, D. Jiang, W. Hu, R. Zhang, C. Huang, T. Wu, Y. Gao, A. Zheng, T.-M. Liu, W. Zheng, X. Li, and H. Li, “Quantitative multiphoton imaging of cell metabolism, stromal fibers, and keratinization enables label-free discrimination of esophageal squamous cell carcinoma,” Biomedical Optics Express 14, 4137-4155 (2023). IF = 3.2
22. Chen, G. Qin, Y. Liu, M. Li, Y. Li, L. Guo, L. Du, W. Zheng, P. Wu, Y.-H. Chuang, X. Wang*, T.-D. Wang*, J.-A. A. Ho*, T.-M. Liu*, “Label-free optical metabolic imaging of adipose tissues for prediabetes diagnosis,” Theranostics 13, 3550-3567 (2023). IF = 13.3
23. Xu, H. Shen, T.-M. Liu, R. T. K. Kwok, J. W. Y. Lam*, and B. Z. Tang*, “Restriction of molecular motion to a higher level: Towards bright AIE dots for biomedical applications,” iScience 26, 106568 (2023). IF = 4.1
24. Y.-Q. Song, K.-J. Wu, Z. Zhang, T.-M. Liu, C.-N. Ko, W.-G. Zhu, D.-L. Ma, W. Wang, C.-H. Leung*, “Development of a sensitive luminescent probe to uncover new BRD4 inhibitors in living cells,” Chemical Engineering Journal 463, 142356 (2023). IF = 13.2
25. Wu, L.-Z. Guo, Y.-H. Liu, Y.-C. Liu, P.-L. Yang, Y.-S. Leung, H.-C. Tai*, T.-D. Wang, J. C.-W. Lin, C.-L. Lai*, Y.-H. Chuang*, C.-H. Lin, P.-T. Chou*, I-R. Lai*, T.-M. Liu*, “Plasma riboflavin fluorescence as a diagnostic marker of mesenteric ischemia-reperfusion injury in rats,” Thrombosis Research 223, 146-154 (2023). IF = 3.4
26. Yan, F. Xing, J. Cao, Y. Hu, L. Li, Z. Gao, H. Jia, K. Miao, F. Shao, C.-X. Deng*, K. Q. Luo*, L. T. O. Lee*, T.-M. Liu*, “Fluorescence intensity and lifetime imaging of lipofuscin-like autofluorescence for label-free predicting clinical drug response in cancer,” Redox Biology 59, 102578 (2023). IF = 11.9
27. S.-Y. Niu, L.-Z. Guo, Y. Li, Z. Zhang, T.-D. Wang, K.-C. Liu, Y.-J. Li, Y. Tsao, and T.-M. Liu*, “Boundary-Preserved Deep Denoising of Stochastic Resonance Enhanced Multiphoton Images,” IEEE Journal of Translational Engineering in Health and Medicine 10, 1-12 (2022). IF = 4.4
28. L.-X. Yang, Y.-C. Liu, C.-H. Cho, Y.-R. Chen, C.-S. Yang, Y.-L. Lu, Z. Zhang, Y.-T. Tsai, Y.-C. Chin, J. Yu, H.-M. Pan, W.-R. Jiang, Z.-C. Chia, W.-S. Huang, Y.-L. Chiu, C.-K. Sun, Y.-T. Huang, L.-M. Chen, K.-T. Wong, H.-M. Huang, C.-H. Chen*, Y. J. Chang*, C.-C. Huang*, and T.-M. Liu*, “A universal strategy for the fabrication of single-photon and multiphoton NIR nanoparticles by loading organic dyes into water-soluble polymer nanosponges,” Journal of Nanobiotechnology 20, 311 (2022). IF = 12.6
29. Chen, Y.-C. Liu, Z. Zhang, M. Li, L. Du, P.-C. Wu, W.‐H. Chong, F. Ren, W. Zheng*, T.-M. Liu*, “Mouse strain and charge dependent vessel permeability of nanoparticles at the lower size limit,” Frontiers in Chemistry 10, 944556 (2022). IF = 4.2
30. Liu, J. H. Lei, G. Wang, Z. Zhang, J. Wu, B. Zhang, H. Zhang, E. Liu, L. Wang, T.-M. Liu, G. Xing, C. Deng, Z. Tang, S. Qu*, “Toward Strong Near-infrared Absorption/Emission from Carbon Dots in Aqueous Media through Solvothermal Fusion of Large Conjugated Perylene Derivatives with Post-Surface Engineering,” Advanced Science 9, 2202283 (2022). IF = 14.1
31. Zhang, G. Wang, Z. Zhang, J. H. Lei, T.-M. Liu, G. Xing, C.-X. Deng, and Z. Tang, S. Qu*, “One Step Synthesis of Efficient Red Emissive Carbon Dots and Their Bovine Serum Albumin Composites with Enhanced Multi-Photon Fluorescence for in vivo Bioimaging,” Light: Science & Applications 11, 113 (2022). IF = 23.4
32. Li, Y. Du, Z. Xu,Y. He, R. Yao, H. Jiang, W. Ju, J. Qiao, K. Xu, T.-M. Liu*, and L. Zeng*, “Intravital lipid droplet labeling and imaging reveals the phenotypes and functions of individual macrophages in vivo,” Journal of Lipid Research 63, 100207 (2022). IF = 4.1
33. P.-C. Wu, L.-Z. Guo, S. Yu, N. Zeng, Y.-C. Liu, J. Yu, Z. Zhang, K. Lu, L. SUN, C. WANG, Y.-H. Chang, Y.-L. Lu, Y.-F. Shen, S. Tai, Y.-H. Chuang, J.-A. A. Ho, K.-W. Huang, Y.-M. WU, and T.-M. Liu*, “Noninvasive Assessment of Liver Function Reserve with Fluorescent Dosimetry of Indocyanine Green,” Biomedical Optics Express 13, 1995-2005 (2022). IF = 3.2
34. G. Mernie, M.-C. Tseng, W.-T. Wu, T.-M. Liu, and Yu-Ju Chen*, “Nanoprobe-based Mass Spectrometry and FTIR Spectroscopy for Rapid Phospholipid Profiling,” Journal of the Chinese Chemical Society 69, 94-106 (2022). IF = 1.5
35. L.‐Z. Guo, C.‐H. Wu, M.‐F. Tsai, F.‐Y. Cheng, V. Shanmugam, Z.‐U. Tsai, Z. Zhang, T.‐M. Liu*, and C.‐S. Yeh*, “Plasmon Resonant Two‐Photon Luminescence Inducing Photosensitization and Nonlinear Optical Microscopy In Vivo by Near‐Infrared Excitation of Au Nanopeanuts,” Applied Sciences 11, 10875 (2021). IF = 2.5
36. Ren, Z. Zhang, T.-M. Liu, W. Ge*, “Novel zebrafish polycystic kidney disease (PKD) models reveal functions of the Hippo pathway in renal cystogenesis,” Disease Models & Mechanisms 14, dmm049027 (2021). IF = 3.3
37. Xing, Y.-C. Liu, S. Huang, X. Lyu, S. M. Su, U. I. Chan, P.-C. Wu, Y. Yan, N. Ai, J. Li, M. Zhao, B. K. Rajendran, J. Liu, F. Shao, H. Sun, T. K. Choi, W. Zhu, G. Luo, S. Liu, D. L. Xu, K. L. Chan, Q. Zhao, K. Miao, K. Q. Luo, W. Ge, X. Xu, G. Wang*, T.-M. Liu*, C.-X. Deng*, “Accelerating precision anti-cancer therapy by time-lapse and label-free 3D tumor slice culture platform,” Theranostics 11, 9415-9430 (2021). IF = 13.3
38. C.-H. Wu, K. S. Kisel, M. K. Thangavel, Y.-T. Chen, K.-H. Chang, M.-R. Tsai, C.-Y. Chu, Y.-F. Shen, P.-C. Wu, Z. Zhang, T.-M. Liu*, J. Jänis, E. V. Grachova, J. R. Shakirova, S. P. Tunik*, I. O. Koshevoy*, P.-T. Chou*, “Functionalizing collagen with vessel-penetrating two-photon phosphorescence probes: A new in vivo strategy to map oxygen concentration in tumor microenvironment and tissue ischemia,” Advanced Science 8, 2102788 (2021). IF = 14.1
39. Zhu, J. Liu, G. Zhou, T.-M. Liu, Y. Dai, G. Nie, Q. Zhao*, “Remodeling of Tumor Microenvironment by Tumor-Targeting Nanozymes Enhances Immune Activation of CAR T Cells for Combination Therapy,” Small 17, 2102624 (2021). IF = 12.1
40. Enkhbat, Y.-C. Liu, J. Kim, Y. Xu, Z. Yin, T.-M. Liu, C.-X. Deng, C. Zou, X. Xie, X. Li, P.-Y. Wang*, “Expansion of Rare Cancer Cells into Tumoroids for Therapeutic Regimen and Cancer Therapy,” Advanced Therapeutics 4, 2100017 (2021). IF = 2.6
41. Liu, P.-C. Wu, S. Guo, P.-T. Chou, C.-X. Deng, S.-W. Chou*, Z. Yuan*, T.-M. Liu*, “Low-toxicity FePt nanoparticles for the targeted and enhanced diagnosis of breast tumors using few centimeters deep whole-body photoacoustic imaging,” Photoacoustics 19, 100179 (2020). IF = 6.8
42. Li, Y. He, K. Miao, Y. Zheng, C. Deng, and T.-M. Liu*, “Imaging of Macrophage Mitochondria Dynamics in vivo Reveals Cellular Activation Phenotype for Diagnosis,” Theranostics 10, 2897-2917 (2020). IF = 13.3
43. C.-W. Lee, P.-C. Wu, I-L. Hsu, T.-M. Liu,* W.-H. Chong, C.-H. Wu, T.-Y. Hsieh, L.-Z. Guo, Y. Tsao, P.-T. Wu, J. Yu, P.-J. Tsai, H.-S. Huang, Y.-C. Chuang, and C.-C. Huang*, “New templated Ostwald ripening process of mesostructured FeOOH for third-harmonic generation bioimaging,” Small 15, 1805086 (2019). IF = 12.1
44. Li and T.-M. Liu*, “Discovering Macrophage Functions Using In Vivo Optical Imaging Techniques,” Frontiers in Immunology 9, 502 (2018). IF = 5.9
45. P.-C. Wu, Y.-F. Shen, C.-K. Sun, C. P. Lin, and T.-M. Liu*, “Harmonic Generation Microscopy of Bone Microenvironment in vivo,” Optics Communications 422, 52-55 (2018). IF = 2.5
46. Tokarz, R. Cisek, M. N. Wein, R. Turcotte, C. Haase, S.-C. A. Yeh, S. Bharadwaj, A. P. Raphael, H. Paudel, C. Alt, T.-M. Liu, H. M. Kronenberg, and C. P. Lin*, “Intravital Imaging of Osteocytes in Mouse Calvaria Using Third Harmonic Generation Microscopy,” PLoS One 12, e0186846 (2017). IF = 2.6
47. Jin, C. Chen, Z. Cao, B. Sun, I. L. Lo, T.-M. Liu, J. Zheng, S. Sun, Y. Shi, X. D. Zhang*, “Entropy change of biological dynamics in COPD,” International Journal of Chronic Obstructive Pulmonary Disease 12, 2997-3005 (2017). IF = 3.1
48. C.-K. Sun*, Y.-C. Tsai, Y.-J. E. Chen, T.-M. Liu, H.-Y. Chen, H.-C. Wang, and C.-F. Lo, “Resonant Dipolar Coupling of Microwaves with Confined Acoustic Vibrations in a Rod-shaped Virus,” Scientific Reports 7, 4611 (2017). IF = 3.9
49. Y.-W. Chen, Y.-K. Peng, S.-W. Chou, Y.-J. Tseng, P.-C. Wu, S.-K. Wang, Y.-W. Lee, J.-J. Shyue, J.-K. Hsiao*, T.-M. Liu*, and P.-T. Chou*, “Mesoporous Silica Promoted Deposition of Bioinspired Polydopamine onto Contrast Agent: A Universal Strategy to Achieve Both Biocompatibility and Multiple Scale Molecular Imaging,” Particle & Particle Systems Characterization 34, 1600415 (2017). IF = 3
50. T.-M. Liu*, J. Conde*, T. Lipiński, A. Bednarkiewicz, C.-C. Huang*, “Smart NIR linear and nonlinear optical nanomaterials for cancer theranostics: Prospects in photomedicine,” Progress in Materials Science 88, 89-135 (2017). IF = 40
51. J.-Y. Huang, L.-Z. Guo, J.-Z. Wang, T.-C. Li, H.-J. Lee, P.-K. Chiu, L.-H. Peng, and T.-M. Liu*, “Fiber-based 1150-nm femtosecond laser source for the minimally invasive harmonic generation microscopy,” Journal of Biomedical Optics 22, 036008 (2017). IF = 2.9
52. C.-H. Wu, T.-D. Wang*, C.-H. Hsieh, S.-H. Huang, J.-W. Lin, S.-C. Hsu, H.-T. Wu, Y.-M. Wu*, and T.-M. Liu*, “Imaging Cytometry of Human Leukocytes with Third Harmonic Generation Microscopy,” Scientific Reports 6, 37210 (2016). IF = 3.9
53. T.-M. Liu*, J. Conde*, T. Lipiński, A. Bednarkiewicz, C.-C. Huang*, “Revisiting the classification of NIR absorbing/emitting Nanomaterials for in vivo bio-applications,” NPG Asia Materials 8, e295 (2016). IF = 8.3
54. S.-W. Chou, C.-L. Liu, T.-M. Liu*, Y.-F. Shen, L.-C. Kuo, C.-H. Wu, T.-Y. Hsieh, P.-C. Wu, M.-R. Tsai, C.-C. Yang, K.-Y. Chang, M.-H. Lu, P.-C. Li, S.-P. Cheng, Y.-H. Wang, C.-W. Lu, Y.-A. Chen, C.-C. Huang, C.-R. Chris Wang, J.-K. Hsiao,* M.-L. Li*, and P.-T. Chou*, “Infrared-active quadruple contrast FePt nanoparticles for multiple scale molecular imaging,” Biomaterials 85, 54-64 (2016). IF = 12.9
55. Buttino*, J.-S. Hwang, G. Romano, A. Gaion, C.-K. Sun, T.-M. Liu, D. Pellegrini, A. Gaion, D. Sartori, “Detection of malformations in sea urchin plutei exposed to mercuric chloride using different fluorescent techniques,” Ecotoxicology and Environmental Safety 123, 72-80 (2016). IF = 6.1
56. S.-C. Yang, H.-C. Lin, T.-M. Liu, J.-T. Lu, W.-T. Hung, Y.-R. Huang, Y.-C. Tsai, C.-L. Kao, S.-Y. Chen, and C.-K. Sun*, “Efficient Structure Resonance Energy Transfer from Microwaves to Confined Acoustic Vibrations in Viruses,” Scientific Reports 5, 18030 (2015). IF = 3.9
57. C.-C. Huang* and T.-M. Liu, “Controlled Au-polymer nanostructures for multiphoton imaging, prodrug delivery, and chemo-photothermal therapy platforms,” ACS Applied Materials & Interfaces 7, 25259-25269 (2015). IF = 8.2
58. Y.-F. Shen, M.-R. Tsai, S.-C. Chen, Y.-S. Leung, C.-T. Hsieh, Y.-S. Chen, F.-L. Huang, R. P. Obena, M. M. L. Zulueta, H.-Y. Huang, W.-J. Lee, K.-C. Tang, C.-T. Kung, M.-H. Chen, D.-B. Shieh, Y.-J. Chen, T.-M. Liu*, P.-T. Chou*, and C.-K. Sun*, “Imaging Endogenous Bilirubins with Two-Photon Fluorescence of Bilirubin Dimers,” Analytical Chemistry 87, 7575-7582 (2015). IF = 6.7
59. P.-C. Wu, T.-Y. Hsieh, Z.-U. Tsai, and T.-M. Liu*, “In vivo Quantification of the Structural Changes of Collagens in a Melanoma Microenvironment with Second and Third Harmonic Generation Microscopy,” Scientific Reports 5, 8879 (2015). IF = 3.9
60. A. Mante, Y. R. Huang, S. C. Yang, T. M. Liu, A. A. Maznev, J. K. Sheu, and C. K. Sun*, “THz acoustic phonon spectroscopy and nanoscopy by using piezoelectric semiconductor heterostructures,” Ultrasonics 56, 52-65 (2015). IF = 4.1
61. J. Mortensen, C. Alt, R. Turcotte, M. Masek, T.-M. Liu, D. C. Côté, C. Xu, G. Intini and C. P. Lin*, “Femtosecond laser bone ablation with a high repetition rate fiber laser source,” Biomedical Optics Express 6, 32-42 (2014). IF = 3.2
62. Y.-H. Wang, S.-P. Chen, A.-H. Liao, Y.-C. Yang, C.-R. Lee, C.-H. Wu, P.-C. Wu, T.-M. Liu, C.-R. Chris Wang, and P.-C. Li* “Synergistic delivery of gold nanorods using multifunctional microbubbles for enhanced plasmonic photothermal therapy,” Scientific Reports 4, 5685 (2014). IF = 3.9
63. T.-M. Liu, J. Yu, C. A. Chang, A. Chiou, H. K. Chiang, Y.-C. Chuang, C.-H. Wu, C.-H. Hsu, C.-W. Lin, P.-A. Chen, and C.-C. Huang*, “One-step shell polymerization of inorganic nanoparticles and their applications in SERS/nonlinear optical imaging, drug delivery, and catalysis,” Scientific Reports 4, 5593 (2014). IF = 3.9
64. Y. Y. Hui, L.-J. Su, O. Y. Chen, Y.-T. Chen, T.-M. Liu, and H.-C. Chang*, “Wide-field imaging and flow cytometric analysis of cancer cells in blood by fluorescent nanodiamond labeling and time gating,” Scientific Reports 4, 5574 (2014). IF = 3.9
65. M.-Y. Chen, G.-Y. Zhuo, K.-C. Chen, P.-C. Wu, T.-Y. Hsieh, T.-M. Liu, and S.-W. Chu*, “Multiphoton imaging to identify grana, stroma thylakoid, and starch inside an intact leaf,” BMC Plant Biology 14, 175 (2014). IF = 4.8
66. C.-L. Liu, T.-M. Liu*, T.-Y. Hsieh, H.-W. Liu, Y.-S. Chen, C.-K. Tsai, H.-C. Chen, J.-W. Lin, R.-B. Hsu, T.-D. Wang, C.-C. Chen, C.-K. Sun, and P.-T. Chou*, “In vivo Metabolic Imaging of Insulin with Multiphoton Fluorescence of Human Insulin-Au Nanodots,” Small 9, 2103-2110 (2013). IF = 12.1
67. M.-Y. Liao, C.-H. Wu, P.-S. Lai, J. Yu, H.-P. Lin, T.-M. Liu*, and C.-C. Huang* “Surface State Mediated NIR Two-Photon Fluorescence of Iron Oxides for Nonlinear Optical Microscopy,” Advanced Functional Materials 23, 2044-2051 (2013). IF = 19
68. C.-K. Tsai, T.-D. Wang*, J.-W. Lin, R.-B. Hsu, L.-Z. Guo, S.-T. Chen, and T.-M. Liu*, “Virtual Optical Biopsy of Human Adipocytes with third harmonic generation microscopy,” Biomedical Optics Express 4, 178-186 (2013). IF = 3.2
69. C.-K. Chen and T.-M. Liu*, “Imaging morphodynamics of human blood cells in vivo with video-rate third harmonic generation microscopy,” Biomedical Optics Express 3, 2860-2865 (2012). IF = 3.2
70. C.-K. Tsai, Y.-S. Chen, P.-C. Wu, T.-Y. Hsieh, H.-W. Liu, C.-Y. Yeh, W.-L. Lin, J.-S. Chia, and T.-M. Liu*, “Imaging granularity of leukocytes with third harmonic generation microscopy,” Biomedical Optics Express 3, 2234-2243 (2012). IF = 3.2
71. K. Wang^#, T.-M. Liu^#, J. Wu, N. Horton, C. P. Lin*, and C. Xu*, “Three-color femtosecond source for simultaneous excitation of three fluorescent proteins in two-photon fluorescence microscopy,” Biomedical Optics Express 3, 1972-1977 (2012). Co-first author IF = 3.2
72. Buttino*, D. Pellegrini, G. Romano, J.-H. Hwang, T.-M. Liu, D. Sartori, C.-K. Sun, S. Macchia, and A. Ianora, “Study of apoptosis induction using fluorescent and higher harmonic generation microscopy techniques in Acartia tonsa nauplii exposed to chronic concentrations of nickel,” Chemistry and Ecology 27, supplement 2, 97-104 (2011). IF = 1.8
73. Y.-Y. Tzeng, Z.-Y. Zhuo, M.-Y. Lee, C.-S. Liao, P.-C. Wu, C.-J. Huang, M.-C. Chan, T.-M. Liu, Y.-Y. Lin*, and S.-W. Chu*, “Observation of spontaneous polarization misalignments in periodically poled crystals using second-harmonic generation microscopy,” Optics Express 19, 11106-11113 (2011). IF = 3.3
74. C.-C. Huang, K.-Y. Chuang, C.-J. Huang, T.-M. Liu*, and C.-S. Yeh*, “Graphite-shelled Si nanoparticles and their Au/Si heterodimers: preparation, photoluminescence, and second harmonic generation,” Journal of Physical Chemistry C 115, 9952-9960 (2011). IF = 3.2
75. Buttino*, J.-S. Hwang, C.-K. Sun, C.-T. Hsieh, T.-M. Liu, D. Pellegrini, A. Ianora, D. Sartori, G. Romano, S.-H. Cheng, A. Miralto, “Apoptosis to predict copepod mortality: state of the art and future perspectives,” Hydrobiologia 666, 257-264 (2011). IF = 2.5
76. T.-M. Liu^*, S.-Z. Sun, C.-F. Chang, G.-T. Chen, C.-C. Pan, J.-I. Chyi, and C.-K. Sun*, “Roles of Dislocation Density to the Scattering of Nano-acoustic Waves in GaN,” Chinese Journal of Physics 49, 171-175 (2011). IF = 4.6
77. S.-H. Chia, T.-M. Liu*, A. A. Ivanov, A. B. Fedotov, A. M. Zheltikov, M.-R. Tsai, M.-C. Chan, C.-H. Yu, and C.-K. Sun*, “A sub-100fs self-starting Cr:forsterite laser generating 1.4W output power,” Optics Express 18, 24085- 24091 (2010). IF = 3.3
78. C.-Y. Lin, T.-M. Liu, C.-Y. Chen, Y.-L. Huang, W.-K. Huang, C.-K. Sun, F.-H. Chang*, and W.-L. Lin*, “Quantitative and qualitative investigation into the impact of focused ultrasound with microbubbles on the triggered release of nanoparticles from vasculature in mouse tumors,” Journal of Controlled Release 146, 291-298 (2010). IF = 11.5
79. S.-H. Chia, C.-H. Yu, C.-H. Lin, N.-C. Cheng, T.-M. Liu, M.-C. Chan, I.-H. Chen, and C.-K. Sun*, “Miniaturized video-rate epi-third-harmonic-generation fiber-microscope,” Optics Express 18, 17382-17391 (2010). IF = 3.3
80. T.-M. Liu, H.-P. Chen, S.-C. Yeh, C.-Y. Wu, C.-H. Wang, T.-N. Luo, Y.-J. Chen, S.-I. Liu, and C.-K. Sun*, “Effects of hydration levels on the bandwidth of microwave resonant absorption induced by confined acoustic vibrations,” Applied Physics Letters 95, 173702 (2009). IF = 3.6
81. H.-C. Lee, W.-A. Tseng, F.-Y. Lo, T.-M. Liu, and H.-J. Tsai*, “FoxD5 mediates anterior-posterior polarity through upstream modulator Fgf signaling during zebrafish somitogenesis,” Developmental Biology 336, 232-245 (2009). IF = 2.5
82. K.-W. Hu, T.-M. Liu, K.-Y. Chung, K.-S. Huang, C.-T. Hsieh, C.-K. Sun, and C.-S. Yeh*, “Efficient near-IR hyperthermia and intense nonlinear optical imaging contrast on the gold nanorod-in-shell nanostructures,” Journal of the American Chemical Society 131, 14186-14187 (2009). IF = 14.4
83. S.-W. Chu*, S.-P. Tai, T.-M. Liu, C.-K. Sun, and C.-H. Lin, “Selective imaging in second-harmonic-generation microscopy with anisotropic radiation,” Journal of Biomedical Optics 14, 010504 (2009). IF = 2.9
84. T.-M. Liu, H.-P. Chen, L.-T. Wang, J.-R. Wang, T.-N. Luo, Y.-J. Chen, S.-I. Liu, and C.-K. Sun*, “Microwave resonant absorption of viruses through dipolar coupling with confined acoustic vibrations,” Applied Physics Letters 94, 043902 (2009). IF = 3.6
85. C.-S. Hsieh, C.-Y. Ko, S.-Y. Chen, T.-M. Liu, J.-S. Wu, C.-H. Hu, and C.-K. Sun*, “In vivo long term continuous observation of gene expression in zebrafish embryos’ nerve system by using harmonic generation microscopy and morphant technology,” Journal of Biomedical Optics 13, 064041 (2008). IF = 2.9
86. T.-M. Liu, M.-C. Chan, I.-H. Chen, S.-H. Chia, and C.-K. Sun*, “Miniaturized multiphoton microscope with a 24Hz frame-rate,” Optics Express 16, 10501-10506 (2008). IF = 3.3
87. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun*, “Imaging polyhedral inclusion bodies of nuclear polyhedrosis viruses with second harmonic generation microscopy,” Optics Express 16, 5602-5608 (2008). IF = 3.3
88. M.-C. Chan, S.-H. Chia, T.-M. Liu, T.-H. Tsai, M.-C. Ho, A. A. Ivanov, A. M. Zheltikov, J.-Y. Liu, H.-L. Liu, and C.-K. Sun*, “1.2~2.2-μm tunable raman soliton source based on a Cr:forsterite-laser and a photonic-crystal fiber” IEEE Photonics Technology Letters 20, 900-902 (2008). IF = 2.5
89. T.-M. Liu, J.-Y. Lu, H.-P. Chen, C.-C. Kuo, M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, Y.-T. Li, C.-L. Pan, S.-H. Lin, C.-H. Kuan, and C.-K. Sun*, “Resonance-enhanced dipolar interaction between terahertz photons and confined acoustic phonons in nanocrystals,” Applied Physics Letters 92, 093122 (2008). IF = 3.6
90. T.-M. Liu, M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, and C.-K. Sun*, “Piezoelectricity-induced terahertz photon absorption by confined acoustic phonons in wurtzite CdSe nanocrystals,” Physical Review B. 77, 085428 (2008). IF = 3.7
91. S.-P. Tai, Y. Wu, D.-B. Shieh, L.-J. Chen, K.-J. Lin, C.-H. Yu, S.-W. Chu, C.-H. Chang, X.-Y. Shi, Y.-C. Wen, K.-H. Lin, T.-M. Liu, and C.-K. Sun*, “Molecular imaging of cancer cells using plamon-resonant-enhanced third-harmonic-generation in silver nanoparticles,” Advanced Materials 19. 4520-4523 (2007). IF = 26.8
92. C.-Y. Chen, Y.-C. Wen, H.-P. Chen, T.-M. Liu, C.-C. Pan, J.-I. Chyi, C.-K. Sun*, “Narrow-band detection of propagating coherent acoustic phonons in piezoelectric InGaN/GaN multiple-quantum wells,” Applied Physics Letters 91, 133101 (2007). IF = 3.6
93. T.-M. Liu, S.-Z. Sun, C.-F. Chang, C.-C. Pan, G.-T. Chen, J.-I. Chyi, V. Gusev, and C.-K. Sun*, “Anharmonic Decay of Sub-THz Coherent Acoustic Phonons in GaN,” Applied Physics Letters 90, 041902 (2007). IF = 3.6
94. T.-M. Liu, S.-P. Tai, C.-H. Yu, Y.-C. Wen, S.-W. Chu, L.-J. Chen, M. R. Prasad, K.-J. Lin, and C.-K. Sun*, “Measuring plasmon-resonance enhanced third-harmonic χ⁽³⁾ of Ag nanoparticles,” Applied Physics Letters 89, 043122 (2006). IF = 3.6
95. M.-C. Chan, T.-M. Liu, S.-P. Tai, and C.-K. Sun*, “Compact fiber-delivered Cr:forsterite laser for nonlinear light microscopy,” Journal of Biomedical Optics 10, 054006 (2005). IF = 2.9
96. K.-H. Lin, G.-W. Chern, C.-T. Yu, T.-M. Liu, C.-C. Pan, G.-T. Chen, J.-I. Chyi, S.-W. Huang, P.-C. Li, and C.-K. Sun*, “Optical piezoelectric transducer for nano-ultrasonics,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 52, 1404-1414 (2005). IF = 3.7
97. T.-M. Liu, F. X. Kärtner, J. G. Fujimoto, and C.-K. Sun*, “Multiplying the repetition rate of passive mode-locked femtosecond lasers by an intracavity flat surface with low reflectivity,” Optics Letters 30, 439-441 (2005). IF = 3.3
98. T.-M. Liu, C.-T. Yu, and C.-K. Sun*, “2-GHz repetition-rate femtosecond blue source,” Applied Physics Letters 86, 061112 (2005). IF = 3.6
99. C.-K. Sun*, S.-W. Chu, S.-Y. Chen, T.-H. Tsai, T.-M. Liu, C.-Y. Lin, and H.-J. Tsai, “Higher harmonic generation microscopy for developmental biology,” Journal of Structural Biology 147, 19-30 (2004). IF = 2.7
100. J.-W. Shi, Y.-H. Chen, K.-G. Gan, Y.-J. Chiu, J. E. Bowers, M.-C. Tien, T.-M. Liu, and C.-K. Sun*, “Nonlinear behaviors of low-temperature-grown GaAs-based photodetectors around 1.3 mm telecommunication wavelength,” IEEE Photonics Technology Letters 16, 242-244 (2004). IF = 2.5
101. S.-W. Chu, S.-Y. Chen, T.-H. Tsai, T.-M. Liu, C.-Y. Lin, H.-J. Tsai, and C.-K. Sun*, “In vivo developmental biology study using noninvasive multi-harmonic generation microscopy,” Optics Express 11, 3093-3099 (2003). IF = 3.3
102. S.-W. Chu, T.-M. Liu, and C.-K. Sun*, C.-Y. Lin, H.-J. Tsai, “Real-time second-harmonic-generation microscopy based on a 2-GHz repetition rate Ti: sapphire laser,” Optics Express 11, 933-938 (2003). IF = 3.3
103. S.-W. Chu, I-S. Chen, T.-M. Liu, C.-K. Sun*, S.-P. Lee, B.-L. Lin, P.-C. Cheng, M.-X. Kuo, D.-J. Lin, and H.-L. Liu, “Nonlinear bio-photonic crystal effects revealed with multi-modal nonlinear microscopy,” Journal of microscopy- OXFORD 208, 190-200 (2002). IF = 1.9
104. T.-M. Liu, Y.-C. Huang, G.-W. Chern, K.-H. Lin, Y.-C. Hung, C.-J. Lee, and C.-K. Sun*, “Characterization of ultrashort optical pulses with third-harmonic- generation based triple autocorrelation,” IEEE Journal of Quantum Electronics 38, 1529-1535 (2002). IF = 2.1
105. T.-M. Liu, Y.-C. Huang, K.-H. Lin, G.-W. Chern, C.-J. Lee, Y.-C. Hung, and C.-K. Sun*, “Triple-optical autocorrelation for direct optical pulse-shape measurement,” Applied Physics Letters 81, 1402-1404 (2002). IF = 3.6
106. T.-M. Liu, H.-H. Chang, S.-W. Chu, and C.-K. Sun*, “Locked multichannel generation and management by use of a Fabry–Perot etalon in a mode-locked Cr:forsterite laser cavity,” IEEE Journal of Quantum Electronics 38, 458-463 (2002). IF = 2.1
107. S.-W. Chu, I-H. Chen, T.-M. Liu, P.-C. Chen, C.-K. Sun*, and B.-L. Lin, “Multimodal nonlinear spectral microscopy based on a femtosecond Cr:forsterite laser,” Optics Letters 26, 1909-1911 (2001). IF = 3.3
108. T.-M. Liu, S.-P. Tai, H.-H. Chang, and C.-K. Sun*, “Simultaneous multiwavelength generation from a mode-locked all-solid-state Cr:forsterite laser,” Optics Letters 26, 834-836 (2001). IF = 3.3
109. T.-M. Liu, S.-P. Tai, and C.-K. Sun*, “Intracavity frequency-doubled femtosecond Cr⁴⁺:forsterite laser,” Applied Optics 40, 1957-1960 (2001). IF = 1.7
110. T.-M. Liu, S.-W. Chu, C.-K. Sun, B.-L. Lin, P. C. Cheng, and I. Johnson*, “Multi-photon confocal microscopy using a Femtosecond Cr:forsterite laser,” Scanning 23, 249-254 (2001). IF = 1.75
111. C.-K. Sun*, S.-W. Chu, T.-M. Liu, and P. C. Cheng, “High intensity scanning microscopy with a femtosecond Cr:Forsterite laser,” Scanning 22, 95-96 (2000). IF = 1.75

Conference Papers

1. Li and T.-M. Liu, “Reporting Drug-induced Kidney Injury with Blood Fluorochromics,” Photonics West 2026, San Francisco, CA, USA, 17-22 January (2026). Invited speaker
2. T.-M. Liu, “Aggregated induced emission of DNA for the biomedical diagnosis,” in the technical digest of The international Chemical Congress of Pacific Basin Societies 2025, Honolulu, Hawaii, USA, 15-20 December (2025).
3. T.-M. Liu, “Plasma Fluorochromics Diagnose Shift of Organ Metabolism,” in the technical digest of The 18th IEEE International Conference on Nano/Molecular Medicine & Engineering, Hong Kong, China, 1-4 December (2025). Invited speaker
4. Hu and T.-M. Liu, “Aggregation-induced DNA Fluorescence for the Label-free Visualization of Cell Death in situ,” in the technical digest of The 18th IEEE International Conference on Nano/Molecular Medicine & Engineering, Hong Kong, China, 1-4 December (2025).
5. Xu and T.-M. Liu, “Enhance Bioimaging Clarity with the Synergy of Aggregation-Induced Emission and Nonlinear Optics,” in the technical digest of 2025 International Conference on Aggregate Science, Hong Kong, China, 21-22 November. Invited speaker
6. Andaluz, R. Shen, M. Brito, T.-M. Liu, and Y. Jia, “NOX: Innovating sickle cell disease genetic diagnosis with microfluidic disposable chips,” in the technical digest of MICROtas – the 29th International Conference on Miniaturized Systems for Chemistry and Life Sciences -Micro-Total Analysis Systems (µTAS 2025), abstract 0052, Adelaide, Australia, 2- 6 November (2025).
7. Zhang and T.-M. Liu, “Map tissue hypoxia and collagen regeneration in vivo with vessel-penetrating two-photon phosphorescence probes,” in the technical digest of The 5th Asian Conference on Chemosensors & Imaging Probes, Shenzhen, China, 17-19 October (2025). Invited speaker
8. He, X. Wang, Y. Pan, Z. Wang, B. Yang, Z. Zhang, T.-M. Liu, Y. Cai, L. Chen, and R. Xie, “Accurate and Interpretable Wound Healing Progress Detection Based on a Task-related Knowledge Refinement Learning Method,” in the technical digest of International Symposium on Bioinformatics Research and Applications 2025, paper 109, Helsinki, Finland, 3-5 August (2025).
9. Zhou, K. Lu, C. Cheang, M. Li, W. Zheng, and T.-M. Liu, “Evaluating pathophysiological stage of chronic liver disease through the dynamic profiles of fluorescent metabolites in blood,” in the technical digest of IEEE EMBS R10 Smart Health Symposium 2025, paper 1090, Hong Kong, China, 21-22 June (2025).
10. Lu, M. Li, Q. Zhou, C. Cheang, W. Zheng, and T.-M. Liu, “Multiplexing Plasma Metabolomic Fluorescence for the Label-free Detection of Acute Illness,” in the technical digest of IEEE EMBS R10 Smart Health Symposium 2025, paper 1091, Hong Kong, China, 21-22 June (2025).
11. Zhang, X. Chen, Y. Chen, Z. Liao, and T.-M. Liu, “Staining-free Visualization of Cell Boundaries in Sliced Tissues for Accurate Binning of Gene Expression in Spatial Transcriptomics,” in the technical digest of IEEE EMBS R10 Smart Health Symposium 2025, paper 1098, Hong Kong, China, 21-22 June (2025).
12. Hu, X. Wang, K. Lu, Y. G. Assaraf, and T.-M. Liu, “Aggregation-Induced Emission of DNA Fluorescence as a Novel Pan Marker of Cell Death Senescence and Sepsis in vitro and in vivo,” in the technical digest of IEEE EMBS R10 Smart Health Symposium 2025, paper 1099, Hong Kong, China, 21-22 June (2025). Best Student Poster Award
13. T.-M. Liu, “Time-course Molecular Diagnosis with Fluorescent Metabolomics,” in the technical digest of Photonics West 2025, paper13311-33, San Francisco, CA, USA, 25-30 January (2025). Invited speaker
14. Hu and T.-M. Liu, “Aggregation-induced DNA fluorescence for the label-free detection of programmed necrosis,” in the technical digest of Photonics West 2025, paper13315-16, San Francisco, CA, USA, 25-30 January (2025). Invited speaker
15. Hu, Z. Zhang, Q. Zhou, W. Yan, W. Zheng, C. Xu, and T.-M. Liu “Molecular Imaging of Cell Death with Aggregated-induced Emission of DNA,” in the technical digest of Asian Conference on Ultrafast Phenomena 2025, Taipei, Taiwan, 5-8 January (2025). Invited speaker
16. T.-M. Liu, “Molecular Imaging of Cell Death with Aggregated-induced Emission of DNA,” in the technical digest of The 2024 Maritime Silk Road International Conference on the Cooperation and Integration of Industry, Education, Research, and Application, Guangzhou, China, 30 November – 2 December (2024). Invited speaker
17. T.-M. Liu, “Label-free Visualization of Cell Senescence,” in the technical digest of 10th Macau Symposium on Biomedical Sciences 2024, Macau, China, 13-15 June (2024). Invited speaker
18. T.-M. Liu, “Evaluate time-course pharmacodynamics in tumor organoid with stress-induced lipofuscin-like autofluorescence,” in the technical digest of Photonics West 2024, paper12821-18, San Francisco, CA, USA, 27 January – 1 February (2024). Invited speaker
19. Wu, L.-Z. Guo, Y.-H. Liu, Y.-S. Leung, H.-C. Tai, T.-D. Wang, Y.-H. Chuang, C.-H. Lin, P.-T. Chou, I-R. Lai, T.-M. Liu, “Plasma Fluorochromics for the Diagnosis of Acute Mesenteric Ischemia,” in the technical digest of Photonics West 2024, paper12822-8, San Francisco, CA, USA, 27 January – 1 February (2024).
20. Chen, G. Qin, Y. Liu, M. Li, L. Du, W. Zheng, X. Wang, T.-M. Liu, “Spatial Fluorescent Metabolomics in Prediabetic Adipose Tissues,” in the technical digest of Photonics West 2024, paper12831-32, San Francisco, CA, USA, 27 January – 1 February (2024).
21. T.-M. Liu, “Label‐free cell‐death imaging for the drug sensitivity test of tumor organoids,” in the technical digest of Serendipity Symposium 2022, Aulani, Hawaii, USA, 7 December (2022). Invited speaker
22. Yan, F. Xing, L. Li, Z. Gao, K. Miao, F. Shao, C.-X. Deng, L. T. O. Lee, T.-M. Liu, “Speed up the drug screening with stress-induced red autofluorescence,” in the technical digest of Photonics West 2022, paper 11971-36, San Francisco, CA, USA, 22-27 January (2022).
23. T.-M. Liu, “Label-free Visualization of Cell Senescence,” in the technical digest of Biomedical Molecular Imaging & 11th Molecular Imaging Center Symposium, #15 speaker, Taipei, Taiwan, 19 December (2021). Invited speaker.
24. T.-M. Liu, “Imaging Macrophage Polarization in vivo with Mitochondria Organization”, in technical digest of Zhuhai Symposium on Molecular Imaging（ISMI）2020, Zhuhai, China, 28 Nov. (2020).
25. Li and T.-M. Liu, “Visualizing Morphodynamics and Metabolic Status of Immune Microenvironment with Harmonic Generation and Multiphoton Fluorescence Microscopy,” in technical digest of OSA Biophotonics Congress: Biomedical Optics, paper number MM4A.2, Orlando, United States, 20-23 April (2020). Invited speaker
26. Li and T.-M. Liu, “Metabolic Imaging of Macrophages,” in technical digest of Biomedical Molecular Imaging & 9th Molecular Imaging Center Symposium, Taipei, Taiwan, 22-23 Nov., (2019). Invited speaker
27. T.-M. Liu, “Imaging Macrophage M1/M2 Polarization in vivo,” in technical digest of Serendipity Lab Kickoff Symposium, Tokyo, Japan, 9-11 Nov., (2019). Invited speaker
28. T.-M. Liu, “以六維顯微術探測腫瘤微環境,”粵港澳大灣區物理學會2019聯合年會, Guangzhou, China, 26-29 July (2019). Plenary speaker
29. Y.-H. Yan, Y. Li, and T.-M. Liu, “Real-Time Monitoring of Cell Apoptosis Using Two-Photon Fluorescence Intensity and Lifetime Imaging Microscopy,” in the technical digest of Focus on Microscopy, paper P2-C/25, London, United Kingdom, 14-17 April (2019).
30. Li, Y.-H. Yan, and T.-M. Liu, “Visualizing Mitochondrial Dynamics to Dissect the Metabolism of Immune Cells Using Confocal Microscopy,” in the technical digest of Focus on Microscopy, paper P2-C/5, London, United Kingdom, 14-17 April (2019).
31. C.-W. Lee, P.-C. Wu, I.-L. Hsu, T.-M. Liu, W.-H. Chong, C.-H. Wu, T.-Y. Hsieh, L.-Z. Guo, Y. Tsao, Y.-C. Chuang, C.-C. Huang, “Third Harmonic Generation Angiography with FeOOH Nanoparticle,” in the technical digest of Focus on Microscopy, paper WE-MO2-PAR-B2, London, United Kingdom, 14-17 April (2019).
32. P.-C. Wu, C.-W. Lee, C.-H. Wu, T.-Y. Hsieh, Y.-C. Chuang, C.-C. Huang, and T.-M. Liu, “Third harmonic generation angiography with FeOOH nanoparticle,” in the technical digest of Photonics West 2019, paper 10892-33, San Francisco, CA, USA, 2-7 February (2019).
33. P.-C. Wu, C.-W. Lee, C.-H. Wu, T.-Y. Hsieh, Y.-C. Chuang, C.-C. Huang, and T.-M. Liu, “Third Harmonic Generation Angiography with FeOOH Mesostructures,” in the technical digest of 10th Asian Photochemistry Conference, Taipei, Taiwan, 16-19 December (2018).
34. T.-M. Liu, “Imaging Pharmacokinetics of Nanomedicines with Nonlinear Optical Microscopy,” in the technical digest of 2018 Taiwan-Japan-Korea trilateral Conference on Nanomedicine, Tainan, Taiwan, 12-14 December (2018).
35. T.-M. Liu, “Investigating tumor microenvironment with near-infrared active nanomaterials,” in the technical digest of The 14^th Cross-Strait Workshop on Nano Science and Technology, Macau, China, 21-24 June (2018).
36. L.-J. Lin, P.-C. Wu, T.-M. Liu, “The effect of mice strain and labeling on the interstitial vessel permeability of nanoparticles,” in the technical digest of Photonics West, paper 10475-5, San Francisco, USA, 27 Jan-1 Feb, (2018).
37. T.-M. Liu, J.-Y. Huang, L.-Z. Guo, J.-Z. Wang, T.-C. Li, H.-J. Lee, P.-K. Chiu, L.-H. Peng, “Fiber-based 1150-nm femtosecond laser source for the label-free virtual optical biopsy,” in the technical digest of Photonics West 2018, paper 10488-2, San Francisco, USA, 27 Jan-1 Feb, (2018).
38. T.-M. Liu, “Infrared active nanomaterials for the theragnosis of tumors in vivo,” in the technical digest of Biomedical Molecular Imaging & 7^th Molecular Imaging Center Symposium, Taipei, Taiwan, 10-12 Nov. (2017).
39. T.-M. Liu, “Infrared active nanomaterials for the theragnosis of tumors in vivo,” in the technical digest of 78^th JSAP Autumn Meeting, 5p-A409-6, Fukuoka, Japan, 5-8 Sep. (2017). Invited Speaker
40. T.-M. Liu, “In vivo imaging flow cytometry of human leukocytes,” in the technical digest of 9th International Conference on Information Optics and Photonics (CIOP 2017), Harbin, China, 17-20 July (2017). Invited Speaker
41. T.-M. Liu, “In vivo imaging flow cytometry of human leukocytes,” in the technical digest of 4^th Macau Symposium on Biomedical Sciences, Macau, China, 21-22 June (2017).
42. T.-M. Liu, “Cellular and Molecular Biopsy of Melanoma Microenvironment,” in the technical digest of NSFC-FDCT Joint Symposium on the Frontier of Cancer Research, Guangzhou, China, 19-20 June (2017).
43. C.-H. Wu, C.-H. Hsieh, S.-H. Huang, J.-W. Lin, T.-D. Wang, S.-C. Hsu, Y.-M. Wu, and T.-M. Liu, “In vivo Imaging Flow Cytometry of Human Leukocytes,” in the technical digest of Biophotonics Congress: Optics in the Life Sciences, BoW3A.2, San Diego, USA, 2-5 April (2017).
44. H.-T. Wu, C.-H. Wu, C.-Y. Lin, and T.-M. Liu, “Imaging Analysis of Nonlinear Optical Microscopy on Leukocyte Morphologies,” in the technical digest of 10^th International Conference on Computational Physics, D7-2, Macao SAR, China, 16-20 Jan. (2017). Invited talk
45. P.-C. Wu, Y.-F. Shen, M.-R. Tsai, and T.-M. Liu, “Imaging Macrophages in vivo with Hemoglobin Fluorescence,” in technical digest of Biomedical Molecular Imaging & 6th Molecular Imaging Center Symposium, Yilan County, Taiwan, 11-13 Nov., (2016).
46. P.-C. Wu, Y.-F. Shen, M.-R. Tsai, and T.-M. Liu, “Imaging Macrophages in vivo with Hemoglobin Fluorescence,” in technical digest of 2^nd symposium on Frontiers in Bioimaging, Taipei, Taiwan, 9-10 Nov., (2016).
47. P.-C. Wu, S.-W. Chou, Y.-F. Shen, M.-L. Li, J.-K. Hsiao, T.-M. Liu, and P.-T. Chou, “Quadruple Molecular Imaging with Iron-Platinum Nanoparticles,” in technical digest of IEEE-Nanomed 2016, Macau, China, 30 Oct.-2 Nov. (2016). Invited Speaker
48. T.-M. Liu, “In vivo imaging cytometry of leukocytes with harmonic generation microscopy,” in technical digest of Optofluidics 2016, Session 2M2, Beijing, China, 24-27 July (2016). Invited Speaker
49. S.-W. Chou, C.-L. Liu, T.-M. Liu, Y.-F. Shen, C.-H. Wu, T.-Y. Hsieh, P.-C. Wu, C.-C. Huang & P.-T. Chou, “Four-photon luminescence microscopy with iron-platinum alloy nanoparticles,” in technical digest of Focus on Microscopy 2016, P2-D/15, Taipei, Taiwan, 29 Mar.-1 Apr. (2016).
50. Y.-H. Chang, K.-W. Huang, Y.-M. Wu & T.-M. Liu, “Concentration effect on the metabolic-rate evaluation of intravenous applied ICG,” in technical digest of Focus on Microscopy 2016, P1-A1/05, Taipei, Taiwan, 29 Mar.-1 Apr. (2016).
51. L.-Z. Guo, J.-Y. Huang, P.-K. Chiu, and T.-M. Liu, “Fiber laser based 1160 nm source with 90 fs pulse-width and 6 nJ pulse energy,” in technical digest of Asian Conference on Ultrafast Phenomena 2016, Diliman, Philippine, 22-23 Feb. (2016). Invited speaker
52. L.-Z. Guo, T.-D. Wang, J.-W. Lin, and T.-M. Liu, “Investigate the variation in optical redox ratio of epicardial adipose tissue in patients with CAD or DM through auto-fluorescence metabolic molecular image,” in technical digest of Photonics West, paper 9711-26, San Francisco, USA, 13-18 Feb. (2016).
53. C.-H. Wu, C.-S. Yeh, and T.-M. Liu, “Two-photon photodynamic properties of TBO-AuNR-in-shell nanoparticles,” in technical digest of Photonics West, paper 9694-26, San Francisco, USA, 13-18 Feb. (2016).
54. M.-R. Tsai, C.-T. Hsieh, Y.-S. Chen, F.-L. Huang, H.-Y. Huang, W.-J. Lee, C.-T. Kung, M.-H. Chen, D.-B. Shieh, T.-M. Liu, P.-T. Chou, and C.-K. Sun, “Two-photon fluorescence microscopy and lifetime imaging of endogenous bilirubins,” in technical digest of International Symposium on Frontiers in Bioimaging, F-1101, Taipei, Taiwan, 26-27 Oct. (2015).
55. T.-M. Liu, “Bilirubin molecular imaging for the diagnosis of cancers,” in technical digest of The Third EITA-Bio Conference, D2-W3-T1, Taipei, Taiwan, 24-25 Oct. (2015). Invited speaker
56. C.-H. Wu, M.-R. Tsai, C.-K. Chen, C.-K. Tsai, P.-T. Chou, and T.-M. Liu, “In vivo leukocyte imaging with multiphoton fluorescence and harmonic generation microscopy,” in technical digest of Tsukuba Global Science Week 2015, Imaging Café, Tsukuba, Japan, 28-30 Sep. (2015). Invited speaker
57. Y.-F. Shen, C.-T. Hsieh, Y.-S. Chen, F.-L. Huang, and T.-M. Liu, “Metabolic Imaging of Bilirubins for the Cancer Diagnosis,” in technical digest of Optics in Life Sciences Congress, BT4A.4, Vancouver, Canada, 12-15 Apr. (2015).
58. S.-W. Chou, C.-L. Liu, T.-M. Liu, Y.-F. Shen, C.-H. Wu, T.-Y. Hsieh, P.-C. Wu, C.-C. Huang, and P.-T. Chou, “Four-photon luminescence microscopy with iron-platinum alloy nanoparticles,” in technical digest of Focus on Microscopy, P2-D/15, Göttingen, Germany, 29 Mar.-1 Apr. (2015).
59. Y.-H. Chang, K.-W. Huang, Y.-M. Wu, and T.-M. Liu, “Concentration effect on the metabolic-rate evaluation of intravenous applied ICG,” in technical digest of Focus on Microscopy, P1-A1/05, Göttingen, Germany, 29 Mar.-1 Apr. (2015).
60. S.-W. Chou, C.-L. Liu, T.-M. Liu, Y.-F. Shen, C.-H. Wu, T.-Y. Hsieh, P.-C. Wu, C.-C. Huang, and P.-T. Chou, “Four-photon luminescence microscopy with iron-platinum alloy nanoparticles,” in technical digest of Biomedical Molecular Imaging, I-14, Taipei, Taiwan, 6-8 Nov. (2014). Invited Talk
61. Y.-H. Chang, Y.-F. Shen, K.-W. Huang, Y.-M. Wu, and T.-M. Liu, “Non-invasive method to evaluate hepatic functions by two-photon fluorescence microscopy of intravenous indocyanine green (ICG),” in the technical digest of Biomedical Molecular Imaging 2014, # 19, Taipei, Taiwan, 6-8 Nov. (2014).
62. P.-C. Wu, Y.-F. Shen, and T.-M. Liu, “The relationship between tumor sizes and vessel permeability in melanoma microenvironment,” in the technical digest of Biomedical Molecular Imaging 2014, # 32, Taipei, Taiwan, 6-8 Nov. (2014).
63. L.-Z. Guo, T.-D. Wang, J.-W. Lin, and T.-M. Liu, “Investigating the variance in redox status in adipose tissue of human with DM or CAD by using fluorescence microscopy,” in the technical digest of Biomedical Molecular Imaging 2014, # 50, Taipei, Taiwan, 6-8 Nov. (2014).
64. C.-H. Wu, C.-K. Chen, and T.-M. Liu, “Differentiate human leukocytes with third harmonic generation and two-photon fluorescence microscopy,” in the technical digest of Biomedical Molecular Imaging 2014, # 67, Taipei, Taiwan, 6-8 Nov. (2014).
65. T.-M. Liu, “In-vivo four photon luminescence microscopy with iron-platinum nanoparticles,” in the technical digest of Biomedical Molecular Imaging 2014, Taipei, Taiwan, 6-8 Nov. (2014). Invited talk
66. Y.-F. Shen, P.C. Wu, T.Y. Hsieh, K.W. Huang, Y.M. Wu & T.-M. Liu*, “Diagnose liver function in vivo with two-photon fluorescence of ICG,” in technical digest of Focus on Microscopy, WE-MO1-PAR-E3, Sydney, Australia, 13-16 Apr. (2014).
67. P.-C. Wu, C.-L. Liu, T.-M. Liu*, C.-K.. Tsai, J.-W. Lin, R.-B. Hsu, T.-D. Wang, C.-C. Chen, C.-K. Sun & P.-T. Chou, “In vivo tracking metabolic insulin with two-photon fluorescence of gold nanodots” in technical digest of Focus on Microscopy, P2-D/03, Sydney, Australia, 13-16 Apr. (2014).
68. C.-K. Tsai, C.-K. Chen, Y.-S. Chen, P.-C. Wu, Y. T. Hsieh, H.-W. Liu, C.-Y. Yeh, W.-L. Lin, J.-S. Chia, and T.-M. Liu*, “Imaging leukocytes in vivo with third harmonic generation microscopy,” in technical digest of Photonics West, paper 8588-65, San Francisco, USA, 2-7 Feb, (2013).
69. Y.-H. Wang, A.-H. Liao, J.-Y. Lin, C.-R. Lee, T.-M. Liu*, C.-R. Wang and P.-C. Li, “Enhanced delivery of gold nanoparticles by acoustic cavitation for photoacoustic imaging and photothermal therapy,” in technical digest of Photonics West, paper 8581-74, San Francisco, USA, 2-7 Feb, (2013).
70. Wang, T.-M. Liu, J. Wu, N. G. Horton, C. P. Lin, and C. Xu*, “Multi-color femtosecond source for simultaneous excitation of multiple fluorescence proteins in two-photon fluorescence microscopy,” in technical digest of Photonics West, paper 8588-91, San Francisco, USA, 2-7 Feb, (2013).
71. M.-Y. Chen, G.-Y. Zhuo, P.-F. Chen, P.-C. Wu, Y. T. Hsieh, T.-M. Liu, and S.-W. Chu*, “Second harmonic imaging to distinguish grana and starch inside an intact leaf,” in technical digest of Photonics West, paper 8588-75, San Francisco, USA, 2-7 Feb, (2013).
72. C.-H. Wu, F.-Y. Cheng, C.-S. Yeh, and T.-M. Liu*, “Two-photon photodynamic properties of TBO-AuNR-in-shell nanoparticles,” in technical digest of The 2nd molecular imaging center symposium biomedical molecular imaging 2012, P-26, Taipei, Taiwan (2012).
73. P.-C. Wu, T.-Y. Hsieh, Z.-Y. Tsai, and T.-M. Liu*, “Quantify remodeling of tumor collagen in the melanoma microenvironment,” in technical digest of The 2nd molecular imaging center symposium biomedical molecular imaging 2012, P-28, Taipei, Taiwan (2012).
74. Y.-F. Shen, F.-L. Huang, R. Obena, H.-T. Wu, H.-J. Chen, Y.-S. Chen, F.-H. Chang, C.-C. Lin, Y.-J. Chen, and T.-M. Liu*, “Magnetic NTA -Based Affinity Mass Spectrometry for Rapid Detection of Endogenous Porphyrin Metabolites,” in technical digest of The 2nd molecular imaging center symposium biomedical molecular imaging 2012, P-24, Taipei, Taiwan (2012).
75. C.-H. Wu, F.-Y. Cheng, C.-S. Yeh, and T.-M. Liu*, “Two-photon photodynamic properties of TBO-AuNR-in-shell nanoparticles,” in Proceeding of Optics and Photonics Taiwan, International Conference 2012, paper PF-FR-I-(3)-7, Taipei, Taiwan (2012).
76. P.-C. Wu, Y.-S. Chen, T.-Y. Hsieh, H.-W. Liu, and W.-L. Lin, and -M. Liu*, “Tracking melanoma microenvironment with HGM,” in Proceeding of Optics and Photonics Taiwan, International Conference 2012, paper PF-TH-I-(1)-3, Taipei, Taiwan (2012).
77. P.-C. Wu, T.-Y. Hsieh, and T.-M. Liu*, “Quantify remodeling of tumor collagen in the melanoma microenvironment,” in Proceeding of Optics and Photonics Taiwan, International Conference 2012, paper OF-SA-MD4-(3)-1, Taipei, Taiwan (2012).
78. C.-K. Chen and T.-M. Liu*, “In vivo Imaging Human Micro-circulation with Video-rate Third Harmonic Generation Microscopy,” in Proceeding of Biomedical Optics and Three-Dimensional Imaging 2012, April 28-May 2, Miami, Florida, USA (2012).
79. C.-J. Huang, C.-H. Wu, T.-M. Liu*, D.-B. Shieh, “Multiphoton fluorescence lifetime imaging microscopy (FLIM) of biliverdin of oral cancer cells,” in Proceeding of Focus on Microscopy 2012, TU-AF2-PAR-B-3, April 1-4, Singapore (2012).
80. C.-H. Wu, Y.-M. Wu, T.-M. Liu*, “Spectral investigation of human serum by using Cr:Forsterite laser,” in Proceeding of Focus on Microscopy 2012, P1-A01, April 1-4, Singapore (2012).
81. C.-K. Chen, T.-M. Liu*, “Video-rate third-harmonic-generation microscopy for blood cell quantification and counts in human skin,” in Proceeding of Focus on Microscopy 2012, P2-C06, April 1-4, Singapore (2012).
82. C.-J. Huang, C.-H. Wu, T.-M. Liu*, “Multiphoton fluorescence spectra and lifetimes of biliverdins and their protein-associated complex,” in Proceeding of Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications, Photonics West, paper 8233-27, January 21-26, San Francisco, CA, USA (2012).
83. P.-C. Wu, T.-M. Liu*, Y.-S. Chen, T. Y. Hsieh, H.-W. Liu, W.-L. Lin, “In vivo track the development of melanoma with the intrinsic third harmonic generation and two-photon fluorescence contrasts of melanin,” in Proceeding of Reporters, Markers, Dyes, Nanoparticles, and Molecular Probes for Biomedical Applications, Photonics West, paper 8233-26, January 21-26, San Francisco, CA, USA (2012).
84. T.-M. Liu*, “In vivo imaging the microscopic pharmacokinetics of nanomedicines: extravasation, diffusion, and metabolic uptake,” in the proceeding of New Zealand-Taiwan Symposium on Bio-nanotechnologies and MacDiarmid Institute BioNanoNetwork（BNN）Meeting, November 3-4, Taipei, Taiwan (2011). Invited Speaker.
85. F.-L. Huang, H.-T. Wu, R. Obena, C.-C. Lin, Y.-J. Chen, and T.-M. Liu*, “Magnetic NTA -Based Affinity Mass Spectrometry for Rapid Detection of Indigenous Porphyrins,” in the 59^th ASMS conference, paper 1779, Denver, CO, USA, June 5-9, (2011).
86. T.-M. Liu*, C.-T. Hsieh, Y.-S. Chen, F.-L. Huang, H.-Y. Huang, W.-J. Lee, C.-T. Kung, and C.-K. Sun, “Diagnosing hepatocellular carcinoma with the intensity and the lifetime of two-photon red autofluorescences,” in the proceeding of Multiphoton Microscopy in the Biomedical Sciences XI, paper, 7903-105, Photonics West, San Francisco, CA, USA, January 21-26, (2011).
87. S.-H. Chia, T.-M. Liu, A. A. Ivanov, A. M .Zheltikov, C.-K. Sun*, “A Femtosecond Cr⁴⁺:forsterite Laser Generating 1.4W Output Power,” in Technical Digest of Conference on Laser and Electro-Optics, San Jose, California, USA, May 16-21, paper CMNN6, (2010).
88. T.-M. Liu*, “THz photon to phonon conversions through dipolar active confined-acoustic-modes in nanoparticles and viruses,” in Book of Abstracts of the 13^th International Conference on Phonon Scattering in Condensed Matter (PHONONS 2010), paper ThA7, Taipei, Taiwan (2010). Invited
89. T.-M. Liu*, S.-Z. Sun, C.-F. Chang, G.-T. Chen, C.-C. Pan, J.-I. Chyi, and C.-K. Sun*, “Roles of Dislocation Density to the Scattering of Nano-acoustic Waves in GaN,” in Book of Abstracts of the 13^th International Conference on Phonon Scattering in Condensed Matter (PHONONS 2010), paper TuP9, pp. 109, Taipei, Taiwan (2010).
90. H.-P. Chen, Y.-R. Huang, T.-M. Liu, T.-N. Luo, Y.-J. E. Chen, C.-W. Lai, G.-B. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, and C.-K. Sun*, “Confined acoustic mode of Influenza A viruses revealed in a wide-bandwidth microwave-fluidic device,” in Book of Abstracts of the 13^th International Conference on Phonon Scattering in Condensed Matter (PHONONS 2010), paper ThP32, pp. 250, Taipei, Taiwan (2010).
91. T.-M. Liu, H.-P. Chen, S.-C. Yeh, C.-Y. Wu, C.-H. Wang, T.-N. Luo, Y.-J. Chen, S.-I. Liu, and C.-K. Sun, “Effects of hydration levels on the bandwidth of microwave resonant absorption induced by confined acoustic vibrations,” in the proceeding of Biophysical Society 54^rd Annual Meeting, San Francisco, LA, USA, (2010).
92. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun*, “Second Harmonic Generation Microscopy on the Polyhedral Inclusion Bodies of Nuclear Polyhedrosis Viruses,” in Proceeding of Asian Conference on Ultrafast Phenomenon 2010, Taipei, Taiwan, (2010).
93. T.-M. Liu, M.-C. Chan, I-H. Chen, S.-H. Chia, and C.-K. Sun*, “Miniaturized Two-photon Fluorescence and Second Harmonic Generation Microscope with a 24Hz Frame-rate,” in Proceeding of Asian Conference on Ultrafast Phenomenon 2010, Taipei, Taiwan, (2010).
94. T.-M. Liu, C.-T. Hsieh, C.-T. Kung, and C.-K. Sun*, “Identify Hepatocellular Carcinoma with Two-photon Fluorescence and Lifetime Imaging Microscopy,” in Proceeding of Asian Conference on Ultrafast Phenomenon 2010, Taipei, Taiwan, (2010).
95. K.-W. Hu, T.-M. Liu, K.-Y. Chung, K.-S. Huang, C.-T. Hsieh, C.-H. Su, C.-K. Sun, and C.-S. Yeh*, “Enhancement of Multiphoton Signals with Strong Surface Plasmon Resonance of Au Nanorod in Au/Ag Shell Nanostructures,” in Proceeding of Asian Conference on Ultrafast Phenomenon 2010, Taipei, Taiwan, (2010).
96. T.-M. Liu, A. A. Ivanov, S.-H. Chia, and C.-K. Sun*, “Femtosecond Cr:forsterite Laser Generating 1.4W Output Power,” in Proceeding of Asian Conference on Ultrafast Phenomenon 2010, Taipei, Taiwan, (2010).
97. T.-M. Liu*, “Molecular origins of multi-photon red autofluorescence in liver tissues,”in Proceeding of Photophore 2009, p.18, Taipei, Taiwan (2009).
98. T.-M. Liu, H.-P. Chen, L.-T. Wang, J.-R. Wang, T.-N. Luo, Y.-J. Chen, S.-I. Liu, and C.-K. Sun*, “Microwave resonant absorption of viruses through dipolar coupling with confined acoustic vibrations,” in Late abstracts book of Biophysical Society 53^rd Annual Meeting, Boston, MA, USA, (2009).
99. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun*, “Second harmonic generation microscopy on the polyhedral inclusion bodies of nuclear polyhedrosis viruses,” in Technical Digest of International Conference on Laser Applications in Life Sciences, Taipei, Taiwan, paper Sat-S44-04, (2008).
100. T.-M. Liu, H.-P. Chen, C.-Y. Wu, S.-C. Yeh, C.-H. Wang, L-Z. Wang, J.-R. Wang, T.-N. Luo, Y.-J. Chen, S.-I. Liu, and C.-K. Sun*, “Microwave resonant absorption of viruses through dipolar coupling with confined acoustic vibrations,” in Technical Digest of International Conference on Optics and Photonics in Taiwan, Taipei, Taiwan, paper Sat-S41-03, (2008).
101. T.-M. Liu, J.-Y. Lu, H.-P. Chen, C.-C. Kuo , M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, Y.-T. Li, C.-L. Pan, S.-H. Lin, C.-H. Kuan, and C.-K. Sun*, “Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanocrystals,” in Technical Digest of Conference on Laser and Electro-Optics, San Jose, California, May 4-9, paper CTuN7, (2008).
102. T.-M. Liu, M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, and C.-K. Sun*, “Piezoelectricity-induced terahertz photon absorption by confined acoustic phonons in wurtzite CdSe nanocrystals,” in Technical Digest of Quantum electronics and laser science conference, San Jose, California, May 4-9, paper QFN2, (2008).
103. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun*, “Second harmonic generation microscopy on the polyhedral inclusion bodies of nuclear polyhedrosis viruses,” in Technical Digest of Conference on Laser and Electro-Optics, San Jose, California, May 4-9, paper JTuA62, (2008).
104. T.-M. Liu, M.-C. Chan, I-H. Chen, S.-S. Chia, and C.-K. Sun*, “Miniaturized two-photon fluorescence and second harmonic generation microscope with a 24hz frame-rate,” in Technical Digest of Conference on Laser and Electro-Optics, San Jose, California, May 4-9, paper JTuA57, (2008).
105. M.-C. Chan, S.-H. Chia, T.-M. Liu, T.-H. Tsai, M.-C. Ho, A. A. Ivanov, A. M. Zheltikov, J.-Y. Liu, H.-L. Liu, and C.-K. Sun*,“1.2-2.2-μm tunable raman soliton source based on a Cr:forsterite-laser and a photonic-crystal fiber,” in Technical Digest of Conference on Laser and Electro-Optics, San Jose, California, May 4-9, paper CThGG7, (2008).
106. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun, “Second harmonic generation microscopy on the polyhedral inclusion bodies of nuclear polyhedrosis viruses,” in Programme and Abstract Book of Focus on Microscopy 2008, Awaji, Osaka, Japan, paper TU-MO-PAR-A2 (2008).
107. T.-M. Liu, J.-Y. Lu, C.-C. Kuo, M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, Y.-T. Li, C.-L. Pan, S.-H. Lin, C.-H. Kuan, and C.-K. Sun*, “Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanostructures,” in Proceeding of Ultrafast Phenomena in Semiconductors and Nanostructure Materials XII, Photonics West, paper 6892-47, San Jose, CA, USA (2008), invited paper.
108. T.-M. Liu, M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, C.-K. Sun*, “Terahertz photon absorption by terahertz confined acoustic vibrations in semiconductor nanocrystals,” in 5th Asian Conference on Ultrafast Phenomena (ACUP 2008), Singapore (2008), invited speaker.
109. T.-M. Liu, J.-Y. Lu, C.-C. Kuo, Y.-C. Wen, C.-W. Lai, M.-J. Yang, P.-T. Chou, D. B. Murray, L. Saviot, and C.-K. Sun*, “Millimeter Wave Absorption by Confined Acoustic Modes in CdSe/CdTe Core-shell Quantum Dots,” in 12^th International Conference on Phonon Scattering in Condensed Matter (Phonons 2007), Paris, France (2007).
110. C.-K. Sun*, K.-H. Lin, Y.-C. Wen, T.-M. Liu, C.-L. Hsieh, C.-T. Yu, and G.-W. Chern, “Nano-ultrasonics based on optical piezoelectric transducers,” 14th International Conference on Photoacoustic and Photothermal Phenomena (14ICPPP), Cairo, Egypt, (2007). invited speaker.
111. T.-M. Liu, J.-Y. Lu, C.-C. Kuo, C.-K. Sun*, C.-W. Lai, M.-J. Yang, P.-T. Chou, D. B. Murray, and L. Saviot, “Millimeter-wave Absorption by Confined Acoustic Waves in Nanocrystal Quantum Dots,” 1st Taiwan-U.S. Joint Workshop on Frontiers in Nanoscience, Taipei, Taiwan (2006), invited speaker.
112. T.-M. Liu, S.-Z. Sun, C.-F. Chang, C.-C. Pan, G.-T. Chen, J.-I. Chyi, V. Gusev, and C.-K. Sun*, “Anharmonic Decay of Sub-THz Coherent Acoustic Phonons in GaN,” in Technical Digest of Son et Lumière, Cargese, Corsica, France Oct 16-28, 2006, paper number 2.14.
113. C.-K. Sun*, K.-H. Lin, Y.-C. Wen, T.-M. Liu, C.-L. Hsieh, C.-T. Yu, and G.-W. Chern, “Coherent acoustic phonon generation from piezoelectric multilayers,” Book of Abstract of Son et Lumière: From Microphotonics to Nanophononics, pp. 23, Cargèse, France, Oct 16-28, 2006. Tutorial lecturer.
114. T.-M. Liu, S.-P. Tai, S.-W. Chu, T.-H. Tsai, S.-Y. Chen, X.-Y. Shi, C.-H. Chang, Y. Wu, D.-B. Shieh, L.-J. Chen, M. R. Prasad, K.-J. Lin, C.-K. Sun*, “Spectral Evidence on the Plasmon-Resonant Enhanced Third-Harmonic χ⁽³⁾ of Ag Nanoparticles,” in Technical Digest of Quantum electronics and laser science conference, Long Beach, California, May 21-26, paper QThA2, (2006).
115. T.-M. Liu, S.-Z. Sun, C.-F. Chang, C.-C. Pan, G.-T. Chen, J.-I. Chyi, C.-K. Sun*, “Anharmonic Decay of Longitudinal Coherent Acoustic Phonons in GaN:Confirmation of Herring’s Theory in the Sub-THz Regim,” in Technical Digest of Quantum electronics and laser science conference, Long Beach, California, May 21-26, paper QMB5, (2006).
116. C.-K. Sun*, S.-P. Tai, T.-M. Liu, X.-Y. Shi, C.-H. Chang, Y. Wu, D.-B. Shieh, L.-J. Chen, M. R. Prasad, and K.-J. Lin, “Functional imaging of cancer cells using plasmon-resonant-enhanced third-harmonic-generation microscopy with silver nano-particles,” Proceeding of the 3rd Taiwan-US Air Force Nanoscience Initiative Workshop, Hualien, Taiwan, paper C3, pp. 12, (2006), invited speaker.
117. T.-M. Liu, C.-T. Yu, C.-K. Sun*, F. X. Kärtner, and J. G. Fujimoto, “GHz repetition-rate femtosecond sources with desired repetition-rate and wavelength,” in Proceeding of Ultrafast Phenomena in Semiconductors and Nanostructure Materials X, Photonics West, San Jose, CA, USA (2006), invited paper.
118. M.-C. Chan, S.-P. Tai, T.-M. Liu, and C.-K. Sun*, “Photonic Crystal Fiber Based Two-Photon-Fluorescence Microscopy Systems at 0.8µm and 1.3µm Wavelength Regimes,” in Technical Digest of Conference on Lasers and Electro-Optics, Baltimore, Maryland, May 22-27, paper CWH6, (2005).
119. T.-M. Liu, C.-K. Sun*, F. X. Kärtner, and J. G. Fujimoto, “Multiplying the Repetition Rate of Passive Mode-locked Femtosecond Lasers by an Intracavity Flat Surface with Low Reflectivity,” in Technical Digest of Conference on Lasers and Electro-Optics, Baltimore, Maryland, May 22-27, paper CThN7, (2005).
120. S.-W. Chu, T.-M. Liu, S.-P. Tai, C.-K. Sun*, P. Fini, and S. P. Denbaars, “Comparison of forward- and backward-propagated second harmonic generation images in lateral overgrown GaN,” in Technical Digest of Conference on Lasers and Electro-Optics, San Francisco, California, May 16-21, paper ITuD5, (2004).
121. T.-M. Liu, S.-W. Chu, S.-P. Tai, C.-K. Sun*, F.X. Kärtner, and J.G. Fujimoto, “Compact self-started femtosecond Cr:forsterite laser for non-linear optical microscopy,” in Technical Digest of Conference on Laser and Electro-Optics, San Francisco, California, May 16-21, paper CThFF4, (2004).
122. T.-M. Liu, C.-T. Yu, and C.-K. Sun*, “2-GHz-repetition-rate resonant cavity for the enhancement of second harmonic generation,” in Technical Digest of Conference on Laser and Electro-Optics, San Francisco, California, May 16-21, paper CMQ6, (2004).
123. M.-C. Chan, T.-M. Liu, C.-H Tseng, M.-C. Tien, H.-H. Chang, and C.-K. Sun*, “Mapping 3D electric fields using electric field induced second harmonic generation in LiNbO₃ crystals,” in Proceeding of Pacific Rim Conference on Lasers and Electro-Optics 2003, Taipei, Taiwan, R.O.C., vol. 2, paper TH1F-(5)-5, pp. 417 (2003).
124. J.-W. Shi, K.-G. Gan, J. E. Bowers, T.-M. Liu, C.-K. Sun*, and Y.-J. Chiu, “Nonlinear behaviors of low-temperature-grown GaAs based photodetectors at long telecommunication wavelength (~1.3μm),” in Proceeding of Pacific Rim Conference on Lasers and Electro-Optics 2003, Taipei, Taiwan, R.O.C., vol. 2, paper TH1D-(6)-2, pp. 406 (2003).
125. J.-W. Chern, T.-M. Liu, S.-W. Chu, and C.-K. Sun*, “Bandwidth analysis of third-harmonic generation in optical thin films,” in Proceeding of Pacific Rim Conference on Lasers and Electro-Optics 2003, Taipei, Taiwan, R.O.C., vol. 1, paper WP-(5)-13, pp. 254 (2003).
126. T.-M. Liu, Y.-C. Huang, G.-W. Chern, K.-H. Lin, C.-J. Lee, Y.-C. Hung, and C.-K. Sun*, “Characterization of ultrashort optical pulses: a comparison between TOAD and FROG,” in Proceeding of Pacific Rim Conference on Lasers and Electro-Optics 2003, Taipei, Taiwan, R.O.C., vol. 1, paper W1F-(5)-4, pp. 131 (2003).
127. C.-L. Hsieh, T.-M. Liu, M.-C. Tien, C.-K. Sun*, L.-W. Sung, and H.-H. Lin, “Femtosecond carrier dynamics in InGaAsN single quantum well,” in Proceeding of Pacific Rim Conference on Lasers and Electro-Optics 2003, Taipei, Taiwan, vol. 1, paper TU4G-(6)-4, pp. 83 (2003).
128. S.-W. Chu, S.-Y Chen, T.-H. Tsai, T.-M. Liu, C.-K Sun*, S.-B. Wu, S. Biring, J.-K. Wang, and Y.-L. Wang, “Functional THG microscopy with plasmon-resonance enhancement in silver nanoparticles.” in Technical Digest of Conference on Laser and Electro-Optics (CLEO/QELS’2003), Baltimore. MD, postdeadline paper CThPDD7 (2003).
129. C.-K. Sun*, S.-W. Chu, S.-Y. Chen, T.-H. Tsai, T.-M. Liu, C.-Y. Lin, and H.-J. Tsai, “Non-invasiveness, high cell viability, and high penetration of multi-harmonic generation microscopy,” in Conference Proceedings – Lasers and Electro-Optics Society Annual Meeting-LEOS, Tucson, AZ, USA, vol. 2, paper TuH4, pp.239-240 (2003).
130. S.-W. Chu, T.-M. Liu, I-H. Chen and C.-K. Sun*, “Real-time second-harmonic-generation microscopy based on a 600-mW, 2-GHz repetition rate Ti:sapphire laser.” in Programme and Abstract Book of Focus on Microscopy (The 15^th International Conference on Confocal Microscopy and the 16^th International Conference on 3D Image Processing in Microscopy), Genoa, Italy, paper B25, pp. 20 (2003).
131. C.-K. Sun*, S.-W. Chu, C.-C. Chen, T.-M. Liu,“ Developmental biology studied by harmonic generation microscopy” in Programme and Abstract Book of Focus on Microscopy (The 15^th International Conference on Confocal Microscopy and the 16^th International Conference on 3D Image Processing in Microscopy), Genoa , Italy, paper M07, pp. 22  (2003). Leica Microsystems Innovation Award (2^nd Prize).
132. C.-K. Sun*, S.-W. Chu, S.-Y. Chen, T.-H. Tsai, T.-M. Liu, S.-P. Tai, W.-J. Lee, C.-Y. Lin, H.-J. Tsai, Y.-C. Chen, and B.-L. Lin, “Multi-Harmonic Generation Microscopy and Biopsy,” in Abstract Book of The International Conference on Biophoton and Biophotonics, Beijing, China, invited paper (2003).
133. S.-W. Chu, T.-M. Liu, I.-H. Chen, C.-K. Sun*, C.-Y. Lin, and H.-J. Tsai, “Real-time SHG imaging technique based on a 2-GHz repetition rate femtosecond Ti:sapphire laser,” in Proceedings of Multiphoton Microscopy in the Biomedical Sciences III, Photonic West, San Jose, CA, USA, The International Society for Optical Engineering, vol. 4963, pp. 60 (2003).
134. S.-W. Chu, T.-M. Liu, and C.-K. Sun*, “Efficient second harmonic generation microscopy based on a GHz repetition rate laser,” in Program and Abstract Book of Focus on Microscopy 2002, Kaohsiung , Taiwan, paper TpP8, pp. 70. (2002)
135. S.-W. Chu, I-H. Chen, T.-M. Liu, C.-K. Sun*, P. C. Cheng, and B.-L. Lin, “Biophotonic crystal effects studied by multi-modal nonlinear microscopy,” in Program and Abstract Book of Focus on Microscopy 2002, Kaohsiung, Taiwan, paper TpP9, pp. 71. (2002).
136. S.-W. Chu, I-H. Chen, T.-M. Liu, C.-K. Sun*, P.-C. Chen, B.-L. Lin, and S.-P. Lee, “Biophotonic crystal effects in multi-modal nonlinear microscopy,” in Technical Digest of Conference on Lasers and Electro-Optics 2002, Long Beach, California, U.S.A., paper CThW4, pp. 588-589 (2002).
137. T.-M. Liu, K.-H. Lin, G.-W. Chern, C.-K. Sun*, “THG-Based Third Order Autocorrelation for Direct Optical Pulse-shape Measurement on Mode-locked Ti:sapphire Lasers,” in Technical Digest of Conference on Lasers and Electro-Optics 2002, Long Beach, California, U.S.A., paper CWA45, pp. 346 (2002).
138. J.-W. Shi, Y.-H. Chen, T.-M. Liu, M.-C. Chan, K.-G. Gan, John E. Bowers, and C.-K. Sun*, “Metal-semiconductors-metal traveling wave photodetectors,” in Conference Proceedings – Lasers and Electro-Optics Society Annual Meeting-LEOS, Glasgow, United Kingdom, vol. 2, pp. 445 (2002).
139. C.-K. Sun*, S.-W. Chu, T.-M. Liu, C.-C. Chen, C.-Y. Lin, and H.-J Tsai, “Harmonic Generation Microscopy for Developmental Biology,” in Proceedings of The 4th International Conference on Multi-Dimensional Microscopy and Cell-Tissue Engineering, Guangzhou, China, plenary talk, pp. 24 (2002).
140. C.-K. Sun*, S.-W. Chu, and T.-M. Liu, “High frame-rate second-harmonic- generation microscopy based on a 2GHz Ti:sapphire laser,” in the Proceeding of OSA Annual Meeting, Orlando, FL, paper TuH4 (2002).
141. C.-K. Sun*, S.-W. Chu, and T.-M. Liu, “Four-/three-photon microscopy of GaN,” in the Proceeding of OSA Annual Meeting, Orlando, FL, paper TuL1. (2002).
142. C.-K. Sun*, S.-W. Chu, I-H. Chen, T.-M. Liu, B.-L. Lin, and P. C. Cheng, “Biological photonic crystals revealed by a multi-modality microscopy,” in Proceedings of Multiphoton Microscopy in the Biomedial Sciences II, Photonic West, San Jose, CA, USA (2002).
143. C.-K. Sun*, S.-W. Chu, I-S. Chen, T.-M. Liu, F. Bresson, B.-L. Lin, and P. C. Cheng, “Multi-modality nonlinear spectral microscopy,” in Program and Abstract Book of Focus on Microscopy, Amsterdam, Netherlands, pp. 99 (2001).
144. C.-K. Sun*, S.-W. Chu, I-S. Chen, T.-M. Liu, P.-C. Cheng, and B.-L. Lin, “Multi-modality non-linear microscopy,” in Technical Digest of Conference on Laser and Electro-Optics (CLEO/QELS’2001), Baltimore, MD, USA, paper CTuR2, pp. 222 (2001).
145. T.-M. Liu, S.-P. Tai, and C.-K. Sun*, “Femtosecond All-Solid-State Orange Laser”, in Technical Digest of Conference on Laser and Electro-Optic (CLEO/QELS’2001), Baltimore, MD, USA, paper CMA3, pp. 2-3 (2001).
146. T.-M. Liu, S.-P. Tai, S.-W Chu, H.-H Chang, and C.-K. Sun*, “Simultaneous Multi-Wavelength Generation from a Modelocked All-Solid-State Cr:forsterite Laser”, in Technical Digest of Conference on Laser and Electro-Optics (CLEO/QELS’2001), Baltimore, MD, USA, paper CThP3, pp. 503-504 (2001).
147. T.-M. Liu, Y.-H. Huang, G.-W. Chern, C.-J. Lee, Y.-C. Hung, and C.-K. Sun*, “Direct Temporal Intensity Measurement of Ultrashort Optical Pulses Using Third-Harmonic-Generation based Triple Correlation”, in Technical Digest of Conference on Laser and Electro-Optics (CLEO/QELS’2001), Baltimore, MD, USA, paper CMP1, pp. 74-75 (2001).
148. S.-W. Chu, I-S. Chen, T.-M. Liu, C.-K. Sun*, P. C. Cheng, R.-W. Chen, and B.-L. Lin, “Noninvasive deep-tissue 3D microscopy using harmonic generations,” Proceedings of 2nd International Photonics Conference, Hsinchu, TAIWAN, paper W-S4-B004, Vol. 1, pp. 138-140 (2000), Best Student Paper Award.
149. T.-M. Liu, H.-H. Chang, S.-W. Chu, and C.-K. Sun*, “Simultaneous multi-wavelength generation from a modelocked all-solid state Cr:forsterite laser,” Proceedings of 2nd International Photonics Conference, Hsinchu, TAIWAN, paper Th-S2-C002, Vol. 1, pp. 228-230 (2000), Best Student Paper Award.
150. T.-M. Liu, S.-W. Chiu, I-H. Chen, C.-K. Sun*, B.-L. Lin, W.-J. Yang, P.-C. Cheng, and I. Johnson, “Multi-photon fluorescence of green fluorescence protein (GFP) and commonly used bio-probes excited by femtosecond Cr:forsterite lasers,” Proceedings of 2nd International Photonics Conference, Hsinchu, TAIWAN, paper W-S4-A004, Vol. 1, pp. 119-121 (2000).
151. P.-C. Cheng, F.-J. Kao, C.-K. Sun* B.-L. Lin, Y.-M. Wang, J.-C. Chen, Y.-S. Wang, T.-M. Liu, and M.-K. Huang, “Multi-photon spectroscopy of plant tissues,” in Technical Digest of Multi-dimentional Microscopy 2000 (The 2nd Asia-Pacific Symposium on Confocal Microscopy and Related Technologies), invited paper, Kaohsiung, TAIWAN (2000).
152. C.-K. Sun*, S.-W. Chu, T.-M. Liu, and Y.-H. Cheng, “Multi-photon scanning microscopy using a Femtosecond Cr:forsterite laser,” in Technical Digest of Multi-dimentional Microscopy 2000 (The 2nd Asia-Pacific Symposium on Confocal Microscopy and Related Technologies), invited speaker, Kaohsiung, TAIWAN (2000).
153. T.-M. Liu, S.-W. Chu, C.-K. Sun*, and P.-C. Cheng, “Multi-photon confocal microscopy by using a femtosecond Cr:Forsterite laser,” in Conference Proceeding of CLEO/Europe-IQEC, paper CTuK 0021, Nice, France (2000).
154. C.-K. Sun*, S.-W. Chu, T.-M. Liu, and P. C. Cheng, “High intensity scanning microscopy with a femtosecond Cr:Forsterite laser,” Scanning 2000, San Antonio, TX, USA, invited paper (2000).
155. B.-L. Lin, F.-J. Kao, P. C. Cheng, C.-K. Sun*, R.-W. Chen, Y.-M. Wang, J.-C. Chen, Y.-S. Wang, T.-M. Liu, and M.-K. Huang, “Multi-photon micro-spectroscopy of biological specimens” in SPIE Proceeding of Photonics/Taiwan, Taipie, TAIWAN (2000), 4082-18, invited paper; Proceedings of SPIE, Vol. 4082, 100-104 (2000).
156. C. Cheng, B.-L. Lin, F.-J. Kao, C.-K. Sun, Y.-S. Wang, T.-M. Liu, Y.-M. Wang, J.-C. Chen, M.-K. Huang, and I. Johnson*, “Multi-photon fluorescence spectroscopy of fluorescent bio-probes and bio-molecules,” in SPIE Proceeding of Photonics/Taiwan, Taipei, TAIWAN (2000); Proceedings of SPIE, Vol. 4082, 87-91 (2000).

Conference Proceedings

1. T.-M. Liu, “Time-course Molecular Diagnosis with Fluorescent Metabolomics,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 13311, 133110B (2025).
2. Hu and T.-M. Liu*, “Aggregation-induced DNA fluorescence for the label-free detection of programmed necrosis,” Proceedings of SPIE 13315, 133150D (2025).
3. T.-M. Liu, “Evaluate time-course pharmacodynamics in tumor organoid with stress-induced lipofuscin-like autofluorescence,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE12821, 1282106 (2024).
4. Wu, L.-Z. Guo, Y.-H. Liu, Y.-S. Leung, H.-C. Tai, T.-D. Wang, Y.-H. Chuang, C.-H. Lin, P.-T. Chou, I-R. Lai, T.-M. Liu*, “Plasma Fluorochromics for the Diagnosis of Acute Mesenteric Ischemia,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE12822-8, 1282204 (2024).
5. Chen, G. Qin, Y. Liu, M. Li, L. Du, W. Zheng, X. Wang, T.-M. Liu*, “Spatial Fluorescent Metabolomics in Prediabetic Adipose Tissues,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE12831,128310D (2024).
6. G. Mernie, M.-C. Tseng, W.-T. Wu, T.-M. Liu, and Yu-Ju Chen*, “Nanoprobe-based Mass Spectrometry and FTIR Spectroscopy for Rapid Phospholipid Profiling,” Journal of the Chinese Chemical Society 69, 94-106 (2022).
7. Li and T.-M. Liu*, “Visualizing Morphodynamics and Metabolic Status of Immune Microenvironment with Harmonic Generation and Multiphoton Fluorescence Microscopy,” Optics InfoBase Conference Papers, Part F177-Microscopy-2020 (2020).
8. T.-M. Liu, “Infrared active nanomaterials for the theragnosis of tumors in vivo,” Optics InfoBase Conference Papers, Part F78-JSAP 2017, 5p-A409-6 (2017).
9. C.-H. Wu, C.-H. Hsieh, S.-H. Huang, J.-W. Lin, T.-D. Wang, S.-C. Hsu, Y.-M. Wu, and T.-M. Liu*, “In vivo Imaging Flow Cytometry of Human Leukocytes,” Optics Infobase Conference Papers, Part F62-BODA 2017, BoW3A.2 (2017).
10. L.-Z. Guo, T.-D. Wang, J.-W. Lin, and T.-M. Liu*, “Investigate the variation in optical redox ratio of epicardial adipose tissue in patients with CAD or DM through auto-fluorescence metabolic molecular image,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 9711, 971114 (2016).
11. Y.-F. Shen, C.-T. Hsieh, Y.-S. Chen, F.-L. Huang, and T.-M. Liu*, “Metabolic Imaging of Bilirubins for the Cancer Diagnosis,” Bio-Optics: Design and Application, BODA 2015, BT4A.4 (2015).
12. M.-Y. Chen, G.-Y. Zhuo, P.-F. Chen, P.-C. Wu, T.-M. Liu*, and S.-W. Chu, “Multiphoton imaging to distinguish grana and starch inside an intact leaf,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 8588, 858822 (2013).
13. C.-K. Tsai, C.-K. Chen, Y.-S. Chen, P.-C. Wu, Y. T. Hsieh, H.-W. Liu, C.-Y. Yeh, W.-L. Lin, J.-S. Chia, and T.-M. Liu*, “Imaging leukocytes in vivo with third harmonic generation microscopy,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 8588, 85881R (2013).
14. Y.-H. Wang, A.-H. Liao, J.-Y. Lin, C.-R. Lee, T.-M. Liu*, C.-R. Wang and P.-C. Li, “Enhanced delivery of gold nanoparticles by acoustic cavitation for photoacoustic imaging and photothermal therapy,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 8581, 858123 (2013).
15. Wang, T.-M. Liu, J. Wu, N. G. Horton, C. P. Lin, and C. Xu*, “Multi-color femtosecond source for simultaneous excitation of multiple fluorescence proteins in two-photon fluorescence microscopy,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE8588, 85882I (2013).
16. C.-K. Chen and T.-M. Liu*, “In vivo Imaging Human Micro-circulation with Video-rate Third Harmonic Generation Microscopy,” Biomedical Optics Biomed 2012, JM3A.73 (2012).
17. C.-J. Huang, C.-H. Wu, T.-M. Liu*, “Multiphoton fluorescence spectra and lifetimes of biliverdins and their protein-associated complex,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 8233, 82330P (2012).
18. P.-C. Wu, T.-M. Liu*, Y.-S. Chen, T. Y. Hsieh, H.-W. Liu, W.-L. Lin, “In vivo track the development of melanoma with the intrinsic third harmonic generation and two-photon fluorescence contrasts of melanin,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 8233, 82330O (2012).
19. T.-M. Liu*, C.-T. Hsieh, Y.-S. Chen, F.-L. Huang, H.-Y. Huang, W.-J. Lee, C.-T. Kung, and C.-K. Sun, “Diagnosing hepatocellular carcinoma with the intensity and the lifetime of two-photon red autofluorescences,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 7903, 79032Z (2011).
20. S.-H. Chia, T.-M. Liu, A. A. Ivanov, A. M .Zheltikov, C.-K. Sun*, “A Femtosecond Cr⁴⁺:forsterite Laser Generating 1.4W Output Power,” Optics Infobase Conference Papers, CMNN6 (2010).
21. S.-H. Chia, T.-M. Liu, A. A. Ivanov, A. M .Zheltikov, C.-K. Sun*, “A Femtosecond Cr⁴⁺:forsterite Laser Generating 1.4W Output Power,” Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference: 2010 Laser Science to Photonic Applications, CLEO/QELS 2010, 5501123 (2010).
22. Y.-C. Wen, T.-M. Liu, C. Dais, D. Grützmacher, T.-T. Chen, Y.-F. Chen, J.-W. Shi, and C.-K. Sun, “Bandgap characteristics of a 3d phononic meta material composed of ordered quantum dots,” IUTAM Bookseries 26, 201-208 (2010).
23. S.-H. Chia, N.-C. Cheng, T.-M. Liu, M.-C. Chan, I.-H. Chen, C.-K. Sun, “Miniaturized epi-third harmonic generation microscope with a sub-micron spatial resolution and a video rate,” Optics Infobase Conference Papers (2009).
24. S.-H. Chia, N.-C. Cheng, T.-M. Liu, M.-C. Chan, I.-H. Chen, C.-K. Sun, “Miniaturized epi-third harmonic generation microscope with a sub-micron spatial resolution and a video rate,” 2009 Conference on Lasers and Electro Optics and 2009 Conference on Quantum Electronics and Laser Science Conference CLEO QELS 2009, 5225928 (2009).
25. T.-M. Liu, J.-Y. Lu, H.-P. Chen, C.-C. Kuo , M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, Y.-T. Li, C.-L. Pan, S.-H. Lin, C.-H. Kuan, and C.-K. Sun*, “Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanocrystals,” 2008 Conference on Quantum Electronics and Laser Science Conference on Lasers and Electro Optics CLEO QELS, 4551734 (2008).
26. T.-M. Liu, M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, and C.-K. Sun*, “Piezoelectricity-induced terahertz photon absorption by confined acoustic phonons in wurtzite CdSe nanocrystals,” Conference on Quantum Electronics and Laser Science QELS Technical Digest Series, 4553000 (2008).
27. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun*, “Second harmonic generation microscopy on the polyhedral inclusion bodies of nuclear polyhedrosis viruses,” 2008 Conference on Quantum Electronics and Laser Science Conference on Lasers and Electro Optics CLEO QELS, 4552210 (2008).
28. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun*, “Second harmonic generation microscopy on the polyhedral inclusion bodies of nuclear polyhedrosis viruses,” Conference on Quantum Electronics and Laser Science QELS Technical Digest Series, 4552719 (2008).
29. T.-M. Liu, M.-C. Chan, I-H. Chen, S.-S. Chia, and C.-K. Sun*, “Miniaturized two-photon fluorescence and second harmonic generation microscope with a 24hz frame-rate,” 2008 Conference on Quantum Electronics and Laser Science Conference on Lasers and Electro Optics CLEO QELS, 4552204 (2008).
30. T.-M. Liu, M.-C. Chan, I-H. Chen, S.-S. Chia, and C.-K. Sun*, “Miniaturized two-photon fluorescence and second harmonic generation microscope with a 24hz frame-rate,” Conference on Quantum Electronics and Laser Science QELS Technical Digest Series, 4552713 (2008).
31. T.-M. Liu, M.-C. Chan, I-H. Chen, S.-S. Chia, and C.-K. Sun*, “Miniaturized two-photon fluorescence and second harmonic generation microscope with a 24hz frame-rate,” Optics InfoBase Conference Papers (2008).
32. M.-C. Chan, S.-H. Chia, T.-M. Liu, T.-H. Tsai, M.-C. Ho, A. A. Ivanov, A. M. Zheltikov, J.-Y. Liu, H.-L. Liu, and C.-K. Sun*,“1.2-2.2-μm tunable raman soliton source based on a Cr:forsterite-laser and a photonic-crystal fiber,” 2008 Conference on Quantum Electronics and Laser Science Conference on Lasers and Electro Optics CLEO QELS, 4551418 (2008).
33. M.-C. Chan, S.-H. Chia, T.-M. Liu, T.-H. Tsai, M.-C. Ho, A. A. Ivanov, A. M. Zheltikov, J.-Y. Liu, H.-L. Liu, and C.-K. Sun*,“1.2-2.2-μm tunable raman soliton source based on a Cr:forsterite-laser and a photonic-crystal fiber,” Optics Infobase Conference Papers (2008).
34. T.-M. Liu, Y.-W. Lee, C.-F. Chang, S.-C. Yeh, C.-H. Wang, S.-W. Chu, and C.-K. Sun, “Second harmonic generation microscopy on the polyhedral inclusion bodies of nuclear polyhedrosis viruses,” Optics Infobase Conference Papers (2008).
35. T.-M. Liu, J.-Y. Lu, C.-C. Kuo, M.-J. Yang, C.-W. Lai, P.-T. Chou, M.-H. Chang, H.-L. Liu, Y.-T. Li, C.-L. Pan, S.-H. Lin, C.-H. Kuan, and C.-K. Sun*, “Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanostructures,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 6892, 68921C (2008).
36. T.-M. Liu, J.-Y. Lu, H.-P. Chen, C.-C. Kuo, C.-W. Lai, M.-J. Yang, P.-T. Chou, Y.-T. Li, C.-L. Pan, M.-H. Chang, H.-L. Liu, and C.-K. Sun*, “Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanostructures,” Optics InfoBase Conference Papers (2008).
37. S.-P. Tai, C.-H. Yu, T.-M. Liu, Y.-C. Wen, C.-K. Sun, “In vivo molecular-resonant third harmonic generation microscopy of hemoglobin,” Conference on Lasers and Electro-Optics, 2007, CLEO 2007, 4452971 (2007).
38. S.-P. Tai, C.-H. Yu, T.-M. Liu, Y.-C. Wen, C.-K. Sun, “In vivo molecular-resonant third harmonic generation microscopy of hemoglobin,” Optics Infobase Conference Papers (2007).
39. C.-K. Sun*, K.-H. Lin, Y.-C. Wen, T.-M. Liu, P.-C. Li, J.-I. Chyi, “Optical piezoelectric transducer based nanoultrasonics,” 2007 7th IEEE International Conference on Nanotechnology – IEEE-NANO 2007, Proceedings (2007).
40. T.-M. Liu, S.-P. Tai, S.-W. Chu, T.-H. Tsai, S.-Y. Chen, X.-Y. Shi, C.-H. Chang, Y. Wu, D.-B. Shieh, L.-J. Chen, M. R. Prasad, K.-J. Lin, C.-K. Sun*, “Spectral Evidence on the Plasmon-Resonant Enhanced Third-Harmonic χ⁽³⁾ of Ag Nanoparticles,” Conference on Lasers and Electro Optics and 2006 Quantum Electronics and Laser Science Conference CLEO QELS 2006, 4628982 (2006).
41. T.-M. Liu, S.-P. Tai, S.-W. Chu, T.-H. Tsai, S.-Y. Chen, X.-Y. Shi, C.-H. Chang, Y. Wu, D.-B. Shieh, L.-J. Chen, M. R. Prasad, K.-J. Lin, C.-K. Sun*, “Spectral Evidence on the Plasmon-Resonant Enhanced Third-Harmonic χ⁽³⁾ of Ag Nanoparticles,” Optics Infobase Conference Papers (2006).
42. T.-M. Liu, S.-Z. Sun, C.-F. Chang, C.-C. Pan, G.-T. Chen, J.-I. Chyi, C.-K. Sun*, “Anharmonic Decay of Longitudinal Coherent Acoustic Phonons in GaN:Confirmation of Herring’s Theory in the Sub-THz Regim,” Conference on Lasers and Electro Optics and 2006 Quantum Electronics and Laser Science Conference CLEO QELS 2006, 4628912 (2006).
43. T.-M. Liu, S.-Z. Sun, C.-F. Chang, C.-C. Pan, G.-T. Chen, J.-I. Chyi, C.-K. Sun*, “Anharmonic Decay of Longitudinal Coherent Acoustic Phonons in GaN:Confirmation of Herring’s Theory in the Sub-THz Regim,” Optics Infobase Conference Papers (2006).
44. T.-M. Liu, C.-T. Yu, C.-K. Sun*, F. X. Kärtner, and J. G. Fujimoto, “GHz repetition-rate femtosecond sources with desired repetition-rate and wavelength,” Progress in Biomedical Optics and Imaging – Proceedings of SPIE 6118, 61180A (2006).
45. M.-C. Chan, S.-P. Tai, T.-M. Liu, and C.-K. Sun, “Photonic crystal fiber based two-photon-fluorescence microscopy systems at 0.8μm and 1.3μm wavelength regimes,” Optics InfoBase Conference Papers (2006).
46. T.-M. Liu, C.-K. Sun*, F. X. Kärtner, and J. G. Fujimoto, “Multiplying the Repetition Rate of Passive Mode-locked Femtosecond Lasers by an Intracavity Flat Surface with Low Reflectivity,” Optics Infobase Conference Papers (2006).
47. T.-M. Liu, C.-K. Sun*, F. X. Kärtner, and J. G. Fujimoto, “Multiplying the Repetition Rate of Passive Mode-locked Femtosecond Lasers by an Intracavity Flat Surface with Low Reflectivity,” 2005 Conference on Lasers and Electro Optics CLEO, 3, 1787–1789, CThN7 (2005).
48. M.-C. Chan, S.-P. Tai, T.-M. Liu, and C.-K. Sun, “Photonic crystal fiber based two-photon-fluorescence microscopy systems at 0.8μm and 1.3μm wavelength regimes,” 2005 Conference on Lasers and Electro Optics CLEO,2, 1372–1374, CWH6 (2005).
49. S.-W. Chu, S.-Y. Chen, T.-H. Tsai, T.-M. Liu, S.-B. Wu, S. Biring, J.-K. Wang, Y.-L. Wang, K. Chen, B.-L. Lin, and C.-K. Sun, “Resonance-enhanced functional third harmonic optical microscopy,” Proceedings of SPIE – The International Society for Optical Engineering 5323, 306 – 313 (2004).
50. K.-H. Lin, C.-L. Hsieh, T.-M. Liu, S. Keller, S. P. DenBaars, G.-T. Chen, C.-C. Pan, J.-I. Chyi, and C.-K. Sun, “Nano ultrasonics: Science and technology,” Proceedings of SPIE – The International Society for Optical Engineering 5352, 101-109 (2004).
51. S.-W. Chu, T.-M. Liu, S.-P. Tai, C.-K. Sun*, P. Fini, and S. P. Denbaars, “Comparison of forward- and backward-propagated second harmonic generation images in lateral overgrown GaN,” OSA Trends in Optics and Photonics Series97, 317–318 (2004).
52. T.-M. Liu, C.-T. Yu, and C.-K. Sun*, “2-GHz-repetition-rate resonant cavity for the enhancement of second harmonic generation,” OSA Trends in Optics and Photonics Series96 A, 267–268 (2004).
53. M.-C. Chan, T.-M. Liu, C.-H Tseng, M.-C. Tien, H.-H. Chang, and C.-K. Sun*, “Mapping 3D electric fields using electric field induced second harmonic generation in LiNbO₃ crystals,” Pacific Rim Conference on Lasers and Electro Optics CLEO Technical Digest, 2, 417, 127697 (2003).
54. J.-W. Shi, K.-G. Gan, J. E. Bowers, T.-M. Liu, C.-K. Sun*, and Y.-J. Chiu, “Nonlinear behaviors of low-temperature-grown GaAs based photodetectors at long telecommunication wavelength (~1.3μm),” Pacific Rim Conference on Lasers and Electro Optics CLEO Technical Digest, 2, 406, 1276962 (2003).
55. G.-W. Chern, T.-M. Liu, S.-W. Chu, and C.-K. Sun*, “Bandwidth analysis of third-harmonic generation in optical thin films,” Pacific Rim Conference on Lasers and Electro Optics CLEO Technical Digest, 1, 254, 1274711 (2003).
56. T.-M. Liu, Y.-C. Huang, G.-W. Chern, K.-H. Lin, C.-J. Lee, Y.-C. Hung, and C.-K. Sun*, “Characterization of ultrashort optical pulses: a comparison between TOAD and FROG,” Pacific Rim Conference on Lasers and Electro Optics CLEO Technical Digest,1, 131, 1274596 (2003).
57. C.-L. Hsieh, T.-M. Liu, M.-C. Tien, C.-K. Sun*, L.-W. Sung, and H.-H. Lin, “Femtosecond carrier dynamics in InGaAsN single quantum well,” Pacific Rim Conference on Lasers and Electro Optics CLEO Technical Digest, 1, 83, 1274553 (2003).
58. S.-W. Chu, S.-Y Chen, T.-H. Tsai, T.-M. Liu, C.-K Sun*, S.-B. Wu, S. Biring, J.-K. Wang, and Y.-L. Wang, “Functional THG microscopy with plasmon-resonance enhancement in silver nanoparticles.” OSA Trends in Optics and Photonics Series, 88, 2195–2196 (2003).
59. C.-K. Sun*, S.-W. Chu, S.-Y. Chen, T.-H. Tsai, T.-M. Liu, C.-Y. Lin, and H.-J. Tsai, “Non-invasiveness, high cell viability, and high penetration of multi-harmonic generation microscopy,” Conference Proceedings Lasers and Electro Optics Society Annual Meeting LEOS, 1, 239–240 (2003).
60. S.-W. Chu, T.-M. Liu, I.-H. Chen, C.-K. Sun*, C.-Y. Lin, and H.-J. Tsai, “Real-time SHG imaging technique based on a 2-GHz repetition rate femtosecond Ti:sapphire laser,” Proceedings of SPIE – The International Society for Optical Engineering 4963, 60-68 (2003).
61. C. Cheng, C. K. Sun, B. L. Lin, S.W. Chu, I. S. Chen, T.-M. Liu, S.P. Lee, H. L. Liu, M. X. Kuo, D. J. Lin, “Biological photonic crystals – Revealed by multi-photon nonlinear microscopy,” Microscopy and Microanalysis 8(Suppl. 2), 268-269 (2002).
62. S.-W. Chu, I-H. Chen, T.-M. Liu, C.-K. Sun*, P.-C. Chen, B.-L. Lin, and S.-P. Lee, “Biophotonic crystal effects in multi-modal nonlinear microscopy,” Pacific Rim Conference on Lasers and Electro Optics CLEO Technical Digest, 588–589 (2002).
63. T.-M. Liu, K.-H. Lin, G.-W. Chern, C.-K. Sun*, “THG-Based Third Order Autocorrelation for Direct Optical Pulse-shape Measurement on Mode-locked Ti:sapphire Lasers,” Pacific Rim Conference on Lasers and Electro Optics CLEO Technical Digest, 346 (2002).
64. T.-M. Liu, K.-H. Lin, G.-W. Chern, C.-K. Sun*, “THG-Based Third Order Autocorrelation for Direct Optical Pulse-shape Measurement on Mode-locked Ti:sapphire Lasers,” Optics Infobase Conference Papers, CWA45 (2002).
65. J.-W. Shi, Y.-H. Chen, T.-M. Liu, M.-C. Chan, K.-G. Gan, John E. Bowers, and C.-K. Sun*, “Metal-semiconductors-metal traveling wave photodetectors,” Conference Proceedings Lasers and Electro Optics Society Annual Meeting LEOS, 2, 445–446 (2002).
66. C.-K. Sun*, S.-W. Chu, I-S. Chen, T.-M. Liu, P.-C. Cheng, and B.-L. Lin, “Multi-modality non-linear microscopy,” Conference on Lasers and Electro Optics Europe Technical Digest, 222 (2001).
67. T.-M. Liu, S.-P. Tai, and C.-K. Sun*, “Femtosecond All-Solid-State Orange Laser”, Conference on Lasers and Electro Optics Europe Technical Digest, 2–3 (2001).
68. T.-M. Liu, S.-P. Tai, S.-W Chu, H.-H Chang, and C.-K. Sun*, “Simultaneous Multi-Wavelength Generation from a Modelocked All-Solid-State Cr:forsterite Laser”, Conference on Lasers and Electro Optics Europe Technical Digest, 503–504 (2001).
69. T.-M. Liu, S.-P. Tai, S.-W Chu, H.-H Chang, and C.-K. Sun*, “Simultaneous Multi-Wavelength Generation from a Modelocked All-Solid-State Cr:forsterite Laser”, Optics Infobase Conference Papers, CThP3 (2001).
70. T.-M. Liu, Y.-H. Huang, G.-W. Chern, C.-J. Lee, Y.-C. Hung, and C.-K. Sun*, “Direct Temporal Intensity Measurement of Ultrashort Optical Pulses Using Third-Harmonic-Generation based Triple Correlation”, Conference on Lasers and Electro Optics Europe Technical Digest, 74–75 (2001).
71. T.-M. Liu, Y.-H. Huang, G.-W. Chern, C.-J. Lee, Y.-C. Hung, and C.-K. Sun*, “Direct Temporal Intensity Measurement of Ultrashort Optical Pulses Using Third-Harmonic-Generation based Triple Correlation”, Optics Infobase Conference Papers, CMP1 (2001).
72. T.-M. Liu, S.-W. Chu, C.-K. Sun*, and P.-C. Cheng, “Multi-photon confocal microscopy by using a femtosecond Cr:Forsterite laser,” Conference on Lasers and Electro Optics Europe Technical Digest, 97 (2000).
73. B.-L. Lin, F.-J. Kao, P. C. Cheng, C.-K. Sun*, R.-W. Chen, Y.-M. Wang, J.-C. Chen, Y.-S. Wang, T.-M. Liu, and M.-K. Huang, “Multi-photon micro-spectroscopy of biological specimens” Proceedings of SPIE – The International Society for Optical Engineering 4082, 100-104 (2000).
74. C. Cheng, B.-L. Lin, F.-J. Kao, C.-K. Sun, Y.-S. Wang, T.-M. Liu, Y.-M. Wang, J.-C. Chen, M.-K. Huang, and I. Johnson*, “Multi-photon fluorescence spectroscopy of fluorescent bio-probes and bio-molecules,” Proceedings of SPIE – The International Society for Optical Engineering 4082, 87-91 (2000).
75. C.-K. Sun, J.-C. Wang, T.-M. Liu, Y.-J. Chiu, and J. E. Bowers, “Electron trapping time versus annealing temperature in low temperature grown GaAs,” Conference Proceedings – Lasers and Electro-Optics Society Annual Meeting-LEOS 2, 633-634 (1999).