康大伟老师简介

姓名

康大伟

出生年月

1982.10

职称

教授

职务

无

最高学位

博士

邮箱

kangdawei@tiangong.edu.cn

教育背景

 2005-09至 2010-06,山东大学,凝聚态物理,博士

 2001-09至 2005-06,中国石油大学（华东）,应用物理学,学士

 2017-06至 2018-06,加拿大麦吉尔大学,物理系 (访问学者）

工作经历

 2024-08至 今,天津工业大学,物理科学与技术学院,教授

 2010-02至2024-08，河南科技大学，物理工程学院，教授

研究领域

1. 低维体系的电子性质和输运性质：转角电子学，量子输运

2. 结合第一性原理计算，物理建模和人工智能等算法的材料模拟

讲授课程

《数学物理方法》，《专业概论》

主要承担项目

天津市自然科学基金重点项目，24JCZDJC00660，2024/10-2027/09，20万，在研，主持

国家自然科学基金，11204066，2013.01-2015.12，25万，结项，主持

国家自然科学基金，11147166，2012.01-2012.12，5万，结项，主持

主要论文著作

 1. Dawei Kang*, Zhaowu Wang, Zheng-wei Zuo, Multiple extremely flat bands in twisted bilayer binary materials at large twist angles induced by atomic reconstruction, Physical Review B, 108, 075415, (2023).  

 2. Dawei Kang*, Zheng-wei Zuo, Weiwei Ju, Zhaowu Wang, Emergence of flat bands in twisted bilayer C3N induced by simple localization and destructive interference, Physical Review B, 107, 085425, (2023).  

 3. Dawei Kang*, Zheng-Wei Zuo, Zhaowu Wang, Weiwei Ju, Bandgap engineering of stacked two-dimensional polyaniline by twist angle, Applied Physics Letters, 119, 061602, (2021).

 4. Dawei Kang*, Shuai Zhang, Weiwei Ju, Zheng-wei Zuo, Zhaowu Wang, Heteroatom-doped Clar's goblet: Tunable magnetic order and programmable spin logic gate, Applied Physics Letters, 119, 192408, (2021).  

 5. Dawei Kang*, Xianghua Kong*, Vincent Michaud-Rioux, Ying-Chih Chen, Zetian Mi, Hong Guo, Electronic structure of aqueous two-dimensional photocatalyst, npj Computational Materials, 7, 47, (2021).  

 6. Dawei Kang*, Zheng-Wei Zuo, Shuai Zhang, Zhaowu Wang, Longlong Zhang, Stacking order driving bandgap and conductance of graphene/C3B (C3N) van der Waals heterostructures, Applied Physics Letters, 116, 153103, (2020).  

 7. Dawei Kang*, Weiwei Ju, Shuai Zhang, Caijuan Xia, Driving interference control by side carbon chains in molecular and two-dimensional nano-constrictions, Physical Chemistry Chemical Physics, 21, 25993, (2019).  

 8. Dawei Kang*, Bowen Wang, Caijuan Xia, Haisheng Li, Perfect spin filter in a tailored zigzag graphene nanoribbon, Nanoscale research letters, 12, 357, (2017).

 9. Dawei Kang*, Xipin Hao, Xinzhong Li, Liben Li, Shijie Xie, Spin polarized current through Cu-DNA modulated by a gate voltage, Applied Physics Letters, 102, (2013).  

 10. Dawei Kang, Hong Jiang, Zhen Sun, Zhen Qu, Shijie Xie*, Magnetic field tuned charge transport in a G4-DNA molecular device, Journal of Physics: Condensed Matter, 23, 055302, (2011).

 11. Dawei Kang, Zhen Qu, Hong Jiang, Shi-jie Xie*, Transverse electric field modulated tunneling magnetoresistance in a DNA molecular device, Physical Chemistry Chemical Physics, 12, 578, (2010).

 12. Zheng-Wei Zuo*, Linxi Lv, Dawei Kang, Topological metals constructed by sliding quantum wire arrays, Physical Review B, 107, 195142, (2023).  

 13. Fengzi Zhou, Shaolin Li, Dawei Kang*, The Schottky barrier and charge transport through the Cu/Al2O3 interface, Surfaces and Interfaces, 36, 102622, (2023).

 14. Fengzi Zhou, Dawei Kang*, First principle calculations on tuning the charge transport properties of C3B nanoribbon device by manipulating the edge state, Physica E: Low-dimensional Systems and Nanostructures, 147, 115600, (2023).

 15. Zheng-Wei Zuo*, Dawei Kang, Reentrant localization transition in the Su-Schrieffer-Heeger model with random-dimer disorder, Physical Review A, 106, 013305, (2022).

 16. Dawei Kang*, Zheng-Wei Zuo, Zhaowu Wang, Weiwei Ju, Multi-shaped strain soliton networks and moire-potential-modulated band edge states in twisted bilayer SiC, RSC ADVANCES, 11, 24366, (2021).

 17. Zheng-Wei Zuo*, Dawei Kang, Liben Li, Topological end states in a one-dimensional spatially modulated interaction spinless fermion model, New Journal of Physics, 22, 083057, (2020).

 18. Lintao Zhu, Shuai Zhang, Zhaowu Wang, Fengzi Zhou, Dawei Kang*, Modulation of bandgap and transport properties by stacking symmetry in bilayer binary materials, Physics Letters A. 527, 129978, (2024)