邓伟侨
教授
所属院部: 化学与化工学院
访问次数:
基本信息
  • 教师拼音名称:
    dengweiqiao
  • 入职时间:
    2019-08-13
  • 所在单位:
    化学与化工学院
  • 职务:
    副院长
  • 学历:
    博士研究生毕业
  • 办公地点:
    青岛校区图书馆
  • 性别:
  • 学位:
    博士生
  • 在职信息:
    在职
  • 主要任职:
    前沿化学研究院院长
  • 毕业院校:
    加州理工学院
学科:
物理化学;
曾获荣誉:

国家杰出青年基金获得者(2015)、国家万人计划领军人才(2018)、科技部中青年科技创新领军人才(2017)、国际先进材料协会科学家奖章(2023)、山东省泰山学者攀登计划专家(2023);
学术荣誉:

2015    国家杰出青年科学基金获得者;
教师简介

研究特色为理论与实验高度融合,在理论化学,材料化学,能源化学,催化化学等领域,做出一系列原创性成果。在推动科学前沿发展和满足国家重大需求方面取得了显著的成绩。在推动科学前沿发展方面,代表性学术成果包括:(1)揭示了rotaxane 分子开关的分子机制,为其入选为2016 诺奖代表性工作之一提供了理论支撑;(2)提出了有机半导体载流子迁移率的理论方程,为该领域常用理论方程之一;(3)提出了材料数智化设计方法,即结合数据、人工智能、专家知识,按需求来设计材料;发展了相关系列理论方法如范德华分子力场等;(4)提出了常温常压二氧化碳捕获与转化的减排思路,被认为“使得经济的二氧化碳减排路线成为可能”;(5)按需求设计多孔材料用于能源和生命健康,在光催化材料、电催化材料、防疫检测材料上有进展。在Nature 子刊J. Am. Chem. Soc., Angew. Chemie. Int. Ed.等期刊发表论文 220 余篇,他引15000 余次,H-index 65。在满足国家重大需求方面,2014年作为共同项目负责人承担了中科院先导专项项目《页岩气微观赋存状态与微观流动》。2017、2022 年分别作为《新型纳米材料高效结构优化、功能预测及材料设计》和《基于数据库和人工智能的催化材料数智化设计方法及软件》项目首席,获得国家重点研发计划资助。这些项目解决了或瞄准解决一些国家重大需求里的基础理论问题。

       热烈欢迎感兴趣的本科生、研究生、博士后加入!联系方式:dengwq@sdu.edu.cn


教育经历
  • 1990-9 — 1994-6
    兰州大学
    化学
    理学学士学位
  • 1994-9 — 1997-6
    中国科学院大连化学物理研究所
    物理化学
    理学硕士学位
  • 1998-6 — 2004-6
    加州理工学院
    物理化学
    理学博士学位
工作经历
  • 2004-07 — 2006-07
    美国加州理工学院
  • 2006-08 — 2009-07
    新加坡南洋理工大学
  • 2009-08 — 2019-06
    中国科学院大连化学物理研究所
  • 2019-07-至今
    山东大学
科研成果
论文

1.  涂芮  and 孙吉凯. Machine learning aided design of single-atom alloy catalysts for methane cracking.  Nature Communications,  15,  6036, 2024. 

2.  陈小康. Enhanced nitrite electroreduction to ammonia via interfacial dual-site adsorption.  Journal of Energy Chemistry,  96,  328-335, 2024. 

3.  王萧. Metal-Organic Frameworks: Direct Synthesis by Organic Acid-Etching and Reconstruction Disclosure as Oxygen Evolution Electrocatalysts.  Angewandte Chemie International Edition,  63,  e202400323, 2024. 

4.  丛蝶. Hydrogen-Bond-Network Breakdown Boosts Selective CO2 Photoreduction by Suppressing H2 Evolution.  Angewandte Chemie International Edition,  63,  e202316991, 2024. 

5.  周威. Photocatalytic CO2 reduction to syngas using metallosalen covalent organic frameworks.  Nature Communications,  14,  6971, 2023. 

6.  杨红燕. MXene-Derived Na+-Pillared Vanadate Cathodes for Dendrite-Free Potassium Metal Batteries.  Small,  20,  2306572, 2023. 

7.  戚文涛. Optimized synthesis of anti-COVID-19 drugs aided by retrosynthesis software.  RSC Medicinal Chemistry,  14,  1254-1259, 2023. 

8.  孙吉凯. Heteroatom doping regulates the catalytic performance of single-atom catalyst supported on graphene for ORR.  Nano Research,  17,  1086-1093, 2023. 

9.  . Flavanthrene derivatives as photostable and efficient singlet exciton fission materials.  2041-6520,  13,  9914-9920, 2022. 

10.  . Isolated Single-Atom Ni-N5Catalytic Site in Hollow Porous Carbon Capsules for Efficient Lithium-Sulfur Batteries.  Nano Letters,  21,  9691-9698, 2021. 

11.  赵沿亮. The mechanism of sugar produced from simple glycolaldehyde derivative at ambient conditions.  International Journal of Quantum Chemistry,  122,  e26865, 2022. 

12.  姜淑超. Ambient Hydrogen Storage and Release Using CO2and an l -Arginine-Functionalized PdAu Catalyst via pH Control.  ACS Catalysis,  12,  14113-14122, 2022. 

13.  涂芮. Single-atom alloy Ir/Ni catalyst boosts CO2 methanation via mechanochemistry.  Nanoscale Horizons,  8,  852-858, 2023. 

14.  孙兰菊. Nb2CTx MXene Derived Polymorphic Nb2O5.  Small,  19,  2300914, 2023. 

15.  杨红燕. MXene-Derived Na<SUP>+</SUP>-Pillared Vanadate Cathodes for Dendrite-Free Potassium Metal Batteries.  Small,  20,  2306572, 2023. 

16.  王萧. Protocol for fabrication and characterization of Fe-SAC@COF for electrocatalytic oxygen evolution reaction.  STAR Protocols,  3,  101626, 2022. 

17.  翟盛良. Single platinum atoms anchored on N-doped carbon materials composed of bipyridine as efficient hydrogen evolution electrocatalysts.  MATERIALS CHEMISTRY FRONTIERS,  7,  2889-2895, 2023. 

18.  孙兰菊. Nb2CTx MXene Derived Polymorphic Nb2O5.  small,  2023. 

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

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

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

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

23.  方旭. Poly(ionic liquid)s for Photo-Driven CO2 Cycloaddition: Electron Donor-Acceptor Segments Matter.  ADVANCED SCIENCE,  10,  2023. 

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

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

26.  . Heterogenization of Salen Metal Molecular Catalysts in Covalent Organic Frameworks for Photocatalytic Hydrogen Evolution.  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,  2023. 

27.  . Poly(ionic liquid)s for Photo-Driven CO2 Cycloaddition: Electron Donor-Acceptor Segments Matter.  ADVANCED SCIENCE,  10,  2023. 

28.  杨红燕. Ordered-Range Tuning of Flash Graphene for Fast-Charging Lithium-Ion Batteries.  ACS APPLIED NANO MATERIALS,  6,  2450, 2023. 

29.  . Heteronuclear Dual Single-Atom Catalysts for Ambient Conversion of CO2 from Air to Formate.  Acs catalysis,  13,  3915, 2023. 

30.  谭怡. MXene-Derived Metal-Organic Framework@MXene Heterostructures toward Electrochemical NO Sensing.  Small,  2022. 

31.  孙兰菊. Dual-conductive metal-organic framework@MXene heterogeneity stabilizes lithium-ion storage.  Journal of Energy Chemistry ,  76,  368, 2023. 

32.  周威. Ultrasensitive NO Sensor Based on a Nickel Single-Atom Electrocatalyst for Preliminary Screening of COVID-19.  ACS SENSORS,  2022. 

33.  姜淑超. Ambient Hydrogen Storage and Release Using CO2 and an L-Arginine-Functionalized PdAu Catalyst via pH Control.  ACS Catalysis,  2022. 

34.  翟盛良. Liquid Sunshine: Formic Acid.  Journal of Physical Chemistry Letters,  2022. 

35.  张瑞玲. Excitation-Dependent Emission in All-Inorganic Lead-Free Cs2ScCl5·H2O Perovskite Crystals.  16,  2022. 

36.  任国庆. Ambient hydrogenation of carbon dioxide into liquid fuel by a heterogeneous synergetic dual single-atom catalyst.  CELL REPORTS PHYSICAL SCIENCE,  3,  2022. 

37.  何慧杰. Van der Waals Heterostructures Based on Porous Graphene for Photocatalytic Water Splitting.  The Journal of Physical Chemestry C,  126,  7849, 2022. 

38.  任国庆. Ambient hydrogenation of carbon dioxide into liquid fuel by a heterogeneous synergetic dual single-atom catalyst.  CELL REPORTS PHYSICAL SCIENCE,  3,  2022. 

39.  李怡萌. In situ photodeposition of platinum clusters on a covalent organic framework for photocatalytic hydrogen production.  NATURE COMMUNICATIONS,  13,  2022. 

40.  何慧杰. Van der Waals Heterostructures Based on Porous Graphene for Photocatalytic Water Splitting.  126,  7849-7858, 2022. 

41.  王萧. Iron single-atom catalysts confined in covalent organic frameworks for efficient oxygen evolution reaction.  CELL REPORTS PHYSICAL SCIENCE,  3,  2022. 

42.  周威. In Silico Design of Covalent Organic Framework-Based Electrocatalysts.  JACS AU,  1,  1497, 2021. 

43.  王洪磊. In silico design of dual-doped nitrogenated graphene (C2N) employed in electrocatalytic reduction of carbon monoxide to ethylene.  Journal of Materials Chemistry A,  10,  4703, 2022. 

44.  赵沿亮. The Second Excited Triplet-State Facilitates TADF and Triplet-Triplet Annihilation Photon Upconversion via a Thermally Activated Reverse Internal Conversion.  Advanced Optical Materials,  10,  2022. 

45.  邓启文. Hydrogen and CO2 storage in high surface area covalent triazine-based frameworks.  MATERIALS TODAY ENERGY,  18,  2020. 

46.  杨丽. Digital-intellectual design of microporous organic polymers.  Phys. Chem. Chem. Phys。,  23,  22835, 2021. 

47.  王洪磊. In silico design of metal-free hydrophosphate catalysts for hydrogenation of CO2 to formate.  Phys. Chem. Chem. Phys。,  24,  2901, 2022. 

48.  任国庆. Ambient hydrogenation of carbon dioxide into liquid fuel by a heterogeneous synergetic dual single-atom catalyst.  CELL REPORTS PHYSICAL SCIENCE,  3,  2022. 

49.  张瑞玲. Excitation-Dependent Emission in All-Inorganic Lead-Free Cs2ScCl5 center dot H2O Perovskite Crystals.  Laser and Photonics Reviews,  16,  2022. 

50.  孙兰菊. Homologous MXene-Derived Electrodes for Potassium-Ion Full Batteries.  Advanced Energy Materials,  2022. 

51.  方旭. Bifunctional poly(ionic liquid) catalyst with dual-active-center for CO2 conversion: Synergistic effect of triazine and imidazolium motifs.  JOURNAL OF CO2 UTILIZATION,  54,  2021. 

52.  赵文玲. Unblocked intramolecular charge transfer for enhanced CO2 photoreduction enabled by an imidazolium-based ionic conjugated microporous polymer.  Applied Catalysis B-Environmental,  300,  2022. 

53.  冯念云. Conjugated microporous polymer foams with excellent thermal insulation performance in a humid environment.  RSC ADVANCES,  11,  13957, 2021. 

54.  何慧杰. A Porphyrin-Based Covalent Organic Framework for Metal-Free Photocatalytic Aerobic Oxidative Coupling of Amines.  CHEMISTRY-A EUROPEAN JOURNAL ,  27,  14390, 2021. 

55.  李楠. High-Capacity Amidoxime-Functionalized beta-Cyclodextrin/Graphene Aerogel for Selective Uranium Capture.  Environmental Science & Technology,  55,  9181, 2021. 

56.  孙吉凯. Theoretical studies on the catalytic hydrogenation of carbon dioxide by 3d transition metals single-atom catalyst supported on covalent triazine frameworks.  MOLECULAR CATALYSIS,  508,  2021. 

57.  宋丹娜. In silico design of new nitrogen-rich melamine-based porous polyamides applied to CO2/N-2 separation.  CHEMICAL PHYSICS LETTERS Journal,  771,  2021. 

58.  陆乃嘉. Theoretical design of Salen-metal-based materials for highly selective separation of C2H2/C2H4.  CHEMICAL PHYSICS LETTERS Journal,  771,  2021. 

59.  孙兰菊. Edge-on-Plane-Confined Covalent Organic Frameworks Enable a Defect- and Nitrogen-Rich Carbon Matrix for High-Rate Lithium-Ion Storage.  ACS Appl. Energy Mater. ,  4,  5957, 2021. 

60.  邓伟侨. Enhanced carbon dioxide conversion at ambient conditions via a pore enrichment effect..  Nature communications,  11,  4481, 2020. 

61.  吴蓥男. Enhancing Intersystem Crossing to Achieve Thermally Activated Delayed Fluorescence in a Water-Soluble Fluorescein Derivative with a Flexible Propenyl Group.  Journal of Physical Chemistry Letters,  11,  5692, 2020. 

62.  刘四平. Efficient Thermally Activated Delayed Fluorescence from All-Inorganic Cesium Zirconium Halide Perovskite Nanocrystals.  ANGEWANDTE CHEMIE INTERNATIONAL EDITION,  59,  21925, 2020. 

63.  Han, Peigeng. Lead-Free Sodium-Indium Double Perovskite Nanocrystals through Doping Silver Cations for Bright Yellow Emission.  ANGEWANDTE CHEMIE INTERNATIONAL EDITION,  58,  17231, 2019. 

64.  Han, Peigeng. Manganese-Doped, Lead-Free Double Perovskite Nanocrystals for Bright Orange-Red Emission.  6,  566, 2020. 

65.  李楠. Bioinspired succinyl-β-cyclodextrin membranes for enhanced uranium extraction and reclamation.  Environmental Science: Nano,  10, 2020. 

66.  Cong, Muyu. Carrier Multiplication and Hot-Carrier Cooling Dynamics in Quantum-Confined CsPbl(3) Perovskite Nanocrystals.  Journal of Physical Chemistry Letters,  11,  1921, 2020. 

67.  Han, Peigeng. All-Inorganic Lead-Free 0D Perovskites by a Doping Strategy to Achieve a PLQY Boost from < 2 % to 90 %.  ANGEWANDTE CHEMIE INTERNATIONAL EDITION,  59,  12709, 2020. 

68.  Cheng, Pengfei. Colloidal Synthesis and Optical Properties of All-Inorganic Low-Dimensional Cesium Copper Halide Nanocrystals.  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,  58,  16087, 2019. 

69.  宋丹娜. Acidic Media Regulated Hierarchical Cobalt Compounds with Phosphorous Doping as Water Splitting Electrocatalysts.  Advanced Energy Materials,  2021. 

70.  李楠. Bioinspired succinyl-beta-cyclodextrin membranes for enhanced uranium extraction and reclamation.  7,  3124, 2020. 

71.  韩克利 , 孙磊  and 毛鑫. First-Principles Screening of Lead-Free Mixed-Anion Perovskites for Photovoltaics.  The Journal of Physical Chemestry C,  124,  1303, 2020. 

72.  Han, Peigeng. Size effect of lead-free halide double perovskite on luminescence property.  SCIENCE CHINA Chemistry,  62,  1405, 2019. 

73.  周威. Salen-Based Conjugated Microporous Polymers for Efficient Oxygen Evolution Reaction.  CHEMISTRY-A EUROPEAN JOURNAL ,  26,  7720, 2020. 

74.  杨丽. van der Waals Function for Molecular Mechanics.  JOURNAL OF PHYSICAL CHEMISTRY A,  124,  2102, 2020. 

75.  邓伟侨 , 孙磊  and 杨丽. Combination Rules and Accurate van der Waals Force Field for Gas Uptakes in Porous Materials.  J. Phys. Chem. A.,  2019. 

76.  孙磊 , 邓伟侨 , 李真  and 李怡萌. Chemical fixation of carbon dioxide catalyzed via covalent triazine frameworks as metal free heterogeneous catalysts without a cocatalyst.  Journal of Materials Chemistry A,  2019. 

77.  翟冬  and 邓伟侨. Chiral Hydroxytetraphenylene-Catalyzed Asymmetric Conjugate Addition of Boronic Acids to Enones.  ORGANIC LETTERS,  21,  5040, 2019. 

78.  邓伟侨 , 韩克利  and Yang, Bin. Colloidal Synthesis and Charge-Carrier Dynamics of Cs2AgSb1-yBiyX6 (X: Br, Cl; 0 <= y <= 1) Double Perovskite Nanocrystals.  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,  58,  2278, 2019. 

79.  邓伟侨 , 韩克利  and Zhang, Ruiling. Air-Stable, Lead-Free Zero-Dimensional Mixed Bismuth-Antimony Perovskite Single Crystals with Ultra-broadband Emission.  Angewandte Chemie - International Edition,  58,  2725, 2019. 

80.  邓伟侨  and Li, Yajuan. Conductive Microporous Covalent Triazine-Based Framework for High-Performance Electrochemical Capacitive Energy Storage.  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,  57,  7992, 2018. 

81.  邓伟侨 , 韩克利  and Cheng, Pengfei. Lead-Free, Two-Dimensional Mixed Germanium and Tin Perovskites.  Journal of Physical Chemistry Letters,  9,  2518, 2018. 

82.  邓伟侨  and Lv, Qing. Selectively nitrogen-doped carbon materials as superior metal-free catalysts for oxygen reduction.  NATURE COMMUNICATIONS,  9,  2018. 

83.  韩克利 , 邓伟侨  and Yang, Bin. Lead-Free Silver-Bismuth Halide Double Perovskite Nanocrystals.  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,  57,  5359, 2018. 

84.  邓伟侨 , 韩克利  and Yang, Bin. Constructing Sensitive and Fast Lead-Free Single-Crystalline Perovskite Photodetectors.  Journal of Physical Chemistry Letters,  9,  3087, 2018. 

85.  邓伟侨 , 韩克利  and Mao, Xin. First-Principles Screening of All-Inorganic Lead-Free ABX(3) Perovskites.  JOURNAL OF PHYSICAL CHEMISTRY C,  122,  7670, 2018. 

86.  邓伟侨 , 韩克利  and Yang, Bin. Lead-Free Direct Band Gap Double-Perovskite Nanocrystals with Bright Dual-Color Emission.  journal of the american chemical society,  140,  17001, 2018. 

87.  邓伟侨  and Lv, Qing. Selectively nitrogen-doped carbon materials as superior metal-free catalysts for oxygen reduction.  NATURE COMMUNICATIONS,  9,  2018. 

88.  韩克利 , 邓伟侨  and Yang, Bin. Lead-Free Silver-Bismuth Halide Double Perovskite Nanocrystals.  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,  57,  5359, 2018. 

89.  邓伟侨 , 韩克利  and Mao, Xin. First-Principles Screening of All-Inorganic Lead-Free ABX(3) Perovskites.  JOURNAL OF PHYSICAL CHEMISTRY C,  122,  7670, 2018. 

90.  邓伟侨  and Li, Yajuan. Conductive Microporous Covalent Triazine-Based Framework for High-Performance Electrochemical Capacitive Energy Storage.  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,  57,  7992, 2018. 

91.  邓伟侨 , 韩克利  and Cheng, Pengfei. Lead-Free, Two-Dimensional Mixed Germanium and Tin Perovskites.  Journal of Physical Chemistry Letters,  9,  2518, 2018. 

92.  邓伟侨 , 韩克利  and Yang, Bin. Constructing Sensitive and Fast Lead-Free Single-Crystalline Perovskite Photodetectors.  Journal of Physical Chemistry Letters,  9,  3087, 2018. 

专利
团队成员
团队名称:
理论机制与材料设计团队
团队介绍:
团队有齐鲁青年学者(第一层次)1人,副教授2人,副研究员3人,助理研究员2人,项目聘用3人,在培硕博研究生20人。团队成员有3人获得国家自然科学面上基金资助、4人获得国家自然科学青年基金资助、1人获得山东省海外优青基金资助、5人获得山东省自然科学基金资助、5人入选“山东大学青年学者未来计划”。
团队成员:
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