一、个人简介
于佳卉,副研究员,山东省青年创新团队带头人。分别于2021年11月、2018年11月取得英国诺丁汉大学博士学位、香港科技大学硕士学位。研究理论计算化学指导的材料设计与合成、MOF衍生材料的可控制备,并探究其在抗菌、抗感染领域的应用。近三年发表中科院一区top SCI论文十余篇,其中一作/通讯7篇(6篇IF>10),包括Advanced Functional Materials、 Applied Energy、Advanced Science等期刊,主持国家、省自然科学基金等项目5项。研究方向:纳米酶可控合成、纳米碳材料、光热转换材料、理论计算化学。
二、代表论著
[1] Yan ZJ , Liu M, Guo ZY , Chen QH , Xi ZY, Sun XZ, Yu JH*, Wu Tao*, Trace Iodine Modified Copper Catalyst Drives Asymmetric C–C Coupling in Stable CO2 Electroreduction. Advanced Functional Materials,2025. Research Article. (IF 18.5;中科院一区)
[2] Zhu HW, Guo ZY, Lan DW, Liu S, Liu M, Zhang JW, Luo X, Yu JH*, Wu Tao*, Accelerating the design of catalysts for CO2 electroreduction to HCOOH:A data-driven DFT-ML screening of dual atom catalysts, Journal of Energy Chemistry, 2024; 99: 627-635. Research Article. (IF 14.3;中科院一区)
[3] Yu JH, Li L, Liu YX, Wen J, Liu S, Li JY, Ning JY, Shao CX, Wu Tao*, Liu B*. Solar-Driven Evaporator With“Starburst Turbine”Design Featuring Directional Salt Crystallization, Antibacterial, and Catalytic Multifunctionality for Efficient Water Purification, Advanced Science, 2024; 2406696. Research Article. (IF 15.1;中科院一区)
[4] Yu JH, Wang CX, Liu S, Yang S, Du XM, Liu S, Shao CX, Kong HJ, Wang BL, Wu T*, Li CW*. Solid waste-derived solar desalination devices: Enhanced efficiency in water vapor generation and diffusion. Chemical Engineering Journal, 2024, 485 : 149870. Research Article. (IF 15.1;中科院一区)
[5] Yu JH, Liu S, Mu XL,Yang Gang, Luo X; Ed Lester; Wu T*. Cu-ZrO2 catalysts with highly dispersed Cu nanoclusters derived from ZrO2@ HKUST-1 composites for the enhanced CO2 hydrogenation to methanol, Chemical Engineering Journal, 2021, 419. Research Article. (IF 16.7;中科院一区)
[6] Yu JH, Feng BG, Liu S; Mu XL, Ed Lester, Wu T*, Highly active Ni/Al2O3 catalyst for CO2 methanation by the decomposition of Ni-MOF@Al2O3 precursor via cold plasma, Applied Energy, 2022, 315: 119036. Research Article. (IF 11.2;中科院一区)
[7] Yu JH, Liu S, Liu S, Jiang P; Ed Lester, Li CW, Ding Mc, Shao CX, Shi KQ, Wu T*. UiO-66-derived Ce/Ni-ZrO2 nano-catalysts with a large nickel surface area for the highly efficient CO2 methanation under high GHSVs, Fuel, 2023, 340: 127553. Research Article. (IF 7.4;中科院一区)
三、招生要求
学术型:偏向纳米酶设计合成、抗菌抗感染材料性能研究方向。
课题组氛围和谐,学术气氛严谨,日常氛围欢快,科研津贴充足。目前课题组有博士后、科研助理、研究生各1名,本科生数名。人员不多,可以保证对每个课题熟悉并提供指导。目前指导本科生获得多个省级大创项目,其中两位有望以(共)第一作者身份完成一区SCI论文;入组一年半的研究生已具备相对熟练的独立科研能力,其一作SCI论文正在审稿(IF>10)。欢迎优秀学子加入课题组!!