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西安理工大学三级教授,博士生导师,欧洲EOS学会会员,大学物理课程教学指导委员会西北地区工作委员会委员,大学物理课程教学指导委员会专业认证与评估工作组委员,陕西省基础科学研究院物理执行委员,陕西省高等院校科学技术协会联合会理事,陕西省无机非金属材料标准化委员会委员,陕西省物理协会会员。日本东北大学、日本理化学研究所、德国康斯坦斯大学访问学者。研究方向主要集中在物理电子学、太赫兹科学与技术、非线性光学等领域。主持完成国家自然科学基金、省部级科研项目及横向科研项目30余项;主持完成陕西省教学改革研究项目及陕西省教学建设项目4项,获得陕西省教学成果特等奖1项,二等奖1项。在国内外重要刊物发表高水平学术论文70余篇、教学研究论文20余篇。
一、承担主要国家项目:
1.国家自然科学基金,基于体相位光栅动态调制机制的可调谐太赫兹波室温探测关键技术研究,已结题。
2.国家自然科学基金,基于晶体耦合场量子辐射及金属微谐振腔的可调谐太赫兹波产生研究,已结题
3.国家自然科学基金, 基于GaP晶体中耦合场量子受激散射过程的可调谐太赫兹波辐射研究,已结题
二、承担省部级科研项目9项
三、承担横向科研项目10余项
部分已发表学术论文
1. Mechanism of photocatalytic water splitting of 2D WSeTe/XS2(X = Hf, Sn, Zr) van der Waals heterojunctions under the interaction of vertical intrinsic electric and built-in electric field[J]. *Applied Surface Science*, 2022, 599: 154012. DOI:10.1016/j.apsusc.2022.154012.
2. Mechanism of the two-dimensional WSeTe/Zr2CO2 direct Z-scheme van der Waals heterojunction as a photocatalyst for water splitting[J]. *Physical Chemistry Chemical Physics*, 2022, 24: 21030–21039. DOI:10.1039/d2cp02999e.
3. FirstPrinciples study on electronic structure and magnetic properties of Cr8−xTMxBr24 (TM = Mo/W) alloy compounds based on monolayer CrBr3[J]. *Materials Today Communications*, 2022, 33: 104592. DOI:10.1016/j.mtcomm.2022.104592.
4. Mechanistic study of two-dimensional CrS2/Sc2CF2 direct Z-scheme heterojunction as the solar-driven water-splitting photocatalyst[J]. *Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2112988.
5. Improving the performance of DSSCs by modulating the electron donor and electron acceptor of dye molecules with the DTPBT group as π-bridge[J]. *Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2123749.
6. Fine-tuning the π bridge of organic dye molecules with triarylamino as an electron donor by using electron-rich/deficient groups for more efficient dyesensitized solar cells[J]. *Molecular Physics*, 2022, 120(13): e2093286. DOI:10.1080/00268976.2022.2093286.
7. Twodimensional Ti2CO2/CrSSe heterostructure as a direct Zscheme photocatalyst for water splitting[J]. *Catalysis Letters*, 2022, 152: 2564–2574. DOI:10.1007/s10562-021-03842.
8. Modulating the electron donor and electron acceptor of dye molecules with the DTPBT group as π-bridge for improving DSSC performance[J]. *Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2123749.
9. Twodimensional WSeTe/XS₂ (X = Hf, Sn, Zr) van der Waals heterojunctions for photocatalytic water splitting under vertical intrinsic and built-in electric fields[J]. *Applied Surface Science*, 2022, 599: 154012. DOI:10.1016/j.apsusc.2022.154012.
10. Mechanism of the two-dimensional WSeTe/Zr₂CO₂ direct Z-scheme van der Waals heterojunction as a photocatalyst for water splitting[J]. *Physical Chemistry Chemical Physics*, 2022, 24: 21030–21039. DOI:10.1039/d2cp02999e.
11. Firstprinciples study on electronic structure and magnetic properties of Cr₈₋ₓTMₓBr₂₄ (TM = Mo/W) alloy compounds based on monolayer CrBr₃[J]. *Materials Today Communications*, 2022, 33: 104592. DOI:10.1016/j.mtcomm.2022.104592.
12. Mechanistic study of two-dimensional CrS₂/Sc₂CF₂ direct Z-scheme heterojunction as the solar-driven water-splitting photocatalyst[J]. *Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2112988.
13. Improving the performance of DSSCs by modulating the electron donor and electron acceptor of dye molecules with the DTPBT group as π-bridge[J]. *Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2123749.
14. Fine-tuning the π bridge of organic dye molecules with triarylamino as an electron donor by using electron-rich/deficient groups for more efficient dye-sensitized solar cells[J]. *Molecular Physics*, 2022, 120(13): e2093286. DOI:10.1080/00268976.2022.2093286.
15. Twodimensional Ti₂CO₂/CrSSe heterostructure as a direct Zscheme photocatalyst for water splitting[J]. *Catalysis Letters*, 2022, 152: 2564–2574. DOI:10.1007/s10562-021-03842
16. First principles investigation of CrBr₃ alloyed with Mo/W for enhanced magnetic anisotropy and Curie temperature[J]. *Materials Today Communications*, 2022, 33: 104592. DOI:10.1016/j.mtcomm.2022.104592.
17. Two-dimensional CrS₂/Sc₂CF₂ van der Waals heterojunction as a direct Z-scheme photocatalyst for water splitting: A DFT study[J]. *Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2112988.
18. DTPBT-based πbridge dye molecules with modulated donor/acceptor groups for improved DSSC performance: A theoretical study[J]. Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2123749.
19. π-Bridge fine-tuning with electron-rich/deficient groups in triarylamine-based dyes for efficient DSSCs[J]. *Molecular Physics*, 2022, 120(13): e2093286. DOI:10.1080/00268976.2022.2093286.
20. Ti₂CO₂/CrSSe van der Waals heterostructure as a direct Z-scheme photocatalyst for overall water splitting[J]. *Catalysis Letters*, 2022, 152: 2564–2574. DOI:10.1007/s10562-021-03842-y.
21. Mechanism of photocatalytic water splitting in 2D WSeTe/XS₂ (X = Hf, Sn, Zr) van der Waals heterojunctions under intrinsic and built-in electric fields[J]. *Applied Surface Science*, 2022, 599: 154012. DOI:10.1016/j.apsusc.2022.154012.
22. Direct Zscheme WSeTe/Zr₂CO₂ van der Waals heterojunction for photocatalytic water splitting: DFT insights[J]. *Physical Chemistry Chemical Physics*, 2022, 24: 21030–21039. DOI:10.1039/d2cp02999e.
23. Enhanced magnetic properties in Mo/W-doped CrBr₃ monolayer alloys: A first-principles study[J]. *Materials Today Communications*, 2022, 33: 104592. DOI:10.1016/j.mtcomm.2022.104592.
24. CrS₂/Sc₂CF₂ heterojunction as a direct Zscheme photocatalyst for solar water splitting: Mechanism and performance[J]. *Molecular Physics*, 2022. DOI:10.1080/00268976.2022.2112988.
25. Donor–acceptor engineering in DTPBT based dyes for higperformance DSSCs: A theoretical approach[J]. *Molecular Physics, 2022. DOI:10.1080/00268976.2022.2123749.
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西安理工大学