一.学习工作经历: 2016年至今广东快乐十分20选8; 2011年开始就职于世界500强企业,圣戈班研发(上海)有限公司; 2011年毕业于中国科学院上海硅酸盐研究所,硕博连读,从事铁电和铁磁复合材料研究,获得材料物理与化学博士学位; 2006年毕业于鲁东大学,获得物理学学士学位; 二.主要研究方向: 1. 铁电薄膜制备及铁电性能研究 2. 功能陶瓷制备及性能研究 三.科研项目: 1. 承担陶瓷成型与制备及阻燃剂粉体制备和分散性研究,项目负责人,30万; 2. 参与国家重点基础研究发展计划(973计划)磁电复合薄膜制备及耦合机理研究,项目成员,50万; 3. 太阳能电池玻璃减反射薄膜制备及老化特性研究和聚合物分散液晶私密玻璃制备研究,项目骨干,30万; 四.科研成果: 代表性论文: 1. Xilu Wu, Changwen Zhang, Zhen Nie, Yelong Zhang*, Qiang Bai, Zhengmao Yin, Shuai Zhang, Xiaofei Qu, Fanglin Du, Liang Shi*, Cookies-like Ag2S/Bi4NbO8Cl heterostructures for high efficient and stable photocatalytic degradation of refractory antibiotics utilizing full-spectrum solar energy, Separation and Purification Technology, (2022) 292 120969 2. Shi, Liang, Wu, Xilu, Xu, Chonglei, Bai, Qiang, Nie, Zhen, Ji, Chengcheng), Zhang, Yelong*, Yin, Zhengmao, Zhang, Shuai*, Qu, Xiaofei, Du, Fanglin, Defect-engineering of Pt/Bi4NbO8Br heterostructures for synergetic promotional photocatalytic removal of versatile organic contaminants, Journal of Materials Chemistry C, (2021), 9 [8], 2784-2792; 3. Haifeng Zhao, Dandan Xie, Shuai Zhang, Fanglin Du*, Study on improving the high-temperature oxidation resistance of pyrolytic carbons of phenolic resin binder by in-situ formation of carbon nanotubes, Reactive and Functional Polymers, (2020), 157 104772; 4. Zhang, Shuai*, Wei, Chuanhui, Chu, Hongxiang, Zheng, Fangyu, Effects of annealing processes on the crystallization and magnetic properties of nickel ferrite thin films, Bulletin of Materials Science, (2020), 43 [1], 259; 5. Wu, Xilu, Zhang, Yelong, Wang, Kun, Zhang, Shuai, Qu, Xiaofei, Shi, Liang*, Du, Fanglin, In-situ construction of Bi/defective Bi4NbO8Cl for non-noble metal based Mott-Schottky photocatalysts towards organic pollutants removal, Journal of Hazardous Materials, (2020), 393, 122408; 6. Daixun Jiang, Xun Sun, Xilu Wu, Shuai Zhang, Xiaofei Qu, Liang Shi*, Yelong Zhang* and Fanglin Du, MXene-Ti3C2 assisted one-step synthesis of carbon-supported TiO2/Bi4NbO8Cl heterostructures for enhanced photocatalytic water decontamination, Nanophotonics, (2020), 9 [7], 2077-2088 7. Shuai Zhang, Xianlin Dong, Ying Chen, Fei Cao, Yuanyuan Zhang, Genshui Wang*, Nossikpendou Sama, Denis Remiens, Growth and Electric Properties of MPB BiScO3–PbTiO3 Thin Films on La0.7Sr0.3MnO3-Coated Silicon Substrates, Journal of the American Ceramic Society, (2010), 93[6], 1583-1585; 8. Shuai Zhang, Xianlin Dong, Feng Gao, Ying Chen, Fei Cao, Junyu Zhu, Xiaodong Tang, and Genshui Wang*, Magnetodielectric response in 0.36BiScO3-0.64PbTiO3/La0.7Sr0.3MnO3 thin films and the corresponding model modifications, Journal of Applied Physics (2011), 110, 046103 9. Shuai Zhang, Xianlin Dong, Ying Chen, Genshui Wang*, Junyu Zhu, Xiaodong Tang, Co-contributions of the magnetostriction and magnetoresistance to the giant room temperature magnetodielectric response in multiferroic composite thin films, Solid State Communications, (2011), Volume 151, Issues 14–15, Pages 982-984; 10. Zhu, Junyu; Yang, Jing*; Bai, Wei; Duan, Chungang; Zhang, Shuai; Wang, Genshui; Dong, Xianlin; Remiens, Denis; Tang, Xiaodong*, Magnetic field modulated dielectric relaxation behavior of Pt/BiScO3-PbTiO3/La0.7Sr0.3MnO3 heterostructure in metal-insulator transition region: An equivalent-circuit method, Journal of Applied Physics, (2011), 110, 114118; 11. Ying Chen*, Junyu Zhu, Shuai Zhang, Xianlin Dong, Xiuyun Lei, Xiaodong Tang, Genshui Wang, Preparation and Characterization of Lanthanum Strontium Manganite Thin Films by Metal-Organic Chemical Liquid Deposition, Journal of the American Ceramic Society, (2011), 94[9], 2783-2787; 12. Ying Chen, Genshui Wang, Shuai Zhang, Xiuyun Lei, Junyu Zhu, Xiaodong Tang, Yongling Wang, and Xianlin Dong*, Magnetocapacitance effects of Pb0.7Sr0.3TiO3/La0.7Sr0.3MnO3 thin film on Si substrate, Applied Physics Letters, (2011), 98, 052910; 专利: 1. 一种镧锶锰氧-钛酸锶铅复合薄膜及其制备方法,专利号:CN201010613934.4; 2. 一种镧锶锰氧薄膜的制备方法,专利号:CN201010564681.6; 3. 光学组件,玻璃及液晶显示器,专利号:CN201220700652.2; 4. 聚合物分散液晶组件及装置、汽车玻璃、显示设备,专利号:CN201320398482.1 5. 光学检测系统,专利号:CN201320603257.7 6. 注塑成型装置,专利号:CN201420184650.1 课题组提供充足的科研经费,宽松的科研环境,节日聚餐等。欢迎报考本课题组研究生,加入我们共同探索。 |