一、基本情况
姓名:连敏
职称:全职博士后
E-mail:lianmin@nbu.edu.cn
研究方向:金刚石综合性能调控
办公室:龙赛理科楼南楼215
二、教育背景
2012.09-2016.07:白城师范学院,物理学,学士
2016.09-2019.06:吉林大学,凝聚态物理,硕士
2019.09-2024.06:吉林大学,凝聚态物理,博士,
三、工作经历
2024.08-至今 宁波大学高压物理科学研究院
四、代表性学术论文
[1] M. Lian, F. Wang, K. Rong, X. Ma, H. Liu, X. Gai, Y. Ge, S. Dong, Q. Tao*, P. Zhu*, Enhancing the fracture toughness of polycrystalline diamond by adjusting the transgranular fracture and intergranular fracture modes, International Journal of Refractory Metals and Hard Materials 118 (2024).
[2] M. Lian, B. Zhao, K. Rong, J. Cheng, X. Ma, H. Liu, Y. Ge, S. Dong, Q. Tao*, P. Zhu*, Exploring high toughness in nano polycrystalline diamond (NPD) by constructing coherent grain boundary under mild conditions pressure. (Under Review)
[3] M.Z. Wang1, M. Lian1, P. Zhu, H.-J. Feng*, High pressure synthesized ferroelectric MnSnO3 with high carrier mobility and the effects of ion implantation on structural and magnetic properties, Physics Letters A 437 (2022).
[4] Y. Chang, Q. Tao, M. Lian, Y. Zhang, D. Pan, P. Zhu*, H. Chang*, Emerging High Coercivity and Huge Exchange Bias Effect in Single Phased Mn1-xRuxCo2O4 Compounds, Advanced Electronic Materials 5(12) (2019).
[5] J. Cheng, F. Wang, M. Lian, D. Wang, L. Wang, C. You, X. Wang, Y. Ge, X. Liang, Q. Tao*, Y. Chen*, P. Zhu*, High-pressure induces topology boosting thermoelectric performance of Bi2Te3, Journal of Physics: Condensed Matter (2024).
[6] Q. Tao, Y. Chen, M. Lian, C. Xu, L. Li, X. Feng, X. Wang, T. Cui, W. Zheng, P. Zhu*, Modulating Hardness in Molybdenum Monoborides by Adjusting an Array of Boron Zigzag Chains, Chemistry of Materials 31(1) (2018) 200-206.
[7] Q. Tao, X. Wei, M. Lian, H. Wang, X. Wang, S. Dong, T. Cui*, P. Zhu*, Nanotwinned diamond synthesized from multicore carbon onion, Carbon 120 (2017) 405-410.
[8]、授权专利:一种单一相纳米立方一硼化钛的高温高压制备方法(CN 109704354 B,2021年12月21日)
[9]、授权专利:一种无触媒的低压制备纳米聚晶金刚石的方法 (CN 109701447 B,2021年5月7日)