主要科研成果

(近5年作为第一完成人完成的代表性论文（注明论文标题、作者排序、杂志名称、分区以及影响因子），发明专利，或科技奖项，限填5项)

1. Qinghuan Bian, Shuijin Lei*, Kehan Zhao, Qunying Tu, Liang Zhao, Lihui Rao, Yanhe Xiao, Baochang Cheng, Isomorphous substitution synthesis and photoelectric properties of spinel AgInSnS₄ nanosheets, Chem. Mater. 2020, 32, 9713-9720. 通讯作者\ IF 9.811)

2. Peiqin Deng, Jinsong Xiong, Shuijin Lei*, Wei Wang, Xiuling Ou, Yueling Xu, Yanhe Xiao, Baochang Cheng, Nickel formate induced high-level in situ Ni-doping of g-C₃N₄ for a tunable band structure and enhanced photocatalytic performance, J. Mater. Chem. A 2019, 7, 22385-22397. (通讯作者)

3. Shuijin Lei*, Di Cheng, Xijie Gao, Linfeng Fei, Wei Lu, Jianliang Zhou, Yanhe Xiao, Baochang Cheng, Yu Wang, Haitao Huang. A new low-temperature solution route to Aurivillius-type layered oxyfluoride perovskites Bi₂MO₅F (M = Nb, Ta) as photocatalysts. Appl. Catal. B: Environ. 2017, 205, 112-120. (通讯作者)

4. Qiulin Chen, Shuijin Lei*, Peiqin Deng, Xiuling Ou, Lianfu Chen, Wei Wang, Yanhe Xiao and Baochang Cheng. Direct growth of nickel terephthalate on Ni foam with large mass-loading for high-performance supercapacitors. J. Mater. Chem. A 2017, 5, 19323-19332. (通讯作者)

5. Shuijin Lei, Yan Liu, Linfeng Fei, Ruobing Song, Wei Lu, Longlong Shu, Chee Leung Mak, Yu Wang, Haitao Huang. Commercial Dacron cloth supported Cu(OH)₂ nanobelt arrays for wearable supercapacitors. J. Mater. Chem. A 2016, 4, 14781-14788. (一区)

在研基金项目简介

(优先国家自然科学基金，不超过200字)

新型多元金属硫族化合物磁性半导体的晶格调控及其性能研究

简介：磁性半导体作为新一代自旋电子器件的基础，是未来信息技术发展的重要方向,而寻求具有高居里温度的磁性半导体材料是该领域面临的最大瓶颈之一。本项目利用多元金属硫族化合物的多晶位、低对称性及其结构、组成的多样性和灵活性，调控材料本征缺陷及磁性金属离子的晶格占位，避免紧邻磁性离子间的反铁磁作用，发展新型磁性半导体；研究材料半导体和磁学性质间的相互作用原理，为半导体自旋电子学器件的发展提供新的实验和理论依据。