个人信息
个人简介

2006.9-2010.6 南京大学 物理学院 凝聚态物理 本科

2010.9-2015.6 南京大学 物理学院 软物质物理 硕博连读 

2015.8-2020.9 18新利体育 软凝聚态物理及交叉研究中心 副教授

2020.10-至今  18新利体育 软凝聚态物理及交叉研究中心 特聘教授


国家优秀青年基金获得者主要从事软凝聚态物理、计算生物物理、统计物理的交叉领域研究,包括纳米载体与细胞膜、生物大分子等界面相互作用和生物大分子自组装、相分离等方面的理论模拟研究以第一作者和通讯作者身份(含共同)在Nature Communications(2篇), Science Advances, Proc. Natl. Acad. Sci. U.S.A.,J. Am. Chem. Soc.(4篇), ACS Central Science, Angew. Chem. Int. Ed.(2篇), ACS Nano(4篇)等权威SCI期刊发表论文60余篇,包括12篇封面/封底论文。所有论文累计引用超2800次(H-index 27,单篇最高他引近300次,11篇论文引用超100次;授权发明专利一项(ZL 2021 1 1333136.0)。曾承担国家自然科学基金面上项目、青年基金等。2016年入选苏州市高等院校、科研院所紧缺高层次人才,2017年入选18新利体育 首批优秀青年学者,2019年获江苏省科学技术二等奖(排名第2),2021年入选国际组织Vebleo Fellow,2022年入选江苏省333高层次人才培养工程(第三层次)。


Google Scholar: https://scholar.google.com/citations?user=mI12lawAAAAJ&hl=en

ResearchGate: https://www.researchgate.net/profile/Hong-Ming-Ding 


近5年代表性工作(详细论文发表清单见成果奖励):

1. ACS Nano, 18, 6463-6476 (2024)

2. ACS Nano, 18, 2162–2183 (2024)

3. Proc. Natl. Acad. Sci. U.S.A.,119, e2211538119 (2022)

4. Science Advances, 8, eabo7885 (2022)

5. Angew. Chem. Int. Ed., 59, 9617-9623 (2020)

6. J. Am. Chem. Soc., 142, 4800-4806 (2020) [Back Cover]

7. J. Am. Chem. Soc., 141, 18910-18915 (2019)

9. J. Am. Chem. Soc., 141, 16014-16023 (2019)

9. Nature Communications, 10, 4520 (2019)

10. J. Am. Chem. Soc., 141, 583-591 (2019) [Front Cover]






研究领域

1.纳米粒子与细胞膜界面作用的物理机理;

2.蛋白冠对纳米粒子生物学行为的影响;

3.纳米粒子、大分子自组装或相分离机理研究。


基本信息
头像




丁泓铭

职称:教授

院部/部门:物理科学与技术学院

学历:

学位:

毕业学校:

毕业专业:

联系方式

通讯地址:

邮政编码:

电子邮箱:dinghm@suda.edu.cn

联系电话:

传真号码:

办公地点:物理科技楼247室

18新利备用网站

近些年来,纳米材料已经在很多科学技术领域得到了广泛的应用。作为其中发展最为迅猛的崭新领域之一,纳米医学目前得到了大家越来越多的重视。与传统材料相比,纳米材料由于其独特的物理化学性质,使其在生物传感,细胞成像,药物输运等方面有着显著的优势。理解纳米材料与生物体,尤其是与细胞和生物大分子(蛋白、DNA/RNA等)间的相互作用对在生物医药领域更好地利用纳米材料(例如提高输运效率同时减少毒副作用)有着非常重要的科学意义。


本课题组力图从理论模拟角度来研究上述问题,期望能够从微观介观角度揭示它们间的相互作用机理,并进一步地与国内相关实验课题组合作设计出新型的纳米生物材料。

科研团队

马余强院士联合团队:
博士研究生:尹跃文(博士四年级),阎增帅(南京大学联合培养,博士四年级), 陈远强(博士二年级),陈晨(南京大学联合培养,博士二年级),李晓雷(南京大学联合培养,博士一年级)
硕士研究生:王敏 (硕士三年级),李梦秋(硕士三年级),胡吕梦(硕士二年级),郝昊田(南京大学联合培养,硕士一年级),陈雨亮(硕士一年级),宁敏(硕士一年级)


已毕业研究生:
1. 徐耀(2019级博士,南京大学联合培养),以第一作者在Int. J. Biol. Macromol. (中科院一区)等杂志发表论文3篇,目前在南大做博后;

2. 黄舒伟(2020级硕士,南京大学联合培养),以第二作者在Nanoscale Adv., CPB各发表1篇论文,目前在苏州某中学当老师;

3.朱雨欣(2020级硕士),以第一作者在JPCB发表论文1篇,曾获优秀班干部,目前在苏州某中学当老师;

4.倪崧荻(2019级博士),以第一作者在Langmuir发表论文2篇,其中一篇被选为杂志副封面,目前在上海某研究所工作;

5. 盛艳静(2019级硕士),以第一作者在分子模拟领域权威杂志J. Chem. Inf. Model.发表论文1篇,并选为杂志副封面,目前在苏州某中学当老师;

6. 卢翔(2017级博士,南京大学联合培养)  以第一作者身份在权威杂志Nature Communications发表论文一篇,获得国家奖学金,目前在无锡医药企业工作;

7.  夏强胜 (2015级在职博士,安庆师范大学副教授) 以第一作者身份在Nanoscale发表两篇论文(其中一篇选为封底),J. Phys. D发表一篇论文;

8. 余幼胜(2015级博士,南京大学联合培养) 以第一作者身份在Phys. Chem. Chem. Phys.(封面论文),RSC Adv.发表论文各2篇,以第二作者身份在Nanoscale、Inorganic Chemistry发表论文各一篇,目前在东华理工大学工作;
9. 沈琳(2015级硕士)以第一作者身份在Langmuir发表论文一篇,目前在苏州工业园区从事IT行业;

10. 黄路易 (2016级硕士,南京大学联合培养) 以第一作者身份在Nanoscale(封面论文)发表论文一篇,获得国家奖学金,目前在网易工作;



论文

Cover Gallery:



发表论文(*通讯作者,#并列一作):

70. Meng-Qiu Li,  Chen Chen,  Yu-Qiang Ma  and  Hong-Ming Ding*, Effect of terahertz waves on the aggregation behavior of neurotransmitters,  Phys. Chem. Chem. Phys., 26, 13751-13761 (2024);


69.  Yuan-Qiang Chen#, Meng-Die Xue#, Jia-Li Li, Da Huo*, Hong-Ming Ding*, and Yuqiang Ma*, Uncovering the Importance of Ligand Mobility on Cellular Uptake of Nanoparticles: Insights from Experimental, Computational, and Theoretical Investigations, ACS Nano 18, 6463-6476 (2024);


68. Hui-Yue Zhao#, Yuan-Qiang Chen#, Xing-Yu Luo#, Ming-Jie Cai, Jia-Yi Li, Xin-Yu Lin, Hao Zhang*, Hong-Ming Ding*, Guang-Liang Jiang*, and Yong Hu*, Ligand Phase Separation-Promoted, “Squeezing-Out” Mode Explaining the Mechanism and Implications of Neutral Nanoparticles That Escaped from Lysosomes, ACS Nano 18, 2162–2183 (2024); 


67. Zeng-Shuai Yan, Yu-Qiang Ma*, Hong-Ming Ding*, Unveiling the multicomponent phase separation through molecular dynamics simulation and graph theory, J. Chem. Phys. 160, 064907 (2024); 


66. Min Wang, Song-Di Ni, Yue-Wen Yin*, Yu-Qiang Ma, and Hong-Ming Ding*, Molecular Modeling of the Fluorination Effect on the Penetration of Nanoparticles across Lipid Bilayers, Langmuir 40, 1295–1304 (2024);


65. Yao Xu, Zeng-Shuai Yan, Yu-Qiang Ma*, Hong-Ming Ding*, Topology- and size-dependent binding of DNA nanostructures to the DNase I, International Journal of Biological Macromolecules 257, 128703 (2024);


64. You-Sheng Yu, Rong-Ri Tan*, Hong-Ming Ding*, Effect of surface functionalization on DNA sequencing using MXene-based nanopores, RSC Adv. 14, 405-412 (2024);


63. Yao Xu, Shu-Wei Huang, Hong-Ming Ding* and Yu-Qiang Ma, Molecular dynamics simulations on the interactions between nucleic acids and a phospholipid bilayer, Chinese Physics B 33, 028701(2024)[Highlighted];


62.  Qi Niu#, Dr. Yun Shu#, Yuanqiang Chen#, Zhi Huang, Zhixian Yao,  Xiaofeng Chen, Fanghe Lin, Jianzhou Feng, Chen Huang, Dr. Hua Wang, Hongming Ding, Chaoyong Yang, Lingling Wu*, A Fluid Multivalent Magnetic Interface for High-Performance Isolation and Proteomic Profiling of Tumor-Derived Extracellular Vesicles, Angew. Chem. Int. Ed. 62, e202215337 (2023);


61. Xiao-Lei Li, Zeng-Shuai Yan, Yu-qiang Ma*, and Hong-ming Ding*, Effect of maleylation and denaturation of human serum albumin on its interaction with scavenger receptors, Proteins-Structure Function And Bioinformatics 91, 1140-1151 (2023);


60.  You-Sheng Yu, Qiang Ren, Rong-Ri Tan*, and Hong-Ming Ding*, Exploring the non-monotonic DNA capture behavior in a charged graphene nanopore, Phys. Chem. Chem. Phys. 25, 28034-28042 (2023);


59.  Chen Chen, Zeng-Shuai Yan, Yu-qiang Ma*, and Hong-ming Ding*, Effect of Terahertz Waves on the Structure of the Aβ42 Monomer, Dimer, and Protofibril: Insights from Molecular Dynamics Simulations, ACS Chem. Neurosci. 14, 4128–4138 (2023); 


58. 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);


57. 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);


56. 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);


55. 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);


54. 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);


53. 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);


52. 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);


51. 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);


50. Song-Di Ni, Ya-Li Chen, Yuan-Qiang Chen, Kun Zhou*, and Hong-Ming Ding*, Molecular Simulation Studies on the Interactions of Bilirubin at Different States with a Lipid Bilayer, Langmuir, 37, 11707-11715 (2021);


49. Xiaofeng Chen, Hongming Ding, Dongdong Zhang, Kaifeng Zhao, Jiafeng Gao, Bingqian Lin, Chen Huang, Yanling Song, Gang Zhao*, Yuqiang Ma,* Lingling Wu*, Chaoyong Yang*, Reversible Immunoaffinity Interface Enables Dynamic Manipulation of Trapping Force for Accumulated Capture and Efficient Release of Circulating Rare Cells, Adv. Sci., 8, 2102070 (2021);

48. Gui-Fei Huo, Qian Tu, Yi-Xiong Hu, Bo Jiang, Qi-Feng Zhou, Yanfei Niu, Xiaoli Zhao, Hong-Ming Ding*, Jin Wen*, Guang-Qiang Yin, Xueliang Shi, Lin Xu*, Amplified circularly polarized luminescence promoted by hierarchical self-assembly involving Pt···Pt interactions, Sci. China Mater., Doi:10.1007/s40843-021-1750-9 (2021);

47. Yue-wen Yin, Yan-jing Sheng, Min Wang, Yu-qiang Ma*, Hong-ming Ding*, Interaction of serum proteins with SARS-CoV-2 RBD, Nanoscale, 13, 12865-12873 (2021);[Front Cover]  

46. Yan-jing Sheng, Yue-wen Yin, Yu-qiang Ma, and Hong-ming Ding*, Improving the Performance of MM/PBSA in Protein–Protein Interactions via the Screening Electrostatic Energy, J. Chem. Inf. Model. 61, 2454–2462 (2021);[Back Cover]

45. Hong-ming Ding*, Yue-wen Yin, Song-di Ni, Yan-jing Sheng, and Yu-qiang Ma*, Accurate Evaluation on the Interactions of SARS-CoV-2 with Its Receptor ACE2 and Antibodies CR3022/CB6, Chin. Phys. Lett. (Express Letter), 38 018701 (2021);

44. Shu-Ting Jiang, Wei Zheng, Guang Yang, Yu Zhu, Li-Jun Chen, Qi-Feng Zhou, Yu-Xuan Wang, Zhen Li, Guang-Qiang Yin, Xiaopeng Li, Hong-Ming Ding, Guosong Chen*, Hai-Bo Yang*, Construction of Metallacycle-Linked Heteroarm Star Polymers via Orthogonal Post-Assembly Polymerization and Their Intriguing Self-Assembly into Large-Area and Regular Nanocubes, Chin. J. Chem., 38, 1285-1291 (2020);


43. Ya-Tong Zhao, Shuai Yan, Bin Huang, Liuyan Yang, Hong-ming Ding*, Ping Wang, and Ai-Jun Miao*, Unbound Natural Organic Matter Competes with Nanoparticles for Internalization Receptors During Cell Uptake, Environ. Sci. Technol., 54, 15215–15224 (2020);

42. Yu-sheng Yu, Rong-ri Tan*, and Hong-ming Ding*, Controlling ion transport in a C2N-based nanochannel with tunable interlayer spacing, Phys. Chem. Chem. Phys.,  22, 16855-16861 (2020);

41. Rongying Liu, Zdravko Kochovski, Long Li, Yue-wen Yin, Jing Yang, Guang Yang, Guoqing Tao, Anqiu Xu, Ensong Zhang, Hong-ming Ding*, Yan Lu*, Guosong Chen*, Ming Jiang, Fabrication of Pascal-triangle Lattice of Proteins by Inducing Ligand Strategy, Angew. Chem. Int. Ed., 59, 9617-9623 (2020);

40. Qiang-Sheng Xia#, Tao Zhu#, Zhongying Jiang, Hong-ming Ding* and Yu-qiang Ma*, Enhancing the targeting ability of nanoparticles via protected copolymers, Nanoscale, 12, 7804-7813 (2020);

39. Lingling Wu#, Hongming Ding#, Xin Qu, Xianai Shi, Jianmin Yang, Mengjiao Huang, Jialu Zhang, Huimin Zhang, Jia Song, Lin Zhu, Yanling Song,* Yuqiang Ma,* Chaoyong Yang*, Fluidic Multivalent Membrane Nanointerface Enables Synergetic Enrichment of Circulating Tumor Cells with High Efficiency and Viability, J. Am. Chem. Soc., 142, 4800-4806 (2020);

38. Guoqing Tao, Tan Ji, Ning Wang, Guang Yang, Xiaolai Lei, Wei Zheng, Rongying Liu, Xuyang Xu, Ling Yang, Guang-Qiang Yin, Xiaojuan Liao, Xiaopeng Li, Hong-ming Ding, Xiaoming Ding, Jinfu Xu*, Hai-Bo Yang*, Guosong Chen*, Self-Assembled Saccharide-Functionalized Amphiphilic Metallacycles as Biofilms Inhibitor via “Sweet Talking”, ACS Macro Lett. 9, 61-69 (2020);

37. Min Li#, Hong-ming Ding#, Meihua Lin#, Fangfei Yin, Lu Song, Xiuhai Mao, Fan Li, Zhilei Ge, Lihua Wang, Xiaolei Zuo*, Yuqiang Ma*, Chunhai Fan, DNA framework-programmed cell capture via topology-engineered receptor-ligand interactions, J. Am. Chem. Soc., 141, 18910-18915 (2019);

36. Guang Yang, Wei Zheng, Guoqing Tao, Libin Wu, Qi-Feng Zhou, Zdravko Kochovski, Tan Ji, Huaijun Chen, Xiaopeng Li, Yan Lu, Hong-ming Ding*, Hai-Bo Yang*, Guosong Chen*, Ming Jiang, Diversiform and Transformable Glyco-Nanostructures Constructed from Amphiphilic Supramolecular Metallocarbohydrates through Hierarchical Self-Assembly: The Balance between Metallacycles and Saccharides, ACS Nano, 13, 13474-13485 (2019); 

35.  Xiang Lu, Peipei Xu, Hong-Ming Ding*, You-Sheng Yu, Da Huo*, Yu-Qiang Ma*,  Tailoring the component of protein corona via simple chemistry, Nat. Commun. 10, 4520 (2019);

34.  Gui-Fei Huo, Xueliang Shi*, Qian Tu, Yi-Xiong Hu, Gui-Yuan Wu, Guang-Qiang Yin, Xiaopeng Li, Lin Xu, Hong-Ming Ding*, Hai-Bo Yang*, Radical-Induced Hierarchical Self-Assembly Involving Supramolecular Coordination Complexes in Both Solution and Solid States, J. Am. Chem. Soc. 141, 16014-16023 (2019);

33.   Song-di Ni, Yue-wen Yin, Xiao-lei Li, Hong-ming Ding*, Yu-qiang Ma, Controlling the Interaction of Nanoparticles with Cell Membranes by the Polymeric Tether, Langmuir 35, 12851-12857 (2019);[Inside Cover]

32. Zhen Li, Yufei Zhang, Libin Wu, Wei Yu, Thomas R. Wilks, Andrew P. Dove, Hong-ming Ding*, Rachel K. O’Reilly*, Guosong Chen*, and Ming Jiang, Glyco-Platelets with Controlled Morphologies via Crystallization-Driven Self-Assembly and Their Shape-Dependent Interplay with Macrophages, ACS Macro Lett., 8, 596-602 (2019); 

31. Wei Zheng, Wei Wang, Shu-ting Jiang, Guang Yang, Zhen Li, Xu-qing Wang, Guang-qiang Yin, Ying Zhang, Hongwei Tang, Xiaopeng Li, Hong-ming Ding*, Guosong Chen*, Hai-Bo Yang*, Supramolecular Transformation of Metallacycle-Linked Star Polymers Driven by Simple Phosphine Ligand-Exchange Reaction, J. Am. Chem. Soc., 141,  583-591 (2019);[Front Cover]

30. Lu-yi Huang, You-sheng Yu, Xiang Lu, Hong-ming Ding*and Yu-qiang Ma*, Designing nanoparticle-containing polymeric substrate for detecting cancer cells by computer simulations, Nanoscale,  11, 2170-2178 (2019);[Back Cover]

29. You-sheng Yu, Lu-yi Huang, Xiang Lu, and Hong-ming Ding*, Ion transport through a nanoporous C2N membrane: Effect of electric field and layer number, RSC Advances, 8, 36705-36711 (2018);

28. Hong-ming Ding#,Jiang Li#, Nan Chen, Xingjie Hu, Xiafeng Yang, Linjie Guo, Qian Li, Xiaolei  Zuo, Lihua Wang, Yu-qiang Ma*, Chunhai Fan*, DNA Nanostructure-Programmed Like-Charge Attraction at the Cell-Membrane Interface. ACS Central Science, 4, 1344-1351 (2018);(Highlighted by First Reactions,Doi:10.1021/acscentsci.8b00600)

27. Yan Xu, You-sheng Yu, Xin-da Huang, Song-song Bao, Hong-ming Ding*, Yu-qiang Ma and Li-min Zheng*, Counteranion Modulated Crystal Growth and Function of One-Dimensional Homochiral Coordination Polymers: Morphology, Structures, and Magnetic Properties. Inorganic Chemistry, 57, 12143-12154 (2018). 

26. Lin Sheng, Hong-ming Ding*, Yu-qiang Ma*, Computational Design of a Functionalized Substrate for Capturing Nanoparticles with Specific Size and Shape, Langmuir, 34, 9829-9835 (2018);

25.  Guang Yang, Rongting Hu, Hong-ming Ding*, Z. Kochovski, Shilin Mei, Yan Lu, Yu-qiang Ma, Guosong Chen* and Ming Jiang, CO2-switchable response of protein microtubule: behaviour and  mechanism, Mater. Chem. Front.,  2, 1642-1646 (2018) ;

24. Da Huo#Hong-ming Ding#, Shan Zhou, Jun Li, Jing Tao, Yu-qiang Ma* and Younan Xia*, Facile synthesis of gold trisoctahedral nanocrystals with controllable sizes and dihedral angles, Nanoscale, 10, 11034-11042 (2018); (collaborate with experiments)

23. You-sheng Yu, Xiang Lu, Hong-ming Ding* and Yu-qiang Ma*, Computational investigation on DNA sequencing using functionalized graphene nanopores, Phys. Chem. Chem. Phys., 20, 9063-9069 (2018) [Back Cover];

22. Rong-ting Hu, Guang Yang, Hong-ming Ding*, Jinbiao Ma, Yu-qiang Ma, Jianhua Gan* and Guosong Chen*,  Competition between Supramolecular Interaction and Protein–Protein Interaction in Protein Crystallization: Effects of Crystallization Method and Small Molecular Bridge, Ind. Chem. Eng. Res. 57, 6726-6733 (2018);

21. Qiang-sheng Xia, Hong-ming Ding* and Yu-qiang Ma*, Design strategy of pH-sensitive triblock copolymer micelles for efficient cellular uptake by computer simulations, Journal of Physics D: Applied Physics51, 124002 (2018);

20. Hong-ming Ding and Yu-qiang Ma*, Computational approaches to cell–nanomaterial interactions: keeping balance betweentherapeutic efficiency and cytotoxicity, Nanoscale Horiz., 3, 6-27 (2018);[Back cover] (ESI Highly Cited Paper)

19. Jian Huang#Hong-ming Ding#, Yan Xu#,Dai Zeng, Hui Zhu, Dong-Mian Zang, Song-Song Bao*, Yu-qiang Ma* and Li-Min Zheng*, Chiral Expression from Molecular to Macroscopic Level via pH Modulation in Terbium Coordination Polymers, Nat. Commun., 8, 2131 (2017); (collaborate with experiments)

18. Qiang-sheng Xia, Hong-ming Ding* and Yu-qiang Ma*, Can dual-ligand targeting enhance cellular uptake of nanoparticles, Nanoscale, 9, 8982-8989 (2017); [Back cover]

17. Guang Yang#Hong-ming Ding#, Zdravko Kochovski#, Rongting Hu, Yan Lu, Yu-qiang Ma*, Guosong Chen* and Ming Jiang, Highly Ordered Self-Assembly of Native Proteins into 1D, 2D, and 3D Structures Modulated by the Tether Length of Assembly-Inducing Ligands, Angew. Chem. Int. Ed., 56, 10691 –10695 (2017); [Back Cover, Hot Paper] (collaborate with experiments)

16.  Jia-wei Feng, Hong-ming Ding* and Yu-qiang Ma*, Water desalination by electrical resonance inside carbon nanotube, Phys. Chem. Chem. Phys., 18,28290-28296 (2016);

15. Hong-ming Ding and Yu-qiang Ma*, Design strategy ofsurface decoration for efficient delivery of nanoparticles by computer simulation, Scientific Reports, 6, 26783 (2016); 

14. Zhen-lu Li, Hong-ming Ding* and Yu-qiang Ma*, Interaction of peptides with cell membranes: insights from molecular modeling, Journal of Physics: Condensed Matter, 28, 083001 (2016). (Topical Review)

13. Hong-ming Ding and Yu-qiang Ma*, Theoretical and computational investigations of nanoparticle-biomembrane interactions in cellular delivery, Small, 11, 1055-1071 (2015); (ESI Highly Cited Paper)

12. Qun-li Lei, Jia-wei Feng, Hong-ming Ding, Chun-lai Ren* and Yu-qiang Ma*, Modeling stretching-induced immiscibility in nonmonodisperse polymer systems, ACS Macro Lett., 4, 1033-1038 (2015);

11. Jia-wei Feng, Hong-ming Ding and Yu-qiang Ma*, Self-assembly of fullerenes and graphene flake: A molecular dynamics study, Carbon, 90, 34-43 (2015);

10. Hong-ming Ding and Yu-qiang Ma*, Computer simulation of the role of protein corona in cellular delivery of nanoparticles, Biomaterials, 35, 8703-8710 (2014);

9. Jia-wei Feng, Hong-ming Ding, Chun-lai Ren and Yu-qiang Ma*, Pumping of water by rotating chiral carbon nanotube, Nanoscale, 6, 13606-13612 (2014) ;

8. Jia-wei Feng, Hong-ming Ding and Yu-qiang Ma*, Controlling water flow inside carbon nanotube with lipid membranes, J. Chem. Phys., 141, 094901 (2014); (Cover Featured Article)

7. Zhen-lu Li, Jing-jing Wang, Hong-ming Ding and Yu-qiang Ma*, Influence of different membrane environments on the behavior ofcholesterol, RSC Adv., 4, 53090-53096 (2014);

6. Hong-ming Ding and Yu-qiang Ma*, Design maps for cellular uptake of gene nanovectors by computersimulation, Biomaterials, 34, 8401-8407 (2013);

5. Hong-ming Ding and Yu-qiang Ma*, Controlling cellular uptake of nanoparticles with pH-sensitive polymers, Scientific Reports, 3, 2804 (2013);

4. Zhen-lu Li, Hong-ming Ding and Yu-qiang Ma*, Translocation of polyarginines and conjugatednanoparticles across asymmetric membranes, Soft Matter, 9,1281-1286 (2013);

3. Hong-ming Ding, Wen-de Tian and Yu-qiang Ma*, Designing nanoparticle translocationthrough membranes by computer simulations, ACS Nano, 6, 1230-1238(2012); (2013-2016 ESI Highly Cited Paper)

2. Hong-ming Ding and Yu-qiang Ma*, Role of physicochemical properties of coating ligands inreceptor-mediated endocytosis of nanoparticles, Biomaterials, 33,5798-5802 (2012);

1. Hong-ming Ding and Yu-qiang Ma*, Interactions between Janus particles and membranes, Nanoscale, 4, 1116-1122 (2012).


荣誉奖励
  • 1、2017年度18新利体育 首批优秀青年学者
  • 2、2016年度苏州市高等院校、科研院所紧缺高层次人才
开授课程

1. 计算物理 (大三)
2. 普通物理实验 (大一、大二)

招生信息

一级学科为物理学、化学、计算机科学、材料科学等学科方向的本科生,可与南京大学联合培养。

联系方式:

18新利体育 本部物理科技楼247室

联系电话:0512-69155695

dinghm@suda.edu.cn