常月,女,汉族,黑龙江哈尔滨人,博士。2017年于南开大学材料物理与化学专业获得博士学位,2017年9月进入北京科技大学新材料技术研究院腐蚀控制系统工程研究所工作。主要致力于纳米功能半导体、光子晶体材料开发与应用,金属腐蚀的光电化学阴极保护等研究。中国化学会会员,参与过国家自然科学基金、天津市自然科学基金等项目,目前主持在研项目为中央高校基本科研业务费,先进材料教育部重点实验室开发基金;发表论文10余篇,多篇发表在Appl.Catal.B:Environ.、Chem. Eng.J.等高水平期刊上。
1、缺陷半导体的优势利用 2、纳米功能材料、光子晶体材料的开发与应用 3、金属腐蚀的光电化学阴极保护 4、光(电)催化
1. Yue Chang, Ying Xuan, Huiying Quan, Hang Zhang, Shuangxi Liu, Zhengcao Li, Kai Yu*, Jiangli Cao*. Hydrogen treated Au/3DOM-TiO2 with promoted photocatalytic efficiency for hydrogen evolution from water splitting [J]. Chemical Engineering Journal, 382 (2020) 122869.
2. Yue Chang, Jinming Shi, Yuanshun Tang, Hang Zhang, Zhenxing Yue, Wenqing Yao, Yang Bai, Jiangli Cao*. Investigation of significant magnetic transformation for hydrogenated ZnFe2O4 nanoparticles [J]. Journal of Materials Science , 55 (2020) 1464-1474.
3. Yue Chang, Ying Xuan, Chenxi Zhang, He Hao, Kai Yu*, Shuangxi Liu. Z-Scheme Pt@CdS/3DOM-SrTiO3 composite with enhanced photocatalytic hydrogen evolution from water splitting [J]. Catalysis Today , 327 (2019) 315-322.
4. Yue Chang, Kai Yu*, Chenxi Zhang, Zequn Yang, Yajun Feng, He Hao, Yuanzhi Jiang Lan-Lan Lou, Wuzong Zhou, Shuangxi Liu*. Ternary CdS/Au/3DOM-SrTiO3 Composites with Synergistic Enhancement for Hydrogen Production from Visible-light Photocatalytic Water Splitting. Applied Catalysis B: Environmental , 215 (2017) 74–84.
5. Yue Chang, Kai Yu*, Chenxi Zhang, Rui Li, Peiyuan Zhao, Lan-Lan Lou, Shuangxi Liu*. Three-dimensionally ordered Macroporous WO3 Supported Ag3PO4 with Enhanced Photocatalytic Activity and Durability. Applied Catalysis B: Environmental , 176 (2015) 363-373.
6. Jinming Shi1, Yue Chang1, Yuanshun Tang, Xuanbo Wang, Xuefei Wang, Xiaochen Zhang, Jiangli Cao*. Hydrogenated LaFeO3 with Oxygen Vacancies for Enhanced Visible light Photocatalytic Performance [J]. Ceramics International , 46 (2020) 5315-5322.
7. He Hao, Yue Chang, Wenjun Yu, Lan-Lan Lou*, Shuangxi Liu*. Hierarchical porous MCM-68 zeolites: Synthesis, characterization and catalytic performance in m-xylene isomerization [J]. Microporous and Mesoporous Materials