导师姓名 |
于贵阳 |
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性别 |
女 |
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职称 |
副教授 |
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学历(学位) |
博士 |
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所属院系 |
化学于分子工程学院 |
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导师类别 |
硕士生导师 |
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行政职务 |
无 |
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招生专业 |
化学,物理化学,应用化学 |
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研究方向 |
太阳能光化学转化,光催化,纳米材料设计 |
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联系方式 |
yugy3413@qust.edu.cn |
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个人简历(包括近期科研项目) |
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2019年6月毕业于吉林大学化学学院,主要从事纳米光催化剂的设计制备和太阳能光化学转化、光催化转化方面的研究。全国半导体材料与器件专家委员会会员,中国化学会会员,在Nat. Commun., Applied Catal. B, Chem. Eng. J., Mater. Horiz., J. Energy. Chem.,J.Mater. Chem. A,Solar RRL,等期刊上发表SCI论文20+篇,申请授权发明专利7项,主持参与国家自然科学基金重点项目、国家自然科学青年基金、山东省自然科学基金、中国博士后科学基金面上基金、必威BETWAY官网科研启动基金等项目7项。 教育和工作经历 2022.03至今,必威BETWAY官网,副教授 2019.07-2022.02,中国石油大学(华东),博士后 2016.09-2019.06,吉林大学,物理化学,博士 2013.09-2016.06,吉林大学,物理化学,硕士 2009.09-2013.07,山东农业大学,应用化学,学士 科研基金 (1)国家自然科学青年基金:Z型异质结构的新型双功能光催化体系的设计及其应用研究,2023-01至2025-12,22209091; (2)国家自然科学基金重点项目:新型单线态激子裂分材料的设计与合成及其在催化单线态氧反应中的应用(参与),2022-01至2026-12,22133006; (3)山东省自然科学基金青年基金:表面缺陷工程构筑新型二维聚合物光催化材料及其性能研究,2021-01至2023-12,ZR2020QB057; (4)中国博士后科学基金面上项目:基于表面缺陷工程构筑新型二维有机半导体光催化材料及其性能研究,2020-05至2021-07,2020M672162; 部分代表性学术论文 (1)Dual P-doped-site modified porous g-C3N4achieves high dissociation and mobility efficiency for photocatalytic H2O2production.Chemical Engineering Journal,2023,461, 142140. (IF: 16.744)第一作者 (2)S-vacancy-assisted fast charge transport and oriented ReS2growth in twin crystal ZnxCd1-xS: atomic-level heterostructure for dual-functional photocatalytic conversion,Materials Horizons,2023,DOI: 10.1039/D3MH01568H. (IF: 13.3)第一作者 (3)Atomic Ni directional-substitution on ZnIn2S4nanosheet to achieve the equilibrium of elevated redox capacity and efficient carrier-kinetics performance in photocatalysis.Journal of Energy Chemistry,2024,88,272-281.(IF: 13.1)通讯作者 (4)Controllably solar-driven C‒C coupling organic synthesis integrated with H2production over P-doped g-C3N4with NiS nanoparticles modification.Applied Materials Today,2023,32,101794. (IF: 8.663)第一作者 (5)Solar energy-driven upcycling of plastic waste on direct Z-scheme heterostructure of V-substituted phosphomolybdic acid/g-C3N4nanosheets.Applied Catalysis B: Environmental,2022, 315, 121496. (IF: 19.503)通讯作者 (6)Schottky junction with Bi/Bi2O3core-shell nanoparticles modified g-C3N4for boosting photocatalytic H2O2evolution from pure water.Catalysis Science & Technology,2023,13, 3094-3105. (IF: 6.177 )通讯作者 (7)Collective excitation of plasmon-coupled Au-nanochain boosts photocatalytic hydrogen evolution of semiconductor.Nature Communications,2019,10, 4912. (IF:17.694 )第一作者 (8)Efficienthydrogenation ofcinnamaldehyde to 3-phenylpropanol on Ni/NiS-modified twin Zn0.5Cd0.5S under visible light irradiation.Catalysis Science & Technology,2022,12,2706. (IF: 6.177 )通讯作者 (9)Construction of multi-scale 1D/2D CdS/ZnS(en)0.5nanorod/nanosheet heterojunction to boost photocatalytic hydrogen generation performance,Applied Surface Science,2022,578,152033.(IF: 7.392)第一作者 (10)Perylenetetracarboxylic diimide covalently bonded with mesoporous g-C3N4to construct direct Z-scheme heterojunctions for efficient photocatalytic oxidative coupling of amines.Applied Catalysis B: Environmental,2021, 298,120534. (IF: 19.503)通讯作者 (11)Photoinduced Generation of Metastable Sulfur Vacancies Enhances the Intrinsic Hydrogen Evolution Behavior of Semiconductors.Solar RRL,2021,5,2100580. (IF: 9.173)第一作者 (12)Creation of carbon-defects and in-plane holes with the assistance of NH4Br to enhance the photocatalytic activity of g-C3N4.Catalysis Science & Technology,2021,11, 5349. (IF: 6.711)第一作者 (13)Cocatalyst-Free Reduction of 4,4'-Dinitrodiphenyl Ether to 4,4'-Diaminodiphenyl Ether over Twin-Crystal ZnxCd1-xS under Visible Light,ChemCatChem,2021,13,4591.(IF: 5.497)通讯作者 (14)Modification of g-C3N4Photocatalyst with Flower-like ReS2for Highly Efficient Photocatalytic Hydrogen Evolution.ChemCatChem,2020,12,6385.(IF: 5.497)通讯作者 (15)A highly active cocatalyst-free semiconductor photocatalyst for visible-light-driven hydrogen evolution: synergistic effect of surface defects and spatial bandgap engineering.Journal of Materials Chemistry A,2016,4, 13803. (IF: 14.511)第一作者 专利 (1)一种双P位点掺杂的氮化碳光催化剂及其制备方法和应用;CN202310250499.0 (2)一种钒取代磷钼酸/g-C3N4纳米片Z型异质结及其制备方法和应用;CN202310247314.0 (3)一种1,2-二苯基-1,2-乙二醇的光催化制备方法;CN202310250400.7 (4)一种光催化高效选择性氧化苯甲醇为苯甲醛的方法;CN202310740282.8 (5)一种光催化剂、制备方法及其在制取氢气中的应用;CN201510160410.7 (6)一种4,4-二氨基二苯醚的制备方法;CN202111087142.2 (7)一种还原分子氧合成过氧化氢的光催化制备方法;202211108732.3 欢迎感兴趣的员工报考研究生。 |