马刚

马刚，教授，博士生导师。博士研究生学历，博士学位。1996年至1999年在北京大学化学与分子工程学院吴瑾光教授课题组攻读博士学位。2000年至2008年，在美国俄亥俄州立大学化学系Heather C. Allen教授课题组任博士后及助理研究员。2008年至2010年在美国耶鲁大学化学系Elsa C. Y. Yan教授课题组任副研究员。2010年来到河北大学工作。在美期间主要应用和频振动光谱技术研究生物膜结构、蛋白错误折叠、以及与环境分子科学相关的界面过程。目前研究兴趣包括淀粉样自组装、摩擦纳米发电机、液滴纳米发电机、液体传感和人工智能。技术专长包括和频振动光谱、红外光谱、超快激光系统搭建。从事科研工作以来，在包括 J. Am. Chem. Soc.、J. Phys. Chem. B、Langmuir、PCCP 、Nano Energy、ACS AMI、Chem. Eur. J.和SAA等国内外刊物上发表论文数十篇，总引用次数3000余次。主持国家自然科学基金面上项目和省部级项目多项。作为第一完成人获2019年度河北省自然科学三等奖一项，获奖成果为《振动光谱在分子结构研究中的应用》。在教学改革与实践方面，迄今已在 J. Chem. Educ.、《化学教育》和《实验技术与管理》等期刊上发表教改论文多篇。学术兼职包括中国光学学会光谱专业委员会委员、《河北大学学报（自然科学版）》英文编辑。

Prof. Gang Ma obtained his Ph.D. in Chemistry from Peking University in 1999. From May 2000 to January 2008, he was a postdoctoral researcher and later a research associate in the group of Prof. Heather C. Allen in the Department of Chemistry at The Ohio State University. From February 2008 to January 2010, he was an associate research scientist in the group of Prof. Elsa C. Y. Yan in the Department of Chemistry at Yale University. In 2010, Gang Ma joined the faculty at Hebei University, where he is currently a full professor of chemistry in the College of Chemistry and Materials Science. His current research interests include amyloid self-assembly, triboelectric nanogenerators, droplet-based nanogenerators, liquid sensing, and artificial intelligence. His technical expertise includes sum frequency generation vibrational spectroscopy (SFG-VS) and FTIR spectroscopy.

E-mail: gangma@hbu.edu.cn

Representative Publications:

[1] Yang, Lujuan, Wang, Yao, Shang, Peng, Ma, Gang*, Dual-functional synthetic linear and cyclic peptides with anti-amyloid and antimicrobial activities for Alzheimer's disease, Chemistry-A European Journal, 31 (2025) e202404349.

[2] Wang, Yao, Wang, Ziqi, Yang, Lujuan, Liu, Ziyang, Zhang, Chunfang*, Shang, Yanli*, Ma, Gang*, Deciphering the self-assembly mechanisms of three diphenylalanine derivatives using infrared probe technique and scanning electron microscopy, Spectrochimica Acta Part A-Molecular and Biomolecular Spectroscopy, 329 (2025) 125522.

[3] Wang, Yao, Wang, Ziqi, Yang, Lujuan, Zhang, Wenkai*, Ma, Gang*, Unravelling the non-classical nucleation mechanism of an amyloid nanosheet through atomic force microscopy and an infrared probe technique, Physical Chemistry Chemical Physics, 26 (2024) 7855-7864.

[4] Li, Yang, Ma, Gang*, Zhu, Lili, Li, Yuanhang, Fu, Jie, Zhang, Lichun, Gong, Kuiliang, Li, Weimin, Guo, Hengyu, Wang, Xiaobo*, Dong, Jun*, From interface effect to bulk effect: Probing the capacitive coupling enhancement mechanism to achieve high performance DC droplet-based nanogenerator, Nano Energy, 127 (2024) 109743.

[5] Li, Yuanhang, Ma, Gang*, Li, Yang, Fu, Jie, Wang, Meishan, Gong, Kuiliang, Li, Weimin, Wang, Xiaobo, Zhu, Lili*, Dong, Jun*, Droplet energy harvesting system based on total-current nanogenerator, ACS Applied Materials & Interfaces, 16 (2024) 27339-27351.

[6] Yang, Lujuan, Wang, Yao, Zhang, Wenkai*, Ma, Gang*, New insight into the structural nature of diphenylalanine nanotube through comparison with amyloid assemblies, Langmuir, 40 (2023) 1046-1057.

[7] Yang, Lujuan, Zhang, Wenkai, Bian, Hongtao, Ma, Gang*, Tutorial on the instrumentation of sum frequency generation vibrational spectroscopy: Using a Ti:Sapphire based system as an example, Biointerphases, 17 (2022) 051201.

[8] Wang, Yao, Jia, Baohuan, You, Min, Fan, Haoran, Cao, Siyu, Li, Hui, Zhang, Wenkai*, Ma, Gang*, Modulation of surface-catalyzed secondary nucleation during amyloid fibrillation of hen egg white lysozyme by two common surfactants, Journal of Physical Chemistry B, 123 (2019) 6200-6211.

[9] Jia, Baohuan, Sun, Ying, Yang, Lujuan, Yu, Yang, Fan, Haoran, Ma, Gang*, A structural model of the hierarchical assembly of an amyloid nanosheet by an infrared probe technique, Physical Chemistry Chemical Physics, 20 (2018) 27261-27271.

[10] Qin, Zhe, Sun, Ying, Jia, Baohuan, Wang, Dan, Ma, Yan, Ma, Gang*, Kinetic mechanism of Thioflavin T binding onto the amyloid fibril of hen egg white lysozyme, Langmuir, 33 (2017) 5398-5405.

[11] Li, Haoyi, Gao, Yachao, Li, Chunxiao, Ma, Gang*, Shang, Yanli*, Sun, Ying, A comparative study of the antibacterial mechanisms of silver ion and silver nanoparticles by Fourier transform infrared spectroscopy, Vibrational Spectroscopy, 85 (2016) 112-121.

[12] Gao, Yachao, Zou, Ye, Ma, Yan, Wang, Dan, Sun, Ying, Ma, Gang*, Infrared probe technique reveals a millipede-like structure for Abeta(8-28) amyloid fibril, Langmuir, 32 (2016) 937-946.

[13] Zou, Ye, Hao, Wenying, Li, Haoyi, Gao, Yachao, Sun, Ying, Ma, Gang*, New insight into amyloid fibril formation of hen egg white lysozyme using a two-step temperature-dependent FTIR approach, Journal of Physical Chemistry B, 118 (2014) 9834-9843.

[14] Zou, Ye, Li, Yiyi, Hao, Wenying, Hu, Xiaoqian, Ma, Gang*, Parallel beta-sheet fibril and antiparallel beta-sheet oligomer: New insights into amyloid formation of hen egg white lysozyme under heat and acidic condition from FTIR spectroscopy, Journal of Physical Chemistry B, 117 (2013) 4003-4013.

[15] Sun, Ying, Zou, Ye, Ma, Gang*, A convenient and cost-effective Fourier transform infrared (FTIR) spectrometer purging setup for the undergraduate teaching laboratory, Journal of Chemical Education, 90 (2013) 950-951.