发表论文

2022

35. J. Liang, P. Tan, Y. Zhao, L. Li, S. Jin, L. Hong*, and Z. Xu*
Superscalability of the random batch Ewald method
The Journal of Chemical Physics. 156, 014114 (2022)

34. R. Li, Z. Liu, F. Jiang, Y. Zhao, G. Yang and L. Hong*
Enhancement of Thermal Stability of Proteinase K by Biocompatible Cholinium-based Ionic Liquids
Physical Chemistry Chemical Physics, 2022. (in press)

33. Y. Yu, C. Yang, M. Baggioli, A. E. Phillips, A. Zaccone, L. Zhang, R. Kajimoto, M. Nakamura, D. Yu, L. Hong*
The ω scaling of the vibrational density of states in quasi-2D nanoconfined solids
Nature Communications, 2022. (in press)

32. L. Zheng, Z. Liu, Q. Zhang*, S. Li, J. Huang, L. Zhang, B. Zan, M. Tyagi, H. Cheng*, T. Zuo, V. G. Sakai, T. Yamada,C. Yang, P. Tan, F. Jiang, H. Chen, W. Zhuang*, L. Hong*
Universal Dynamical Onset in Water at Distinct Material Interfaces
Chemical Science, 2022. (on line)

31. S. Li, P. Tan, J. Li, M. Tang, and L. Hong*
Many-body effect renders universal subdiffusion to water on different proteins
Physical Review Research, 4, L22003 (2022).

2021

30. X. Qian*, D. Han, L. Zheng, J. Chen, M. Tyag, Q. Li, F. Du, S. Zheng, X. Huang*, S. Zhang, J. Shi, H. Huang*, X. Shi, J. Chen, H Qin, J. Bernholc, X. Chen, L. Q Chen, L. Hong*, Q. M. Zhang
High-entropy polymer produces a giant electrocaloric effect at low fields
Nature, 600.7890 (2021): 664-669.

29. Z. Lin, M. Mao, C. Yang, Y. Tong, Q. Li, J. Yue, G. Yang, L. Hong, X. Yu, L. Gu, X. Huang, L. Suo and L. Chen
Amorphous anion-rich titanium polysulfides for aluminum-ion batteries
Science Advances, 7, no. 35 (2021): eabg6314

28. J. Huang, Q. Xu, Z. Liu, N. Jain, M. Tyagi, D. Wei, and L. Hong*
Controlling the Substrate Specificity of an Enzyme through Structural Flexibility by Varying the Salt-Bridge Density
Molecules, 26, no. 18 (2021): 5693.

27. J. Li, X. Hu, T. Neusius, X. Cheng, M.D. Smith, A. Godec, L. Hong, R. Metzler, J.C. Smith
Reply to: Insufficient evidence for ageing in protein dynamics
Nature Physics, 17, 775–776 (2021)

26. P. Tan, J. Yue, Y. Yu, B. B. Liu, T. Liu; L. Zheng, L. He, X. Zhang, L. Suo, L. Hong*
Solid-like Nano-Anion-Cluster Constructs Free Lithium-ion Conducting Super-Fluid Framework in Water-in-salt Electrolyte.
The Journal of Physical Chemistry C, (2021), 125, 22, 11838–11847

2020

25. R. Li, Z. Liu, L. Li, J. Huang, T. Yamada, V. G. Sakai, P. Tan* and L. Hong*
Anomalous sub-diffusion of water in biosystems: From hydrated protein powders to concentrated protein solution to living cells
Structural Dynamics,7, no. 5 (2020): 054703.

24. Z. Dominik, P. Tan, L. Hong, D. D. Bari, V. G. Sakai, and J. Peters.
Differences between calcium rich and depleted α-lactalbumin investigated by molecular dynamics simulations and incoherent neutron scattering
Physical Review E, 101, no. 3 (2020): 032415

23. M. Yu, P. Tan, Y. Ye, D. J. Voneshen, X. Xing* and L. Hong*
One Dimensional Nature of Protein Low Energy Vibrations 
Physical Review Research, 2, no. 3 (2020): 032050.

22. P. Tan, J. Huang, E. Mamontov, V.G. Sakai, F. Merzel, Z. Liu, Y. Ye, L. Hong*
Decoupling between translation and rotation of water in the proximity of a protein molecule
Physical Chemistry Chemical Physics, 22, no. 32 (2020): 18132-18140.

21. L. Liu, S. Jiang, M. Xing, C. Chen, C. Lai, N. Li, G. Liu, D. Wu, H. Gao, L. Hong, P. Tan, S. Chen, Z. Deng, G. Wu, L. Wang
Structural Analysis of an l-Cysteine Desulfurase from an Ssp DNA Phosphorothioation System. 
mBio, 11, no. 2 (2020).

20. Z. Liu, C. Yang, L. Zhang, Y. Yu, M. Yu, V.G Sakai, M. S. Tyagi, T. Yamada, L. He, X. Zhang, L. Hong*
Heterogeneity of Water Molecules on the Free Surface of Thin Reduced Graphene Oxide Sheets
The Journal of Physical Chemistry C, 2020 124 (20), 11064-11074

2019

19. L. Zheng, L. Hong*
Combining Neutron Scattering, Deuteration Technique, and Molecular Dynamics Simulations to Study Dynamics of Protein and Its Surface Water Molecules
Chinese Journal of Polymer Science, 37:1083–1091

18. K. L. Ngai, L. Hong, S. Capaccioli, A. Paciaroni
Uncovering a novel transition in the dynamics of proteins in the dry state
Journal of Molecular Liquids, 286:110810

17. T. Zuo, C. Ma, G. Jiao, Z. Han, S. Xiao, H. Liang, L. Hong, D. Bowron, A. Soper, C. C. Han, H. Cheng
Water/Cosolvent Attraction Induced Phase Separation: A Molecular Picture of Cononsolvency
Macromolecules, 52:457-464

16. P. Tan, J. Li, L. Hong*
Statistical properties for diffusive motion of hydration water on protein surface
Physica B: Condensed Matter, 562:1-5

15. X. Ma, Q. Wang, Y. Li, P. Tan, H. Wu, P. Wang, X. Dong, L. Hong, and G. Meng
How BamA recruits OMP substrates via poly-POTRAs domain
The FASEB Journal, 33:13063-14842

2018

14. Z. Liu, C. Yang, J. Huang, G. Ciampalini, J. Li, V. G. Sakai, M. Tyagi, H. ONeill, Q. Zhang, S. Capacciol, K. L. Ngai, and L. Hong*
Direct Experimental Characterization of Contributions from Self-motion of Hydrogen and from Interatomic Motion of Heavy Atoms to Protein Anharmonicity
Journal of Physical Chemistry B, 122.43 (2018): 9956-9961.

13. P. Tan, Z. Fu, L. Petridis, S. Qian, J. Li and L. Hong*
A two-fold structural classification method for determining the accurate ensemble of protein structures
Communications in Computational Physics, 25:1010-1023

12. Z. Liu, Sara Lemmonds, J. Huang, M. Tyagi, L. Hong* and N. Jain
Entropic Contribution to Enhanced Thermal Stability in the Thermostable P450 CYP119
Proceedings of the National Academy of Sciences,115.43 (2018): E10049-E10058. 

11. P. Tan, Y. Liang, Q. Xu, E. Mamontov, J. Li, X. Xing, and L. Hong*
Gradual crossover from subdiffusion to normal diffusion: A many-body effect in protein surface water.
Physical Review Letters,120, 248101 (2018). (Editors' suggestion, Featured in Physics)

10. J. C. Smith, P. Tan, L. Petridis, L. Hong.
Dynamic Neutron Scattering by Biological Systems.
Annual Review of Biophysics, 47, 335-354 (2018)

2017

9. H. O’neill, S. V. Pingali, L. Petridis, J. He, E. Mamontov, L. Hong, V. Urban, B. Evans, P. Langan, J. C. Smith. 
Dynamics of Water Bound to Crystalline Cellulose.
Science Reports, 2017, 7 (1), 11840.

8. C. Xia, J. Li, B. Kou, Y. Cao, Z. Li, X. Xiao, Y. Fu, T. Xiao, L. Hong, J. Zhang, W. Kob, Y. Wang.
Origin of Noncubic Scaling Law in Disordered Granular Packing.
Physical Review Letters, 118 (2017) 238002.

7. Z. Liu, J. Huang, M. Tyagi, H. O’Neill, Q. Zhang, E. Mamontov, N. Jain, Yujie Wang, Jie Zhang, Jeremy C. Smith, and L. Hong*
Dynamical Transition of Collective Motions in Dry Protein.
Physical Review Letters, 119 (2017), 048101.

6. L. Zhang, J. Zheng, Y. Q. Wang, L. Zhang, Z. H. Jin, L. Hong, Y. J. Wang and J. Zhang
Experimental studies of vibrational modes in a two-dimensional amorphous solid.
Nature Communications, 8: 67 (2017).

2016

5. X. Hu, L. Hong, M. Smith, T. Neusius, X. Cheng, and J.C. Smith.
The Dynamics of Single Protein Molecules is Nonequilibrium and Self-Similar over Thirteen Decades in Time.
Nature Physics, 12, 171–174 (2016)

4. D. Vural, X. Hu, B. Lindner, N. Jain, Y. Miao, X. Cheng, Z. Liu, L. Hong, and J. C. Smith.
Quasielastic neutron scattering in biology: Theory and applications.
Biochim. Biophys. Acta, 2016.

3. L. Hong*, N. Jain, X. Cheng, A. Bernal, M. Tyagi, and J. C. Smith.
Determination of functional collective motions in a protein at atomic resolution using coherent neutron scattering.
Science Advances, Vol. 2, no. 10, e1600886, pp. 1–8, 14 Oct 2016.

2. G. K. Dhindsa, D. Bhowmik, M. Goswami, H. O’Neill, E. Mamontov, B. G. Sumpter, L. Hong, P. Ganesh, and X.-q. Chu
Enhanced Dynamics of Hydrated tRNA on Nanodiamond Surfaces: A Combined Neutron Scattering and MD Simulation Study.
J. Phys. Chem. B, DOI: 10.1021/acs.jpcb.6b07511 (2016).

1. C. D. Ferrier, A. Kisliuk, L. Hong, G. C. Jr, G. Carini, G. D’Angelo, C. Alba-Simionesco, V. N. Novikov, and A. P. Sokolov. 
Why many polymers are so fragile: A new perspective.
J. Chem. Phys, vol. 145, no. 15, p. 154901, 2016.

来上海交大之前

2015

20. D. Vural, L. Hong, J. C. Smith, and H. R. Glyde.
Motional displacements in proteins: The origin of wave-vector-dependent values. 
Phys. Rev. E, vol. 91, no. 5, pp. 1–11, 2015.

2014

19. L. Hong, M. Sharp, S. Poblete, R. Bhiel, X. Cheng, D. Richter and J. C. Smith.
Detailed structure and dynamics of a compact state of a multidomain protein, the mercuric ion reductase, in aqueous solution.
Biophys. J.,107, 393,(2014).

18. L. Hong, L. Petridis and J. C. Smith.
Biomolecular Structure and Dynamics with Neutrons: The View from Simulation.
Isr. J.Chem. 54, 1264 (2014).

17. L. Hong, N. Smolin and J. C. Smith.
De Gennes Narrowing Describes the Relative Motion of Protein Domains.
Physical Review Letters, 112, 158102 (2014).

2013

16. Y. Miao, L. Hong, Z. Yi and J. C. Smith.
Zaccai Resilience and Site-specific Hydration in a Globular Protein.
The European Physical Journal E, 36, 9885 (2013).

15. L. Hong, D.C. Glass, J.D. Nickels, Z. Yi, T. Madhusudan, H. O’Neill, A. P. Sokolov and J.C. Smith.
Elastic and conformational softness of a globular protein.
Physical Review Letters, 110, 028104 (2013).

2012

14.Y.L. Miao, Z. Yi, D.C. Glass, L. Hong, M. Tyagi, J. Baudry, N. Jain and J.C. Smith. 
Temperature-Dependent Dynamical Transitions of Different Classes of Amino Acid Residue in a Globular Protein.
J. Am. Chem. Soc. 134, 19576 (2012).

13. J.D. Nickels, H. O’Neill, L. Hong, M. Tyagi, G. Ehlers, K. Weiss, Q. Zhang, Z. Yi, E. Mamontov, J.C. Smith and A.P. Sokolov.
Dynamics of Protein and its Hydration Water: Neutron Scattering Studies on Fully Deuterated GFP.
Biophys. J. 103, 1566 (2012).

12. L. Hong, X. Cheng, D.C. Glass, and J.C. Smith.
Surface hydration amplifies single-well protein atom diffusion propagating into the macromolecular core.
Physical Review Letters, 108, 238102 (2012).

2011

11. L. Hong, N. Smolin, B. Lindner, A.P. Sokolov, and J.C. Smith.
Three classes of motion in the dynamic neutron scattering susceptibility of a globular protein.
Physical Review Letters, 107, 148102 (2011).

10. L. Hong, V.N. Novikov, and A.P. Sokolov.
Dynamic heterogeneities, boson peak, and activation volume in glass-forming liquids.
Phys. Rev. E, 83, 061508 (2011).

9. L. Hong, V.N. Novikov, and A.P. Sokolov.
Is there any connection between fragility of glass forming systems and dynamic heterogeneity /cooperativity.
J. Non-Cryst. Solids, 357, 351 (2011).

2010

8. L. Hong, B. Begen, A. Kisliuk, V.N. Novikov, and A.P. Sokolov.
Influence of pressure on fast picosecond relaxation in glass-forming materials.
Phys. Rev. B, 81, 104207 (2010).

2009

7. L. Hong, P.D. Gujrati, V.N. Novikov, and A.P. Sokolov.
Molecular cooperativity in the dynamics of glass-forming systems: A new insight.
J. Chem. Phys., 131, 194511 (2009).

6. L. Hong, B. Begen, A. Kisliuk, S. Pawlus, M. Paluch, and A.P. Sokolov.
Influence of pressure on quasielastic scattering in glasses: Relationship to the boson peak.
Physical Review Letters., 102, 145502 (2009).

2008

5. L. Hong, B. Begen, A. Kisliuk, C. Alba-Simionesco, V.N. Novikov, and A.P Sokolov.
Pressure and density dependence of the boson peak in polymers.
Phys. Rev. B, 78,134201 (2008).

4. G. Carini Jr, G. Carini, G. D’Angelo, G. Tripodo, A. Bartolotta, G. Salvato, and L. Hong.
Low temperature Specific heat of heterocyclic polymer networks: Effect of network density.
Phil. Mag., 88, 3999 (2008).

3. S. Pawlus, K. Kunal, L. Hong, and A.P. Sokolov.
Influence of molecular weight on dynamic crossover temperature in linear polymers.
Polymer, 49, 2918 (2008).

2006

2. L. Hong, Z. Liu, X.T. Zhang, and S.K. Hark.
Self-catalytic growth of single-phase AlGaN alloy nanowires by chemical vapor deposition.
Appl. Phys. Lett., 89, 193105 (2006).

1. L. Hong, Z.R. Wang, and S.K. Hark.
Relationship of the SERRS of CV and the concentration of Ag colloids. 
Chin. J.Light Scattering, 18, 21 (2006).