教师名录
马建,博士,副教授,硕士生导师,主持国家自然科学基金2项,航空航天科技项目2项,参与多项国家自然科学基金与国家重点研发计划。发表高水平SCI论文20余篇。长期从事微纳先进制造研究,致力于突破机械制造精度极限,推动微纳制造向更小尺度发展, 具体研究方向包括柔性仿生离子通道设计与制造、基于纳米孔生物分子检测研究、纳米限域离子输运机理研究、超细纳米纤维工艺研究等。
欢迎优秀的本科生、研究生进入课题组工作和学习!(例如:竞赛、SRTP项目、毕业设计和攻读研究生学位等),课题组将为各位同学提供个性化的发展规划和优厚的助研津贴与绩效奖励。如有意向,请准备个人简历投递邮箱地址jian.ma@seu.edu.cn
2005年7月—2007年5月:上海徐浦标准件有限公司,工程师;
2016年5月—2022年5月:5657威尼斯,讲师;
2022年5月-至今:5657威尼斯,副教授。
《机械制图》
《机械制造工程学》
[1] Ma J,Li K, Li Z et al. Drastically ReducedIon Mobility in a Nanopore Due to Enhanced Pairing and Collisions betweenDehydrated Ions, 2019. [IF:14.357]
[2]Ma, J. et al. Power Generation from SalinityGradient by Reverse Electrodialysis in Silicon Nitride Nanopores. Nano15 (2020).
[3] Zhou, L.; Li, K.; Li, Z. W.; He, P. Y.; Lin, K. B.; Mo, J. W.; Ma, J., Detection of DNA homopolymer with graphene nanopore. J Vac Sci Technol B 2019,37 (6).
[4] Jian Ma, Qian Zhang, Kabin Lin, Lei Zhou, Zhonghua Ni. Piezoelectric and optoelectronic properties of electrospinning hybrid PVDF and ZnO nanofibers. Materials Research Express 5, 035057, (2018).
[5 Jian Ma, Qian Zhang, Yin Zhang, Juekuan Yang and Zhonghua Ni. A rapid and simple method to draw polyethylene nanofibers with enhanced thermal conductivity. Appl Phys Lett 2016, 109 (3), 033101.
[6] Jian Ma, Qian Zhang, Anthony Mayo, Zhonghua Ni, Hong Yi, Yunfei Chen, Richard Mu, Leon Bellan and Deyu Li. Thermal Conductivity of Electrospun Polyethylene Nanofibers. Nanoscale,(2015).
[7] Jian Ma, Yinghua Qiu, Zhishan Yuan, Yin Zhang, Jingjie Sha, Lei Liu, Litao Sun, Zhonghua Ni, Hong Yi, Deyu Li, and Yunfei Chen.Detection of short single-strand DNA homopolymers with ultra-thin Si3N4 nanopores. Phys Rev E 92, (2015).
[8] Jian Ma, Weiwei Zhao, Lei Liu, Jingjie Sha and Yunfei Chen. Shrinking graphene nanopore using electron-beam-induced deposition for single molecule detection. Proceedings of the Asme International Mechanical Engineering Congress and Exposition, 2015, Vol 2b 2016.
[9] Jian Ma, Qian Zhang, Anthony Mayo, Richard Mu, Leon Bellan, and Deyu Li. Thermal Conductivity of Individual Electrospun Polymer Nanofibers.Proceedings of the Asme International Mechanical Engineering Congress and Exposition, 2015, Vol 8b 2016.
[10] Yinhua Qiu, Jian Ma, Yunfei Chen, Ionic Behavior in Highly Concentrated Aqueous Solutions Nanoconfined between Discretely Charged Silicon Surfaces. Langmuir 2016, 32 (19), 4806-4814.
[11] Junrong Wang, Jian Ma, Zhonghua Ni, Li Zhang and Guoqing Hu. Effects of access resistance on the resistive-pulse caused by translocating of a nanoparticle through a nanopore. Rsc Adv 4, 7601-7610.
[12] Chunwei Zhang, Weiwei Zhao, Kedong Bi, Jian Ma, Jianli Wang, Zhenhua Ni, Zhonghua Ni and Yunfei Cheng. Heat conduction across metal and nonmetal interface containing imbedded graphene layers. Carbon64, 61-66, (2013).
[13] YinZhang, GenSheng Wu, Jian Ma, ZhiShan Yuan, Wei Si, Lei Liu, JingJie Sha and YunFei Chen. Temperature effect on translocation speed and capture rate of nanopore-based DNA detection. Sci China Technol Sc 58, 519-525, (2015).
[14] Lei Liu, Chu Li, Jian Ma, Zhonghua Ni and Yunfei Chen. Theoretical and experimental studies on ionic currents in nanopore-based biosensors. Iet Nanobiotechnol 8,247-256, (2014)
[15] 马建,王欣,李堃,纪安平,杨浩杰,沙菁㛃,陈云飞,倪中华. 基于氮化硅薄膜纳米孔制备以及DNA分子检测研究.[J].5657威尼斯学报:自然科学版,2016(EI).
马建,博士,副教授,硕士生导师,主持国家自然科学基金2项,航空航天科技项目2项,参与多项国家自然科学基金与国家重点研发计划。发表高水平SCI论文20余篇。长期从事微纳先进制造研究,致力于突破机械制造精度极限,推动微纳制造向更小尺度发展, 具体研究方向包括柔性仿生离子通道设计与制造、基于纳米孔生物分子检测研究、纳米限域离子输运机理研究、超细纳米纤维工艺研究等。
欢迎优秀的本科生、研究生进入课题组工作和学习!(例如:竞赛、SRTP项目、毕业设计和攻读研究生学位等),课题组将为各位同学提供个性化的发展规划和优厚的助研津贴与绩效奖励。如有意向,请准备个人简历投递邮箱地址jian.ma@seu.edu.cn
[1] Ma J,Li K, Li Z et al. Drastically ReducedIon Mobility in a Nanopore Due to Enhanced Pairing and Collisions betweenDehydrated Ions, 2019. [IF:14.357]
[2]Ma, J. et al. Power Generation from SalinityGradient by Reverse Electrodialysis in Silicon Nitride Nanopores. Nano15 (2020).
[3] Zhou, L.; Li, K.; Li, Z. W.; He, P. Y.; Lin, K. B.; Mo, J. W.; Ma, J., Detection of DNA homopolymer with graphene nanopore. J Vac Sci Technol B 2019,37 (6).
[4] Jian Ma, Qian Zhang, Kabin Lin, Lei Zhou, Zhonghua Ni. Piezoelectric and optoelectronic properties of electrospinning hybrid PVDF and ZnO nanofibers. Materials Research Express 5, 035057, (2018).
[5 Jian Ma, Qian Zhang, Yin Zhang, Juekuan Yang and Zhonghua Ni. A rapid and simple method to draw polyethylene nanofibers with enhanced thermal conductivity. Appl Phys Lett 2016, 109 (3), 033101.
[6] Jian Ma, Qian Zhang, Anthony Mayo, Zhonghua Ni, Hong Yi, Yunfei Chen, Richard Mu, Leon Bellan and Deyu Li. Thermal Conductivity of Electrospun Polyethylene Nanofibers. Nanoscale,(2015).
[7] Jian Ma, Yinghua Qiu, Zhishan Yuan, Yin Zhang, Jingjie Sha, Lei Liu, Litao Sun, Zhonghua Ni, Hong Yi, Deyu Li, and Yunfei Chen.Detection of short single-strand DNA homopolymers with ultra-thin Si3N4 nanopores. Phys Rev E 92, (2015).
[8] Jian Ma, Weiwei Zhao, Lei Liu, Jingjie Sha and Yunfei Chen. Shrinking graphene nanopore using electron-beam-induced deposition for single molecule detection. Proceedings of the Asme International Mechanical Engineering Congress and Exposition, 2015, Vol 2b 2016.
[9] Jian Ma, Qian Zhang, Anthony Mayo, Richard Mu, Leon Bellan, and Deyu Li. Thermal Conductivity of Individual Electrospun Polymer Nanofibers.Proceedings of the Asme International Mechanical Engineering Congress and Exposition, 2015, Vol 8b 2016.
[10] Yinhua Qiu, Jian Ma, Yunfei Chen, Ionic Behavior in Highly Concentrated Aqueous Solutions Nanoconfined between Discretely Charged Silicon Surfaces. Langmuir 2016, 32 (19), 4806-4814.
[11] Junrong Wang, Jian Ma, Zhonghua Ni, Li Zhang and Guoqing Hu. Effects of access resistance on the resistive-pulse caused by translocating of a nanoparticle through a nanopore. Rsc Adv 4, 7601-7610.
[12] Chunwei Zhang, Weiwei Zhao, Kedong Bi, Jian Ma, Jianli Wang, Zhenhua Ni, Zhonghua Ni and Yunfei Cheng. Heat conduction across metal and nonmetal interface containing imbedded graphene layers. Carbon64, 61-66, (2013).
[13] YinZhang, GenSheng Wu, Jian Ma, ZhiShan Yuan, Wei Si, Lei Liu, JingJie Sha and YunFei Chen. Temperature effect on translocation speed and capture rate of nanopore-based DNA detection. Sci China Technol Sc 58, 519-525, (2015).
[14] Lei Liu, Chu Li, Jian Ma, Zhonghua Ni and Yunfei Chen. Theoretical and experimental studies on ionic currents in nanopore-based biosensors. Iet Nanobiotechnol 8,247-256, (2014)
[15] 马建,王欣,李堃,纪安平,杨浩杰,沙菁㛃,陈云飞,倪中华. 基于氮化硅薄膜纳米孔制备以及DNA分子检测研究.[J].5657威尼斯学报:自然科学版,2016(EI).