张思忆

发布时间:2025年07月01日 15:03 阅读人数:
姓名:张思忆 研究方向:凝聚态物理
导师类型:硕士生导师 主讲硕士生课程:
职称: 主讲博士生课程:
专业: 联系方式:Siyizhang@whu.edu.cn
研究方向
一、表/界面物理; 纳米材料结构设计及缺陷工程
利用水热法、柯肯达尔效应自模板法及软模板法自聚合等策略,精准调控合成不同材料的零维量子点,一维纳米线,二
维纳米片,三维纳米花 / 纳米中空形貌结构 ; 宽禁带半导体中引入空位缺陷提高光催化性能,结合原位顺磁共振和正电子湮没
研究空位及存在的空位团
二、新能源材料的应用及超快载流子动力学机制研究
1 光解水析氢 / 光催化降解无机、有机污染物 /CO2 还原研究。
2 光催化机理(莫特 - 肖特基曲线、 UV-Vis DRS XPS 化学位移、 EPR 、超快瞬态吸收光谱、表面光电压谱等手段)。
3 专注于光催化材料中光生电荷的产生、分离、转移与复合过程的超快时间尺度研究。
研究项目
国家自然科学基金
复合绝缘子硅橡胶电老化的正电子湮没研究; No. 12275201 2022/01 - 2024/12; 56 万;参与;项目分工:分析
正电子湮没寿命谱中的空位团信息
南方电网项目
直流场设备表面防积污压电复合涂层和低表面能抗静电防腐涂料设计优化; GDKJXM20210088; 2022/05 -
2025/11; 318.6 ; 参与 ; 项目分工:对压电填料类粉体材料进行系统考察,筛选具有优异压电及综合性能的粉
研究成果
[1] S. Zhang, S. Du, Y. Wang, Z. Han et al., Synergy of yolk-shelled structure and tunable oxygen defect over
CdS/CdCO 3 -CoS 2 : Wide band-gap semiconductors assist in efficient visible-light-driven H 2 production and CO 2
reduction, Chem. Eng. J. , 454 (2023) 140113. ( 一区, IF = 16.744 ,发表年 )
[2] S. Zhang , et al., Ohmic-functionalized type I heterojunction: Improved alkaline water splitting and photocatalytic
conversion from CO 2 to C 2 H 2 . Chem. Eng. J. , 471 (2023) 144438. ( 一区, IF = 16.744 ,发表年 )
[3] S. Zhang , F. Zhang, M. Yang, P. Fang, POSS modified Ni x O y -decorated TiO 2 nanosheets: Nanocomposites for
adsorption and photocatalysis, Appl. Surf. Sci ., 566 (2021) 150604. ( 二区, IF = 7.392 ,发表年 )
[4] S. Zhang, S. Du, Y. Wang, Z. Han, et al., Metal-organic coordination polymers-derived ultra-small MoC
nanodot/N-doped carbon combined with CdS: A hollow Z-type catalyst for stable and efficient H 2 production/CO 2
reduction, Appl. Surf. Sci. , 608 (2023) 155176. ( 一区, IF = 7.392 ,发表年 )
[5] S. Zhang , S. Li, M. Zhou, X. Li, Y. Wang, S. Suo, C. Chen, Z. Zhang, R. Zhang, B. Jin, P. Fang, Modulating
long-lived ultrafast charge carrier recombination in type-I MoS 2 /CdS photocatalyst achieving optimal H 2
evolution, Separation and Purification Technology, 355 (2025) 129664. ( 一区, IF = 8.1 ,发表年 )
[6] S. Du, G. Li, X. Lin, S. Zhang, H. Xu, P. Fang, Highly efficient H 2 generation over Cu 2 Se decorated CdS 0.95 Se 0.05
nanowires by photocatalytic water reduction, Chem. Eng. J., 409 (2021) 128157. ( 一区, IF = 16.744)
[7] Q. Han, Z. Han, Y. Wang, S. Zhang et.al., Enhanced photocatalytic hydrogen evolution by piezoelectric effects
based on MoSe 2 /Se-decorated CdS nanowire edge-on heterostructure, J. Colloid Interface Sci. 630 (2023)
460-472 ( 一区, IF = 9.965)
[8] G. Li, S. Du, Z. Han, Y. Wang, S. Zhang, Y. Xiong, H. Xu, P. Fang, Metal-organic framework-derived
three-dimensional CoSe 2 /Cd 0.8 Zn 0.2 S Schottky junction for highly efficient photocatalytic H 2 evolution, Appl. Surf.
Sci., 593 (2022) 153420. ( 一区, IF = 7.392)
[9] F. F. Zhang, M. C. Yang, S. Y. Zhang, P. F. Fang, Protic imidazolium polymer as ion conductor for improved
oxygen evolution performance, Polymers 11 (2019) 1268 ( 三区, IF = 4.967)
[10] P. Wu, X. Zhao, C. Li, M. Yang, G. Li, S. Zhang, J. Ming, M. Liu, Z. Qian, P. Fang, One-pot synthesis of
Fe 2 O 3 /Y 2 O 3 @TNS for enhanced photocatalytic and adsorption properties, New J. Chem., 44 (2020)
16370-16383. ( 三区, IF = 3.925)
[11] W. Ma, M. Du, H. Li; Y. Wang; Z. Han, C. Chen; S. Zhang , et.al., The binary piezoelectric synergistic effect of
KNbO 3 /MoS 2 heterojunction for improving photocatalytic performance, J. Alloys Compd. 960 (2023) 170669
( 二区, IF = 6.371 )