超快激光研究动力学过程；生物物理

1. Wang Xiaofang, Guo Jirui, Li Tanping*, Wei Zhiyi To Unravel Connection between Nonequilibrium and Equilibrium Solvation Dynamics of Tryptophan: Success and Failure of Linear Response Theory of Fluorescence Stokes Shift, accepted, RSC Advances, 2020. (IF=3.2)

2. Guo Jirui, Wang Xiaofang, Li Tanping*, Wei Zhiyi Linear Response Theory for Decomposition Energies，The Journal of Physical Chemistry B，124:3540, 2020. (IF=3.0)

3. Li Tanping*; Wang Xiaofang, Theoretical Insights on Nonlinear Response Theory of Fluorescence Spectroscopy in Liquids, J Chem Theory Comput, 15:471, 2019. (IF=5.4)

4. Li, Tanping*, Efficient Criterion To Evaluate Linear Response Theory in Optical Transitions., J Chem Theory Comput, 13:1867 , 2017. (IF=5.4)

5. Taylor-Edinbyrd, Kiara, Li, Tanping; Kumar, Revati, Effect of chemical structure of S-nitrosothiols on nitric oxide release mediated by the copper sites of a metal organic framework based environment., Phys Chem Chem Phys, 19:11947, 2017. (IF=3.7)

医学物理

1. XN Huang, H Chafi, KL Matthews, O Carmichael, TP Li, QG Miao, SZ Wang*, G Jia*, Magnetic resonance elastography of the brain: A study of feasibility and reproducibility using an ergonomic pillow-like passive driver，Magnetic Resonance Imaging, Magnetic Resonance Imaging, June 2019, 59:8-76.

2. XN Huang, R Schurr, SZ Wang, QG Miao, TP Li*, G Jia*, Development of Radiofrequency Saturation Amplitude-independent Quantitative Markers for Magnetization Transfer MRI of Prostate Cancer. Current Medical Imaging Formerly:Current Medical Imaging Review, 2019, 15. 10.2174/1573405615666190318153328.

之前论文列表

1. Li TP*, kumar R*, Role of excited state solvent fluctuations on time-dependent fluorescence Stokes shift, Journal of Chemical Physics, 143:174501, 2015.

2. Li TP, Taylor E, Kumar R, A computational study of the effect of the metal organic framework environment on the release of chemically stored nitric oxide, Physical Chemistry Chemical Physics, 17:23403, 2015.

3. Li TP, Cui YW, Mathaga J, Kumar R, Kuroda DG, Hydration and vibrational dynamics of betaine (N,N,N-trimethylglycine), The Journal of Chemical Physics, 142:212438, 2015.

4. Li TP*, On the validity of Linear Response Theory for Time-Dependent Fluorescence in Staphylococcus nuclease,
Journal of Physical Chemistry B 118: 12952, 2014.

5. Chang CW, Kao YT, Li J, Tan C, Li TP, Saxena C, Liu ZY, Wang LJ, Sancar A, Zhong DP, Ultrafast solvation dynamics at binding and active sites of photolyases, Proceedings of the National Academy of Sciences 107: 2914, 2010.

6. Chang CW, He TF, Guo LJ, Stevens JA, Li TP, Wang LJ, Zhong DP, Mapping solvation dynamics at the function site of flavodoxin in three redox states, Journal of the American Chemical Society, 132, 12741, 2010.

7. Li TP, Hassanali AA, Zhong DP, Singer SJ, Hydration Dynamics As Revealed By The Fluorescence Stokes Shift: The Origin Of Slow Hydration Dynamics And Breakdown Of Linear Response, Biophysical Journal 96: 302, 2009.

8. Qiu WH, Li TP, Zhang LY, Yang Y, Kao YT, Wang LJ, Zhong DP, Ultrafast quenching of tryptophan fluorescence in proteins: Interresidue and intrahelical electron transfer, Chemical Physics 350: 154, 2008. (co-first author)

9. Li TP, Hassanali AA, Singer SJ, Origin of slow relaxation following photoexcitation of W7 in myoglobin and the dynamics of its hydration layer,
Journal of Physical Chemistry B 112: 16121, 2008.

10. Li TP, Hassanali AA, Kao YT, Zhong DP, Singer SJ, Hydration dynamics and time scales of coupled water-protein fluctuations, Journal of the American Chemical Society 129: 3376, 2007. (IF=13, citation: 123)

11. Hassanali AA, Li TP, Zhong DP, Singer SJ, A molecular dynamics study of Lys-Trp-Lys: Structure and dynamics in solution following photoexcitation, Journal of Physical Chemistry B 110: 10497, 2006.

12. Qiu WH, Zhang LY, Kao YT, Lu WY, Li TP, Kim J, Sollenberger GM, Wang LJ, Zhong DP, Ultrafast hydration dynamics in melittin folding and aggregation: Helix formation and tetramer self-assembly, Journal of Physical Chemistry B 109: 16901, 2005.

13. Li TP, Fan K, Wang J, Wang W, Reduction of protein sequence complexity by residue grouping, Protein Engineering 16: 323, 2003. (citation: 77)

14. Li TP, Wang J, Fan K, Wang W, How simple can the proteins be: From the prediction of the classes of protein structures, Mod Phys Lett B 17: 245, 2003.

15. Qin M, Wang J, Li TP, Wang W, Sequence design and folding dynamics of lattice protein-like models, Int J Mod Phys B 16: 631, 2002.