男,1987年9月出生,博士,副教授
社会兼职
中国化学协会会员
简历
1.2015-01至现在,浙江理工大学,理学院物理学系,讲师
2.2009-09至2014-12,浙江大学,材料科学与工程学院,博士研究生
3.2005-09至2009-06,浙江大学,材料科学与工程学系,本科
主讲课程及其他教学情况
本科生:《材料物理》、《普通物理》、《普通物理实验B》、《新能源材料综合实验》、《材料科学与工程基础》、《光伏发电系统与应用技术》
研究生:《半导体物理》
研究领域和研究方向
1.钙钛矿太阳能电池2.低功耗硅基发光二极管3.稀土发光材料
学术成果
(一)代表性论文
1.Cui, C.et al.Thioacetamide additive assisted crystallization of solution-processed perovskite films for high performance planar heterojunction solar cells.Solar Energy Materials and Solar Cells208, 110435 (2020).
2.Yao, Y.et al.CsPbBr3quantum dots assisted crystallization of solution-processed perovskite films with preferential orientation for high performance perovskite solar cells.Nanotechnology31, (2020).
3.Guo, X.et al.Enhanced emission from CH3NH3PbBr3perovskite films by graphene quantum dot modification.Materials Research Express7, 016415 (2020).
4.Xu, L.et al.Towards green antisolvent for efficient CH3NH3PbBr3perovskite light emitting diodes: A comparison of toluene, chlorobenzene, and ethyl acetate.Applied Physics Letters115, 033101 (2019).
5.Xu, L.et al.Effects of n-butyl amine incorporation on the performance of perovskite light emitting diodes.Nanotechnology30, 105703 (2019).
6.Xu, L.et al.Hierarchical submicroflowers assembled from ultrathin anatase TiO2nanosheets as light scattering centers in TiO2photoanodes for dye-sensitized solar cells.Journal of Alloys and Compounds776, 1002–1008 (2019).
7.Ding, Z.et al.Hierarchical spheres assembled from large ultrathin anatase TiO2nanosheets for photocatalytic hydrogen evolution from water splitting.International Journal of Hydrogen Energy43, 13190–13199 (2018).
8.Wang, P.et al.CH3NH3PbBr3Quantum Dot-Induced Nucleation for High Performance Perovskite Light-Emitting Solar Cells.ACS Applied Materials & Interfaces10, 22320–22328 (2018).
9.Lin, P.et al.Hybrid reduced graphene oxide/TiO2/graphitic carbon nitride composites with improved photocatalytic activity for organic pollutant degradation.Applied Physics A-Materials Science & Processing124, 510 (2018).
10.Li, X.et al.Z-schematic water splitting by the synergistic effect of a type-II heterostructure and a highly efficient oxygen evolution catalyst.Applied Surface Science441, 61–68 (2018).
11.Xiao, K.et al.Amine treatment induced perovskite nanowire network in perovskite solar cells: efficient surface passivation and carrier transport.Nanotechnology29, 065401 (2018).
12.Lv, H.et al.Enhanced performance of dye-sensitized solar cells with layered structure graphitic carbon nitride and reduced graphene oxide modified TiO2photoanodes.Applied Surface Science422, 1015–1021 (2017).
13.Shen, H., Xu, L., Li, D. & Yang, D. Sensitized photoluminescence of erbium silicate synthesized on porous silicon framework.Journal of Applied Physics122, 113103 (2017).
14.Xie, J.et al.Enhanced Electronic Properties of SnO2via Electron Transfer from Graphene Quantum Dots for Efficient Perovskite Solar Cells.ACS Nano11, 9176–9182 (2017).
15.Xie, J.et al.Self-Organized Fullerene Interfacial Layer for Efficient and Low-Temperature Processed Planar Perovskite Solar Cells with High UV-Light Stability.Advanced Science4, 1700018 (2017).
16.Xu, L.et al.Surface plasmon enhanced luminescence from organic-inorganic hybrid perovskites.Applied Physics Letters110, 233113 (2017).
17.Zhang, Y.et al.Enhanced optoelectronic quality of perovskite films with excess CH3NH3I for high-efficiency solar cells in ambient air.Nanotechnology28, 205401 (2017).
18.Zhang, Y.et al.Enhanced performance and light soaking stability of planar perovskite solar cells using an amine-based fullerene interfacial modifier.Journal of Materials Chemistry A4, 18509–18515 (2016).
19.Zhao, J.et al.TiO2hollow spheres as light scattering centers in TiO2photoanodes for dye-sensitized solar cells: the effect of sphere diameter.Journal of Alloys and Compounds663, 211–216 (2016).
20.Yang, Y.et al.Hydrothermal growth of ZnO nanowires scaffolds within mesoporous TiO2photoanodes for dye-sensitized solar cells with enhanced efficiency.Electrochimica Acta196, 348–356 (2016).
21.Cui, C.et al.Silver nanoparticles modified reduced graphene oxide wrapped Ag3PO4/TiO2visible-light-active photocatalysts with superior performance.RSC Advances6, 43697–43706 (2016).
22.Cui, C.et al.A comparative study on the quantum-dot-sensitized, dye-sensitized and co-sensitized solar cells based on hollow spheres embedded porous TiO2photoanodes.Electrochimica Acta173, 551–558 (2015).
23.Xu, L., Li, S., Jin, L., Li, D. & Yang, D. Temperature dependence of sensitized Er3+luminescence in silicon-rich oxynitride films.Nanoscale Research Letters9, 489 (2014).
24.Xu, L.et al.Evolution of the sensitized Er3+emission by silicon nanoclusters and luminescence centers in silicon-rich silica.Nanoscale Research Letters9, 456 (2014).
25.Xu, L., Jin, L., Li, D. & Yang, D. Sensitization of Er3+ions in silicon rich oxynitride films: effect of thermal treatments.Optics Express22, 13022–13028 (2014).
26.Xu, L., Jin, L., Li, D. & Yang, D. Effects of excess silicon on the 1540 nm Er3+luminescence in silicon rich oxynitride films.Applied Physics Letters103, 071101 (2013).
(二)主持或参加科研项目情况
热载流子碰撞激发的硅基掺铒氧化锡电致发光器件;经费来源:国家自然科学基金委青年项目;编号:61704154;起止时间:2018-01至2020-12;经费额度:30万元;排名:1/6
掺铒氮化硅/掺磷纳米硅多层结构电致发光器件;经费来源:浙江省自然科学基金探索项目;编号:LY20F040006;起止时间:2020-01至2022-12;经费额度:9万元;排名:1/5
SiNx:Er/Si:P超晶格电致发光器件;经费来源: 硅材料国家重点实验室开放课题;编号:SKL2019-07;起止时间:2019-06至2021-06;经费额度:6万元;排名:1/6
4.稀土掺杂硅基异质结中热载流子碰撞离化发光增强策略及失效机制研究;经费来源: 浙江理工大学青年创新专项;编号:2019Q069;起止时间:2019-01至2020-12;经费额度:3万元;排名:1/6
5.辐照硅材料中点缺陷浓度分布、电学复合参数及其形成速率的精密测试方法;经费来源: 横向课题;编号:17060237-J;起止时间:2017-01至2017-12;经费额度:10万元;排名:1/5
6.辐照硅表面/界面缺陷浓度分布、电学复合参数及其形成速率的精密测试方法;经费来源: 横向课题;编号:18060352-J;起止时间:2018-01至2018-12;经费额度:10万元;排名:1/5
获奖或荣誉情况
1.全国高等学校物理基础课程青年教师讲课比赛(浙江赛区)二等奖,2018年
2.浙江理工大学理学院优秀班主任,2016年
3.浙江理工大学青年教师讲课比赛三等奖,2016年
4.浙江省大学生物理科技创新竞赛指导教师,一等奖(2016年)、二等奖(2017年)
5.浙江省新苗人才计划指导教师,2017年
培养研究生情况
作为助理导师指导毕业研究生5人,目前在读研究生5人
联系方式
通讯地址:浙江省杭州下沙高教园区2号路928号,浙江理工大学理学院物理系
邮编:310018
电话:0571-86843468
电子邮箱:xlb@zstu.edu.cn
