教师简介

任国庆,山东大学副教授,硕士生导师,青年学者未来计划获得者。2013至2018年于中国科学院大连化学物理研究所攻读博士学位,师从张涛院士,2019年3月加入山东大学。主要从事纳米及单原子催化、二氧化碳捕获与转化、能源及环境催化等方面的研究。近年来取得的主要学术成果如下:1. 低能耗二氧化碳催化转化:基于多孔材料孔富集效应和双原子协同催化效应,构筑了有机多孔材料锚定的双单原子催化剂实现了常温常压下CO2加氢制备液态化学品;2. 密闭空间二氧化碳处理:针对密闭空间二氧化碳处理应用场景的技术需求,进行成果转化研究,形成原理样机等技术成果;3.液态可逆储氢研究:开发了氨基修饰的纳米合金催化剂实现了常温常压下甲酸基高效可逆储氢过程,并在此基础上提出“液态阳光:甲酸”可逆储氢技术路线,为低成本氢能储存和运输提供理论和技术支撑。截至目前,已在Nano Letters、ACS Catalysis、Journal of Catalysis等期刊发表SCI学术论文30余篇,授权发明专利10余件。主持多项国家级和省部级科研项目,包括国家自然科学基金青年基金项目、****创新成果转化项目、国家重点研发计划子课题、山东省自然科学基金等。主讲《物理化学》、《催化原理》、《固体表面物理化学》、《工程制图》等本科生及研究生课程。

长期招收硕士研究生,欢迎感兴趣的同学联系renguoqing@sdu.edu.cn。


教育经历
  • 2009-9 — 2013-7
    中国石油大学(华东)
    应用化学
    学士学位
  • 2013-9 — 2018-11
    中国科学院大连化学物理研究所
    工业催化
    博士学位
工作经历
  • 2019-03 — 至今
     山东大学 
研究方向
论文成果

(1) 吕科燃.Bifunctional role of mechanical catalysis approach accelerates CO2 hydrogenation under low temperature.Chemical Engineering Journal.2024,503

(2) 慈秀芹.Continuous production of pure formic acid solution from CO2 hydrogenation at room temperature via amine-functionalized PdMn nano-alloy.Chemical Engineering Journal.2024,497

(3) Pt/Ni single-atom alloy boosts mechano-pyrolysis of alkane into hydrogen.Applied Catalysis B: Environmental.2024,353

(4) 周威.Photocatalytic CO2 reduction to syngas using metallosalen covalent organic frameworks.NATURE COMMUNICATIONS.2023,14 (1)

(5) Jiang, Shuchao.Protocol for ambient CO2 capture and conversion into HCOOH and NH4H2PO4.STAR Protocols.2023,4 (3)

(6) 杨君侠.Hydrogenation of NOx into ammonia under ambient conditions: From mechanistic investigation to multiphase catalysis.Applied Catalysis B: Environmental.2023,329

(7) 姜淑超.Ambient Hydrogen Storage and Release Using CO2and an l -Arginine-Functionalized PdAu Catalyst via pH Control.ACS Catal. .2022,12 (22):14113-14122

(8) 张玲.Manipulate the acidity of gallium doped Silicalite-1 to optimize methanol to propene performance.Chemical Engineering Journal.2023,458

(9) 涂芮.Single-atom alloy Ir/Ni catalyst boosts CO2 methanation via mechanochemistry.NANOSCALE HORIZONS.2023

(10) Yang, Junxia.Hydrogenation Reactions with Synergistic Catalysis of Pd single atoms and nanoparticles under Near-Ambient Conditions..Chemistry a European Journal.2022,29 (10)

(11) 姜淑超.Efficient dehydrogenation of high-concentration formic acid over PdAu/AC-NH<sub>2</sub> catalysts without additives under ambient conditions.NEW JOURNAL OF CHEMISTRY.2023,47 (3):1081

(12) Additive-free CO2 hydrogenation to pure formic acid solution via amine-modified Pd catalyst at room temperature.GREEN CHEMISTRY.2023,25 (15):6025-6031

(13) Mechanical vibration reactor achieves CO2 methanation assisted by ruthenium modified nickel milling balls.Chemical Engineering Journal.2023,471

(14) 杨君侠.Mechano-catalysis boosts glycolaldehyde conversion to tetroses over a new Zn-COF catalyst.NEW JOURNAL OF CHEMISTRY.2022,47 (2):558-562

(15) 姜淑超.Ambient Hydrogen Storage and Release Using CO2 and an L-Arginine-Functionalized PdAu Catalyst via pH Control.Acs catalysis.2022,12 (22):14113

(16) 姜淑超.Ambient CO2 capture and conversion into liquid fuel and fertilizer catalyzed by a PdAu nano-alloy.CELL REPORTS PHYSICAL SCIENCE.2023,4 (2)

(17) 赵文玲.A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis.MATERIALS TODAY CHEMISTRY.2022,26

(18) Jikai Sun#,Shengliang Zhai#.Heteronuclear Dual Single-Atom Catalysts for Ambient Conversion of CO2 from Air to Formate.ACS Catalysis.2023,13 (6):3915

(19) Keran Lv#,Rui Tu#.Mechanical vibration reactor achieves CO2 methanation assisted by ruthenium modified nickel milling balls.Chemical Engineering Journal.2023,471 :144613

(20) Shuchao Jiang#,Xiaokong Liu#.Additive-free CO2 Hydrogenation to Pure Formic Acid Solution via Amine-modified Pd Catalyst at Room Temperature.Green Chemistry.2023

(21) Shuchao Jiang.Ambient CO2 capture and conversion into liquid fuel and fertilizer catalyzed by a PdAu nano-alloy.Cell Reports Physical Science.2023,4 :101248

(22) Shuchao Jiang.Ambient Hydrogen Storage and Release Using CO2 and an L-Arginine-Functionalized PdAu Catalyst via pH Control.ACS Catalysis.2022,12 (22):14113-14122

(23) Guoqing Ren#,Jikai Sun#.Ambient hydrogenation of carbon dioxide into liquid fuel by a heterogeneous synergetic dual single-atom catalyst.Cell Reports Physical Science.2022,3 (1):100705

(24) Shengliang Zhai#,Shuchao Jiang#.Liquid Sunshine: Formic Acid.Journal of Physical Chemistry Letters.2022,13 (36):8586-8600

(25) Honglei Wang#,Guoqing Ren#.In silico design of dual-doped nitrogenated graphene (C2N) employed in electrocatalytic reduction of carbon monoxide to ethylene.Journal of Materials Chemistry A.2022,10 (9):4703

(26) Shengliang Zhai#,Ling Zhang#,Jikai Sun#.Rational Design of Synergistic Structure Between Single-Atoms and Nanoparticles for CO2 Hydrogenation to Formate Under Ambient Conditions.Frontiers in Chemistry.2022,10 :957412

(27) Huijie He#,Guoqing Ren#.Van der Waals Heterostructures Based on Porous Graphene for Photocatalytic Water Splitting.The Journal of Physical Chemestry C.2022,126 (18):7849

(28) Shuchao Jiang.Protocol for ambient CO2 capture and conversion into HCOOH and NH4H2PO4.STAR Protocols.2023,4 (3):102360

(29) Guoqing Ren#,Yan Tang#.Exceptional Antisintering Gold Nanocatalyst for Diesel Exhaust Oxidation.Nano Letters.2018,18 (10):6489-6493

(30) Guoqing Ren.Effect of Group IB Metals on the Dehydrogenation of Propane to Propylene over Anti-sintering Pt/MgAl2O4.Journal of Catalysis.2018,366 :115-126

(31) Guoqing Ren.Activity Promotion of Anti-sintering Au₲MgGa2O4 Using Ceria in the Water Gas Shift Reaction and Catalytic Combustion Reactions.Chinese Journal of Catalysis.2019,40 (4):600-608

专利
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