张强

发布者：周春宇发布时间：2021-06-07浏览次数：4990

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：（1）动态催化理论。结合机器学习进行动力学探究催化剂动态变化行为；（2）催化活性的机理分析，理解单催化中心的电子结构及其化学成键的演变；（3）新型二维材料的搜索及其基本物性探究。
电子邮箱	qiangzhang@usst.edu.cn
办公室	卓越楼913-915
所在部门	理学院物理系

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，上海理工大学理学院，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