何 军 HEJUN 教授
导师类别:博士生导师、硕士生导师
职 务:轻工化工学院副院长
科研方向:高效制氢和CO2还原催化材料、质子传导材料、智能传感材料、电池材料
联系方式:junhe@gdut.edu.cn
教授,博士生导师,广东省杰出青年基金获得者,广东省百千万青年工程拔尖人才,广东省重大人才工程团队核心成员,首批广东省高等学校优秀青年教师,广东工业大学轻工化工学院副院长,化工材料学部学术分委员会副主任,“双带头人”党支部书记,国家基金、省基金等通讯评审专家,广东省科技咨询专家,广东工业大学培英育才计划第一层次人选,JACS, Angew等杂志长期审稿人,《广东工业大学学报》等期刊编委。主要围绕化工新材料和高端化学品的开发及其在高效制氢、CO2还原等能源催化及转换、环境保护等领域的应用开展研究。迄今为止在Nat.Commun., J.Am.Chem.Soc., Angew.Chem.Int.Ed., CCS Chem.等期刊上发表高水平SCI论文近150篇;申请美国专利1件和中国发明专利30余件,其中获得授权专利二十余件,已转让2件。先后主持国家自然科学基金(4项)、广东省自然科学基金重点项目、广东省杰出青年基金项目、对外合作项目、粤港合作项目、海外名师团队项目等省级以上课题15项;主持和参与企业委托的攻关项目10余项,部分成果已在企业产业化探索。
教育情况
2007-06至2010-07 香港城市大学 化学 博士学位
2003-09至2006-07 汕头大学 应用化学 硕士学位
1999-09至2003-07 汕头大学 应用化学 学士学位
工作情况
2011-06至今 广东工业大学轻工化工学院工作,副教授(2012年)、教授(2015年)
2010-07至2011-06 香港城市大学工作,博士后
2006-11至2007-05 香港城市大学工作,研究助理
近期代表性论文
1) Organic radicals stabilization above 300 °C in Eu-based coordination polymers for solar steam generation, X. Ye, L. Chung, K. Li, S. Zheng, Y. Wong, Z. Feng, Y. He, Z. Xu*, L. Yu, and Jun He*, Nature Communications, 2022, 13, 6116.
2) Calix[4]arene-Functionalized Titanium-Oxo Compounds for Perceiving Differences in Catalytic Reactivity Between Mono- and Multi-Metallic Sites, N. Li, J. Lin, R. Li, J. Shi, L. Dong, J. Liu, Jun He* and Y. Lan*, Journal of the American Chemical Society (JACS), 2023, 145, 16098.
3) Self-Charging Aqueous Zn//COF Battery with Ultra-high Self-Charging Efficiency and Rate, L. Zhong, C. Wang, Jun He,* Z. Lin, X. Yang, R. Li, S. Zhan, L. Zhao, D. Wu, H. Chen, Z. Tang, C. Zhi* et al,Advanced Materials, 2024, 2314050.
4) Easy but Efficient: Facile Approach Towards Molecule with Theoretically Justified Donor-acceptor Structure for Effective Photothermal Conversion and Intravenous Photothermal Therapy, Y. Zhong, G. Huang, S. Zhao, L. Chung, H. Zhang, W. Ni,* Jun He*, Advanced Science, 2024, 2309068.
5) Achieving High CO2 Photoreduction Activity by Conductive Crosslinks of Metal-Organic Framework. N. Li, G. Lai, L. Chung, F. Yu, Jun He* and Ya-Qian Lan*, CCS Chemistry, 2024, in press. doi.org/10.31635/ccschem.023.202303055.
6) Conductive MOFs based on Thiol-functionalized Linkers: Challenges, Opportunities, and Recent Advances, X. Deng, S. Zheng, Y. Zhong, J. Hu, L. Chung,* Jun He*, Coordination Chemistry Review, 2022, 450, 214235.
7) Metal-organic frameworks-based catalysts for lithium-sulfur batteries, X. Hu, T. Huang, G. Zhang, S. Lin, R. Chen, L. Chung, and Jun He*, Coordination Chemistry Review, 2023, 475, 214879.
8) Regulating the Electronic Configuration of Ni Sites by Breaking Symmetry of Ni-porphyrin to Facilitate CO2 Photocatalytic Reduction, Y. Zhong, Y. Wang, S. Zhao, Z. Xie, L. Chung, W. Liao, L. Yu, W. Wong,* Jun He*, Advanced Functional Materials, 2024, 2316199.
9) Efficient Lead Removal by Assembly of Bio-derived Ellagate Framework which Enables Electrocatalytic Reduction of CO2 to Formate, S. Chen, L. Chung, S. Chen, Z. Jiang, N. Li, J. Hu, H. Zhong, W. Liao and Jun He*, Small, 2024, in press.
10) A Minimalist Design for Solar Energy Conversion: Revamping the π-Grid of an Organic Framework into Open-shell Superabsorbers, Z. Lin, L. Zhong, X. Ye, Y. Zhong, L. Chung*, X. Hu, Z. Xu*, L. Yu and Jun He*, 2023, JACS Au, 2023, 3, 1711−1722.
11) Superprotonic Conductivity in Metal-Organic Framework by Charged Layer Mediated Proton Conduction, S. Zheng, C. Wu, L. Chung*, H. Zhou, J. Hu, Z. Liu, Y. Wu*, L. Yu, Jun He*, ACS Energy Letters, 2023, 8, 3095−3101. (IF: 23.991, Q1)
12) Nanoscaling and Heterojunction for Photocatalytic Hydrogen Evolution by Bimetallic Metal-Organic Frameworks, L. Tang, Q. Lin, Z. Jiang, J. Hu, Z. Liu, W. Liao, H. Zhou, L. Chung*, Z. Xu*, L. Yu, Jun He*, Advanced Functional Materials, 2023, 2214450.
13) Symbiotically Reinforced Bimetallic Photocatalysis in Conjugated Metal−Organic Framework Nanosheets, J. Li, Q. Lin, N. Li, Z. Li, G. Tan, S. Liu, L. Yu, W. Liao*, L. Yu and Jun He*, Advanced Functional Materials, 2023, 2210717.
14) Utilizing Metal-thiocatecholate Functionalized UiO-66 Framework for Photocatalytic Hydrogen Evolution Reaction, H. Zhong, S. Chen, Z. Jiang, J. Hu, J. Dong, L. Chung*, Q. Lin, W. Ou, L. Yu, Jun He*, Small, 2023, 2207266.
15) Low-Concentration Redox-Electrolytes for High-Rate and Long-Life Zinc Metal Batteries, S. Wang, H. Lv, X. Hu, Jun He*, C. Zhi, H. Li*, Small, 2023, 2207664.
16) Robust Zinc Anode Enabled by Sulfonate-rich MOF-modified Separator, R. Chen, G. Zhang, L. Chung, X. Hu* and Jun He*, Small, 2023, 2305687.
17) Dehydration-Triggered Afterglow Transition in a Mellitate-Based Coordination Polymer, S. Wang, Y. Shi, S. Chen, Z. Lin, Z. Jiang, W. Liao*, Jun He*, Chemistry of Materials, 2023, 35, 3015.
18) Water-stable halide coordination polymer with dual self-trapped exciton emission for dual-mode Hg2+ sensing, Y. Shi, X. Yang, H. He, W. Liao*, H. Zhou, L. Chung,L. Yu, Jun He*, Inorganic Chemistry Frontiers, 2023, 10, 4393. (Cover paper)
19) Single-Crystal Semiconductive Metal–Organic Nanotube Array Constructed by Secondary Interactions for High-Performance Gas Sensing, J. Hu, J. Xiao, W. Liao,* S. Liu, J. Li, Y. He, K. Zhou, Q. Li, G.Xu,* Jun He* Journal of Materials Chemistry A, 2023, 11, 11463.
20) MOF-Based Colorimetric Sensor for Rapid and Visual Readout of Trace Acetylene, J. Hu, S. Chen, Z. Liu, J. Li, J. Huang, Z. Jiang, W. Ou*, W. Liao, J. Lu and Jun He*, Journal of Materials Chemistry A, 2023, 11, 10577. (Cover Paper)
21) A Hydrophobic-superoleophilic 2D Zr-based Alkyne-rich Metal-Organic Framework for Oil/Water Separation and Solar-assisted Oil Evaporation, Q. Luo, Y. Zhong, L. Chung*, Z. Jiang, Q. Lin, X. Xu, X. Ye, W. Liao, Jun He*, Journal of Materials Chemistry A, 2023, 11, 22223.
22) Donor–Acceptor Conjugated Microporous Polymer towards Enhanced Redox Kinetics in Lithium–Sulfur Batteries, T. Huang, G. Zhang, R. Chen, S. Lin, H. Zhou, J. Li, L. Chung, X. Hu,* L. Yu, Jun He*, ACS Applied Materials & Interfaces, 2023, 15, 21075.
23) Removing Perfluoro Pollutants PFOA and PFOS by Two-Pronged Design of a Ni8-Pyrazolate Porous Framework, K. Li, J. Hu, Q. Gu, Jun He*, Y. Peng, Z. Xu*, ACS Applied Materials & Interfaces, 2023, 15, 3510.
24) Ferrocene-modified stable metal-organic framework for efficient CO2 photoreduction reaction, G. Lai, N. Li, Jun He* and Ya-Qian Lan*, Chemical Communications, 2023, 59, 12471–12474.
25) Ni(II)-Pyrazolate Framework Bearing Metalated Schiff-base Moiety for Electrocatalytic Hydrogen Evolution, Q. Luo, J. Hu, Z. Jiang, S. Chen, X. Ye, J. Li, L. Chung*, L. Yu and Jun He*, Inorganic Chemistry, 2023, 62, 13, 5229.
26) Substituent Make a Difference: 6,6’’-modified Terpyridine Complexes with Helix Configuration and Enhanced Emission, F. Fu, D. Liu, L. Zhao, H. Li, X. Bai, M. Chen, Z. Jiang, Y. Li, W. Liao, Jun He,* P. Wang*, 2023, Dalton Transactions, 2023, 52, 3033–3039.
27) Elucidating Phase Transformation of Eu-based Metal Organic Framework with Intermediate Isolation and Theoretical Calculation, Z. Liu, Y.Wu, Y. Zhong, L. Chung*, W. Liao, X. Yang, Jun He*, CrystEngComm, 2023, 25, 347 - 351. (invited cover)
28) UiO-66 Framework Equipped with Cadmium-Thiocatecholate as Photocatalyst Bearing Stable Active Sites and Intrinsic Photosensitizing Units for Hydrogen Evolution Reaction, G. Lai, Z. Jiang, H. Zhong, L. Chung*, N. Li, Jun He*, Chinese Journal of Structural Chemistry, 2023, 42, 100090.
29) Lithium Sulfonate-Rich MOF Modified Separator Enables High Performance Lithium–Sulfur Batteries, S. Lin, J. Dong, R. Chen, G. Zhang, T. Huang, J. Li, H. Zhou, L. Chung, X. Hu*, Jun He*, Journal of Alloys and Compounds, 2023, 965, 171385.
30) Porous Field-Effect Transistors Based on a Semiconductive Metal-Organic Framework”,G. Wu, J. Huang, Y. Zang, Jun He,* G. Xu* J. Am. Chem. Soc. 2017, 139, 1360−1363. cover paper, spotlights by JACS.
31) Convenient detection of Pd(II) by a metal-organic framework with sulfur and olefin functions, J. He; M. Zha; J. Cui; M. Zeller; A. D. Hunter; S. M. Yiu; S. T. Lee; Z. Xu, J. Am. Chem. Soc., 2013, 135, 7807-10.
32) White light emission and second harmonic generation from secondary group participation (SGP) in a coordination network, J. He; M. Zeller; A. D. Hunter; Z. Xu, J. Am. Chem. Soc., 2012, 134, 1553-1559. highlighted by Nature Chemistry.
本研究团队有充足的科研基金和良好的研发平台,与海内外优秀课题组有密切的科研合作。优秀学生可推荐到海外(包括香港、新加坡、澳大利亚等)优秀课题组工作、学习。
