姓名 | 张强 |
职称 | 讲师 |
主要研究领域(300字以内) | 第一性原理计算、电子结构分析、负泊淞效应的力学行为、光电及输运特性、理论计算催化、机器学习、量子物理与化学。尤其在单原子、双原子、或者多原子及团簇催化领域进行了全方位的理论计算研究,重点研究方向为: |
电子邮箱 | qiangzhang@usst.edu.cn |
办公室 | 卓越楼913-915 |
所在部门 | beat365手机版官方网站物理系 |
教育背景与工作经历 |
教育背景 博士,原子与分子物理,复旦大学,2016-2019 硕士,凝聚态物理,西北工业大学,2013-2016 学士,物理学,商丘师范学院,2009-2013 工作经历 讲师,beat·365(中国)官方网站-ios/安卓/手机APP下载,2019-至今 |
科(教)研项目及成果 |
科研项目:上海市市教委优秀青年教师基金(重点推荐),5万,主持。 科研成果:以第一作者或通讯作者发表SCI论文21篇,其中近两年部分代表作如下: [1] Influence of magnetic field strength on capacitively coupled CF4 discharge at different pressures,Plasma Sources Sci. Technol.(2022)Accepted. [2] A novel porous graphitic carbon nitride (g-C7N3) substrate: prediction of metal-based π-d conjugated nanosheets toward the highly active and selective electrocatalytic nitrogen reduction reaction, (2022) J. Mater. Chem. A. [3] Computational screening of highly selective and active electrocatalytic nitrogen reduction on single-atom-embedded artificial holey SnN3 monolayers, (2022) J Colloid Interface Sci. [4] First-Principles Calculations on Semiconducting εGeS and εSnS Monolayer Nanosheets with Photocatalytic Activity for Sunlight-Driven Water Splitting, (2022),ACS Appl. Nano Mater. [5] An emerging direct monolayer δ-AlP3: High stability, desirable carrier mobility, NO2-sensitive sensing performance, and superior catalytic properties toward the nitrogen reduction reaction, (2022) Appl. Surf. Sci. [6]An emerging bidirectional auxetic postphosphorene ε-SnO monolayer: A promising Janus semiconductor with photocatalytic activity for solar-driven water splitting reaction, (2022) Int. J. Hydrogen Energy. [7] Thermal Quenching Mechanism of Metal-Metal Charge Transfer State Transition Luminescence Based on Double-Band-Gap Modulation, (2022) Inorg. Chem. [8] δSnS: An Emerging Bidirectional Auxetic Direct Semiconductor with Desirable Carrier Mobility and High-Performance Catalytic Behavior toward the Water-Splitting Reaction, (2021) ACS Appl. Mater. Interfaces. [9] Construction of efficient bismuth/boron-based flexible electrodes in organic media toward neutral hydrogen evolution, (2021) J. Mater. Chem. A. [10] New honeycomb-like M-based (M = C, Si, Ge and Sn) monochalcogenides polymorphs: An extended family as isoelectronic photocatalysts of Group-VA for water splitting, (2021) Appl. Surf. Sci. [11] First principles study of two dimensional puckered and buckled honeycomb like carbon sulfur systems, (2021) J. Comput. Electron. [12] Effects of magnetic field on the secondary electron asymmetry effect in capacitively coupled plasmas, (2021) Phys. Plasmas. |
主讲课程 |
讲授《大学物理A1》和《大学物理A2》两门本科生课程。 |
学术活动与社会服务 |
国际期刊J. Mater. Chem. A., Appl. Surf. Sci.和Int. J. Hydrogen Energy审稿人 |
荣誉 |
无 |