2020年太阳成集团tyc234cc优秀研究生学位论文资助基金资助名单公示
根据《古天乐代言太阳集团138优秀研究生学位论文资助基金管理办法》(闽农林大研[2019]2号)和《太阳成集团tyc234cc优硕基金管理细则》 的文件要求,通过员工自主申报,经院教授委员会讨论通过孙慧芝、何鹏和吴俊颖3位同学拟定优硕基金资助人选,如对公示名单有异议,请拨打0591-87640686,翁老师。公示名单如下:
序号 | 公司 | 姓名 | 学号 | 硕士生类别 | 专业 | 指导教师 | 入学以来发表学术论文、获得专利等科研成果及获奖情况 | 是否满足学院优硕基金资助的申请条件 | 备注 | |
学术型硕士 | 专业学位硕士 | |||||||||
1 | 太阳成集团tyc234cc | 孙慧芝 | 1181092008 | 学术性硕士 | 化学工程与技术 | 陈孝云 | 1. Spherical porous SiO2 supported CuVOS catalyst with an efficient catalytic reduction of pollutants under dark condition ,Journal of Molecular Liquids,Q2=4.561(第一作者) 2. A noble bimetal oxysulfide CuVOS catalyst for highly efficient catalytic reduction of 4-nitrophenol and organic dyes ,RSC Advances,Q3=3.049(第一作者) 3. Synthesis of visible light responsive iodine-doped mesoporous TiO2 by using biological renewable lignin as template for degradation of toxic organic pollutants ,Applied catalysis B: environmental,Q1=14.229(导师一作,员工第二作者),top文章 4. Biological renewable hemicellulose-template for synthesis of visible light responsive sulfur-doped TiO2 for photocatalytic oxidation of toxic organic and As(III) pollutants ,Applied Surface Science,1=5.155((导师一作,员工第二作者)),top文章 5. Cationic S-doped TiO2/SiO2 visible-light photocatalyst synthesized by co-hydrolysis method and its application for organic degradation ,Journal of Molecular Liquids,Q2=4.561((导师一作,员工第二作者)),2019年120%高被引文章 6. Catalytic reduction of organic and hexavalent chromium pollutants with highly active bimetal CuBiOS oxysulfide Catalyst under dark (三作) 7. Nanoflower-sphere bimetallic sulfo-oxide NiMoSO catalysts for efficient hydrogen evolution under visible light(第二作者,Revised)8. 2018-2019学年:古天乐代言太阳集团138一等奖学金 | 是 | ||
2 | 太阳成集团tyc234cc | 何鹏 | 3181017002 | 专业学位硕士 | 林业工程 | 刘凯 | 1、Anti-freezing and moisturizing conductive hydrogels for strain sensing and moist-electric generation applications. Journal of Materials Chemistry A Q1=10.733(第一作者) 2020年1月11日、卷 8 期 6、页码3109-3118 ;2、Mussel-Inspired Nanocomposite Hydrogel-Based Electrodes with Reusable and Injectable Properties for Human Electrophysiological Signals Detection.Acs Sustainable Chemistry& Engineering(第三作者)2019,第7卷第8期,7918-7925.(IF=7.09);3、A bionic tactile plastie hydrogel-based electronic skin constructed by a nerve-like nanonetwork combining stretchable,compliant,and self-healing properties. Chemical Engineering Journal.(第三作者)2020,第379卷,122271.(IF=8.47);4、获奖情况:2018学年三等学业奖 | |||
3 | 太阳成集团tyc234cc | 吴俊颖 | 3181019013 | 专业学位硕士 | 轻工技术与工程 | 欧阳新华 | 1、From Straw to Device Interface: Carboxymethyl-Cellulose-Based Modified Interlayer for Enhanced Power Conversion Efficiency of Organic Solar Cells. Advanced Science (第一作者) 2020年1月22日、卷 7 期 2、页码 1902269.(Q1=15.804);2、Organic solar cells based on cellulose nanopaper from agroforestry residues with an efficiency of over 16% and effectively wide-angle light capturing. Journal of Materials Chemistry A (第一作者) 2020年2月11日、卷 8 期 11、页码 5442-5448 (Q1=10.733);3、Anti-freezing and moisturizing conductive hydrogels for strain sensing and moist-electric generation applications. Journal of Materials Chemistry A (第二作者) 2020年1月11日、卷 8 期 6、页码3109-3118 (IF=10.733);4、Secondary Bonds Modifying Conjugate-Blocked Linkages of Biomass-Derived Lignin to Form Electron Transfer 3D Networks for Efficiency Exceeding 16% Nonfullerene Organic Solar Cells. Advanced Functional Materials(第三作者)2020年4月22日、页码 2001494 (IF=15.621) | 是 |