2022年交叉中心发表论文列表

1. M.-M. Bao, I. E. Igwe, K. Chen, T.-H. Zhang, Modulated Collective Motions and Condensation of Bacteria. Chinese Physics Letters 39, 108702 (2022).

2. Y. Chen, L. Wang, T. H. Zhang, Tunable collective dynamics of ellipsoidal Quincke particles. Soft Matter 10.1039/D2SM01238C (2023).

3. Chuang Wang, Shenglin Zhou, Chen Wu, Zhaohui Yang*, Xiaohua Zhang* Janus carbon nanotube sponges for highly efficient solar-driven vapor generation,Chemical Engineering Journal 2023, 454, 140501(10 pages).

4. Junbo You, Jiapeng Zhang, Jinling Zhang, Zhaohui Yang *, Xiaohua Zhang* A Stretchable and Highly Sensitive Strain Sensor Based on 2D MXene and 1D Whisker Carbon Nanotube Binary Composite Film, ACS Appl. Mater. Interfaces,  2022, 14, 55812−55820.

5. Shenglin Zhou, Jiapeng Zhang, Chuang Wang, Chen Wu, Xiangcheng Zhang, Zhaohui Yang*, Xiaohua Zhang* , Extremely black carbon nanotube materials with three-dimensional networks for highly efficient solar-driven vapor generation, Nanoscale, 2022, 14, 17438-17446.

6. Hai Qin, Jiapeng Zhang, Hao Cheng, Liang Hong, Zhaohui Yang*, Xiaohua Zhang* , A High-Voltage Gel Electrolyte with a Low Salt Concentration for Quasi-Solid-State Flexible Supercapacitors, Energy & Fuels, 2022, 36, 16, 9295–9302.

7. 冯澳, 段素华, 曹晓环, 谭睿, 黄智豪*, 张晓华*, 张正彪* , 单一分子量γ-丁内酯齐聚物的合成及其结晶行为研究 高分子学报  2022, 53, 9, 1131-1141.(特邀论文)

8. Chun-Lai Ren*, Yue Shan, Peifei Zhang, Hong-Ming Ding*, Yu-Qiang Ma*, Uncovering the molecular mechanism for dual effect of ATP on phase separation in FUS solution, Science Advances, 8, eabo7885 (2022);

9. Junxia Wang , Liang Li , Yingkun Zhang, Kaifeng Zhao, Xiaofeng Chen, Haicong Shen, Yuanqiang Chen , Jia Song, Yuqiang Ma, Chaoyong Yang, Hongming Ding*, and Zhi Zhu*，Synergetic collision and space separation in microfluidic chip for efficient affinity-discriminated molecular selection, Proc. Natl. Acad. Sci. U.S.A., 119, e2211538119 (2022);

10.  Yuan-qiang Chen, Yan-jing Sheng, Yu-qiang Ma, Hong-ming Ding*, Efficient calculation of protein–ligand binding free energy using GFN methods: the power of the cluster model, Phys. Chem. Chem. Phys., 24, 14339-14347 (2022);

11. Yu-Xin Zhu, Yan-Jing Sheng, Yu-Qiang Ma, Hong-Ming Ding*, Assessing the Performance of Screening MM/PBSA in Protein–Ligand Interactions, J. Phys. Chem. B ,126, 1700–1708 (2022);

12. Yao Xu, Shu-wei Huang, Yu-qiang Ma*, Hong-ming Ding*, Loading of DOX into a tetrahedral DNA nanostructure: the corner does matter, Nanoscale Adv., 4, 754-760 (2022);

13. Zeng-Shuai Yan, Xiao-Lei Li, Yu-Qiang Ma*, and Hong-Ming Ding*， Effect of the Graphene Nanosheet on Functions of the Spike Protein in Open and Closed States: Comparison between SARS-CoV-2 Wild Type and the Omicron Variant, Langmuir,  38, 13972–13982 (2022);

14. Zeng-Shuai Yan, Yao Xu, Hong-Ming Ding* and Yu-Qiang Ma*, Molecular Insights into Striking Antibody Evasion of SARS-CoV-2 Omicron Variant, Chin. Phys. Lett., 39, 108701 (2022)；

15. Yuan-Qiang Chen, Yan-Jing Sheng, Hong-Ming Ding* and Yu-Qiang Ma*, Evaluation on the performance of MM/PBSA in nucleic acid-protein systems, Chinese Physics B, 31, 048701 (2022)；

16.Ying Wang, Yi-wen Gao, Wen-de Tian*, and Kang Chen*; Obstacle-induced giant jammed aggregation of active semiflexible filaments Ying Wang, Phys. Chem. Chem. Phys., 24, 23779 (2022)，DOI: 10.1039/d2cp02819k

17. 高艺雯，王影，田文得*，陈康*，空间调制的驱动外场下活性聚合物的动力学行为，物理学报 71, 240501 (2022)，DOI: 10.7498/aps.71.20221367

18. Chen Shen, Chao-ran Qin, Tian-liang Xu, Kang Chen*, Structure and dynamics of an active polymer adsorbed on the surface of a cylinder， Wen-de Tian*; Soft Matter, 18, 1489 (2022)

19.Yue Sun, Yuyan Weng, Gaojian Chen, and Weidong Zhang, Switchable RAFT Polymerization Employing Photoresponsive HABI as a Mediator, Macromol. Rapid Commun., 2022, 2200664.

20.Yan Huang, Yue Sun, Yuyan Weng, and Weidong Zhang, A Simple and Green Oxygen-Tolerant RAFT Polymerization without Additional Catalyst and Initiator. ChemistrySelect 2022, 7, e202201583.

21. Shi, J.; Li, Z.; Lin, T.; Shi, Z., Successive Deprotonation Steering the Structural Evolution of Supramolecular Assemblies on Ag(111). Molecules 2022, 27 (12), 3876.

22.J. Codina, B. Mahault, H. Chaté, J. Dobnikar, I. Pagonabarraga, X.-q. Shi, Small Obstacle in a Large Polar Flock. Physical Review Letters 128, 218001 (2022)

23.张何朋1，施夏清2，†† 杨明成3，涌现于交叉科学的新方向——活性物质*，物理，51卷 (2022年) 4 期，DOI：10.7693/wl20220401

24.秦超然，  黄瑞静，  宋祥燕，  田文得，The Aggregation Dynamics of α-Synucleins Slowed Down by Polyamindoamine，Acta Polymerica Sinica  2023, 54(1):87-94. DOI：10.11777/j.issn1000-3304.2022.22180

25.Rui-jing Huang, Ran Tang, Xiang-yan Song, Jing-han Wang, Kang Chen, Wen-de Tian，Insights into aggregation dynamics of NACore peptides from coarse-grained simulations，PROTEINS : Structure, Function, and Bioinformatics  Volume91, Issue1  January 2023  Pages 16-21  https://doi.org/10.1002/prot.26405

26.He Jing-Xi, Qin Chao-Ran, Xu Tian-Liang, Chen Kang, Tian Wen-De，Dynamic behavior of oligomers formed by “十” shaped self-propelling agents，Acta Phys. Sin., 2022, 71(15): 150501.doi: 10.7498/aps.71.20212385

27. Dan-jian Mao, Chao-ran Qin and Wen-de Tian，Kick effect of enzymes causes filament compression，J. Phys.: Condens. Matter 34 284003

28. Cheng Xu, Kai Yang*, and Bing Yuan*, Non-Gaussian Diffusion of Individual Lipids Unveils the Unique Peptide–Membrane Interaction Dynamics, J. Phys. Chem. Lett. 2023, 14, 854−862.

29. Haixiao Wan#, Duo Xu#, Xuewei Dong#, Kai Yang* and Li-Tang Yan*, Insight into Biophysicochemical Principles of Biopolymers through Simulation and Theory, Chinese Journal of Polymer Science 2023, doi.org/10.1007/s10118-023-2954-y (Invited Review).

30. Yujiang Dou#, Haibo Chen#, Yuke Ge, Kai Yang*, and Bing Yuan*, Heterogeneous Structural Disturbance of Cell Membrane by Peptides with Modulated Hydrophobic Properties, Pharmaceutics 2022, 14(11), 2471 (Invited Paper).

31. Luping Ou, Haibo Chen, Bing Yuan*, Kai Yang*, Membrane-Specific Binding of 4 nm Lipid Nanoparticles Mediated by an Entropy-Driven Interaction Mechanism, ACS Nano 2022, 16, 18090–18100.

32. Wenwen Li#, Che Zhang#, Xuemei Lu#, Shuqing Sun, Kai Yang*, and Bing Yuan*, Synergistic Membrane Disturbance Improves the Antibacterial Performance of Polymyxin B, Polymers 2022, 14, 4316 (Invited Paper).

33. Yushuang Wei#, Haibo Chen#, YueXuan Li, Kejie He, Kai Yang*, and Hong-Bo Pang*, Synergistic entry of individual nanoparticles into mammalian cells driven by free energy decline and regulated by their sizes, ACS Nano, 2022, 16, 4, 5885–5897.

34. Yurong Ma#, Mengling Zhang#, Zhixiong Deng#, Xiting Wang, Hui Huang*, Kai Yang*, Bing Yuan, Yang Liu*, and Zhenhui Kang*. Chiral carbon dots - a functional domain for tyrosinase Cu active site modulation via remote target interaction. Nanoscale, 2022, 14, 1202-1210.

35. Yuliang Sun, Zhixiong Deng, Xukai Jiang, Bing Yuan*, Kai Yang*. Interactions between polymyxin B and various bacterial membrane mimics: A molecular dynamics study. Colloids and Surfaces B: Biointerfaces 2022, 211, 112288.

36. S.C Yao, S.L. Zhou, J.P. Zhang, JP, Z.H. Yang, X.H. Zhang,Improved wettability and enhanced ionic transport in highly porous CNT sponge, Nanotechnology 2021， 32105709

37. S.L. Zhou, J.P. Zhang, C. Wang, C. Wu, X.C. Zhang, Z.H. Yang, X.H. Zhang, Extremely black carbon nanotube materials with three-dimensional networks for highly efficient solar-driven vapor generation , Nanoscale 2022，14, 17438-17446

38.J.P. Zhang, D.J. Zhu, S. Zhang, H. Cheng, S.L. Chen, R.J. Tang, Z.H. Hang, T.H. Zhang, X.H. Zhang, Z.H. Yang ,  Asymmetric electromagnetic shielding performance based on spatially controlled deposition of nickel nanoparticles on carbon nanotube sponge, Carbon, 2022, 194, 290-296

39. H. Cheng, Y.N. Wang, J.P. Zhang, S.L. Chen, H. Qin, S.C. Yao, X.H. Zhang, Z.H. Yang, High-Performance Flexible Solid-State Supercapacitors Based on MnO2-Decorated Carbon Nanotube Sponge with Ultra-high Capacitance, Long Cycling Life, and Enhanced Mechanical Strength, Energy and Fuels 2022, 36 (4) , pp.2239-2247

40. S.L. Chen, M.Y. Yang, J.P. Zhang, H. Cheng, H. Qin, S.C. Yao, M.Y. Wang, X.H. Zhang, Z.H. Yang, Synergistic enhancement on flexible solid-state supercapacitor based on redox-active Fe(3+)ions/natural spidroin modified vertically aligned carbon nanotube arrays, Nanotechnology, 2022, 33(39), 395401