高秋明 - 北京航空航天大学

个人简介

教育背景 1988.9-1992.7 吉林大学化学系大学本科 1992.9-1997.7 吉林大学化学系硕博连读研究生（导师徐如人院士）工作履历 1998-1999年，美国加州大学圣巴巴拉分校和法国国家科学研究中心拉瓦西研究所博士后（导师A. K. Cheetham教授） 1999-2001年，美国康涅迪格大学博士后（导师S. L. Suib教授） 2000年入选中国科学院“引进国外杰出人才-百人计划” 2001-2010年，中国科学院上海硅酸盐研究所研究员、博士生导师、课题组组长 2006年8月，日本东京大学JSPS访问学者 2010年至今，北京航空航天大学化学学院长聘教授、博士生导师

研究领域

多孔材料化学：能源与环境。针对新能源与空天环境领域对材料的高性能应用需求，主要开展：（1）先进化学电源材料与器件。面向先进化学电源如超级电容器、锂离子电池、锂硫电池、锂氧电池等应用的关键科学与技术，重点研究多孔基电极材料和催化材料的设计制备与绿色合成，开展具有高容量、高功率、高稳定性特征以及特种先进化学电源器件的组装。（2）空天环境催化和净化材料。面向有限空间和特殊环境安全保障关键科学与技术，重点研究具有催化、吸附、分离等高性能的多孔基功能材料。（3）多孔基功能材料制备方法及原理。开展多孔基单原子催化和纳米复合材料微纳结构的设计与精准合成，发展先进性能材料的环境协调及低成本的制备技术，探索结构与性能之间关系的基础理论

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Fanchao Zhang,Zihuan Tang,Tengfei Zhang,Hong Xiao,Huifeng Zhuang,Pinyu Han,Lei Jiang.Electronic Modulation and Symmetry-Breaking Engineering of Single-Atom Catalysts Driving Long-Cycling Li-S Battery.[期刊]:Angewandte Chemie International Edition,2024:e202418749 Huifeng Zhuang,Hong Xiao,Tengfei Zhang,Fanchao Zhang,Pinyu Han,Mengyuan Xu,Wenjing Dai,Lei Jiang.LiF-Rich Alloy-Doped SEI Enabling Ultra-Stable and High-Rate Li Metal Anode.[期刊]:Angewandte Chemie International Edition,2024,63:e202407315 Mengyuan Xu,Lilong Zhang,Xiao Liang,Hong Xiao,Huifeng Zhuang,Fanchao Zhang,Tengfei Zhang,Pinyu Han,Wenjing Dai,Fan Gao.Dual-Atom Fe(II,III)N2(µ2-N)2Cu(I,II)N Moieties Anchored on Porous N-Doped Carbon Driving High-Efficiency Oxygen Reduction Reaction.[期刊]:Applied Catalysis B: Environment and Energy,2024,349:123866 Huifeng Zhuang,Tengfei Zhang,Hong Xiao,Fanchao Zhang,Pinyu Han,Hongfei Gu.Free-Standing Cross-Linked Hollow Carbonaceous Nanovesicle Fibers with Atomically Dispersed CoN4 Electrocatalytic Centers Driving High-Performance Li-S Battery.[期刊]:Applied Catalysis B: Environmental,2024,340:123273 Tengfei Zhang,Dengfeng Luo,Hong Xiao,Xiao Liang,Fanchao Zhang,Huifeng Zhuang,Mengyuan Xu,Wenjing Dai.Non-Metallic-Bonding Fe-Mn Diatomic Pairs Anchored on Hollow Carbonaceous Nanodisks for High-Performance Li-S Battery.[期刊]:Small,2023:202306806 Hong Xiao,Kai Li,Tengfei Zhang,Xiao Liang,Fanchao Zhang,Huifeng Zhuang.High Loading Atomically Distributed Fe Asymmetrically Coordinated with Pyridinic and Pyrrolic N on Porous N-Rich Carbon Matrix Driving High Performance of Li-S Battery.[期刊]:Chemical Engineering Journal,2023,471:144553 Fanchao Zhang,Zihuan Tang,Tengfei Zhang,Hong Xiao,Huifeng Zhuang,Xiao Liang.Enhancing Sulfur Redox Conversion of Active Iron Sites by Modulation of Electronic Density for Advanced Lithium-Sulfur Battery.[期刊]:Small Methods,2023:202300519 Tengfei Zhang,Dengfeng Luo,Hong Xiao,Xiao Liang,Fanchao Zhang,Huifeng Zhuang.Atomically dispersed MnN2O2 electrochemical active centers on hollow carbonaceous support driving high performance of Li-S battery.[期刊]:Small,2023:2302249 Fanchao Zhang,Zihuan Tang,Lirong Zheng,Tengfei Zhang,Mengyuan Xu,Hong Xiao,Huifeng Zhuang,Pinyu Han.Edge-distributed iron single-atom moiety with efficient “trapping-conversion” for polysulfides driving high-performance of Li-S battery.[期刊]:Applied Catalysis B: Environmental,2023,334:122876 Xiao Liang,Hong Xiao,Tengfei Zhang,Fanchao Zhang.A unique nanocomposite with FeCo nanoalloy anchored on S, N co-doped carbonaceous matrix for high bifunctional oxygen reduction reaction/oxygen evolution reaction electrocatalytic property in Zn-air battery.[期刊]:Journal of Colloid and Interface Science,2023,630:170-181 Huifeng Zhuang,Tengfei Zhang,Hong Xiao,Xiao Liang,Fanchao Zhang.3D Free-Standing Carbon Nanofibers Modified by Lithiophilic Metals Enabling Dendrite-Free Anodes for Li Metal Batteries.[期刊]:Energy & Envrionmental Materials,2023,6:e12470 Fanchao Zhang,Zihuan Tang,Tengfei Zhang,Hong Xiao,Huifeng Zhuang,Xiao Liang.Atomically distributed asymmetrical five-coordinated Co-N5 moieties on N-rich doped C enabling enhanced redox kinetics for advanced Li-S batteries.[期刊]:Journal of Materials Chemistry A,2022,10:22114–22124 Tengfei Zhang,Hong Xiao,Xiao Liang,Fanchao Zhang,Huifeng Zhuang.Dual-Atom Nickel Moieties of Ni(II)2N4(µ2-N)2 Anchored on Alfalfa-Derived Developed Porous N-Doped Carbon for High-Performance Li–S Battery.[期刊]:Small,2022,18:2201996 Xiao Liang,Fu-Kuo Chiang,Lirong Zheng,Hong Xiao,Tengfei Zhang,Fanchao Zhang.High-content atomically distributed W(V,VI) on FeCo layered double hydroxide with high oxygen evolution reaction activity.[期刊]:Chemical Communications,2022,58:7678-7681 Hong Xiao,Tengfei Zhang,Xiao Liang.A Porous rGO with High Specific Surface Area and High Content of Doped-N Modifying the Separator for High Performance Li-S Battery.[期刊]:Electrochimica Acta,2021,391:138910 Xiao Liang,Zeyu Li,Hong Xiao,Tengfei Zhang,Peng Xu,Hang Zhang,Lirong Zheng*.Two types of single-atom FeN4 and FeN5 electrocatalytic active centers on the N-doped carbon driving high performance of the SA-Fe-NC oxygen reduction reaction catalyst.[期刊]:Chemistry of Materials,2021,33(14):5542-5554 Peng Xu,Hong Xiao,Xiao Liang,Tengfei Zhang,Fanchao Zhang,Chenhao Liu,Beibei Lang.A MXene-based EDA-Ti3C2Tx intercalation compound with expanded interlayer spacing as high performance supercapacitor electrode material.[期刊]:Carbon,2021,173:135-144 Weiqian Tian,Armin VahidMohammadi,Jie Dang,Zeyu Li,Xiao Liang,Mahiar M. Hamedi,Liming Zhang*.Liquid-Phase Exfoliation of Layered Biochars into Multifunctional Heteroatom (Fe, N, S) Co-Doped Graphene-like Carbon Nanosheets.[期刊]:Chemical Engineering Journal,2021,420:127601 Hang Zhang,Zeyu Li,Peng Xu,Hong Xiao,Tengfei Zhang,Xiao Liang.A rGO-Based Fe2O3 and Mn3O4 binary crystals nanocomposite additive for high performance Li-S battery.[期刊]:Electrochim. Acta,2020,343:136079 Zeyu Li,Xiao Liang,Hang Zhang,Hong Xiao,Peng Xu,Tengfei Zhang.Fe, N co-doped carbonaceous hollow sphere with self-grown carbon nanotubes as a high performance binary electrocatalyst.[期刊]:Carbon,2019,154:466-477 Hang Zhang,Xuehui Tian,Zeyu Li,Peng Xu,Hong Xiao.Nanosized Fe7S8 with High Surface Area as Polysulfide Capturer Combined with Graphene for Li-S Battery Cathode.[期刊]:Electrochim. Acta,2019,319:472-480 Qiang Zhang,Weiwei Qian,Hang Zhang,Weiqian Tian,Zeyu Li.A C-coated and Sb-doped SnO2 nanocompsite with high surface area and low charge transfer resistance as ultrahigh capacity lithium ion battery anode.[期刊]:Materials Today Energy,2019,13:93-99 Weiwei Qian*,Hang Zhang,Hong Xiao,Lan Zhang,Shimou Chen.2D Meso/Microporous Platelet Carbon Derived from Metal-Organic frameworks and Its Application in High-Performance Li-S Batteries.[期刊]:ChemElectroChem,2019,6:3091-3100 Zeyu Li,Xiao Liang,Hang Zhang,Hong Xiao,Peng Xu.Low content of Fe3C anchored on Fe,N,S-codoped graphene-like carbon as bifunctional electrocatalyst for oxygen reduction and oxygen evolution reactions.[期刊]:Carbon,2019,150:93-100 Peng Xu,Li Ma,Zeyu Li,Hang Zhang,Hong Xiao,Xiao Liang,Tengfei Zhang,Xuehui Tian,Chenhao Liu.A high surface area N-doped holey graphene aerogel with low charge transfer resistance as high performance electrode of non-flammable thermostable supercapacitor.[期刊]:Carbon,2019,149:452-461 Li Ma,Weiqian Tian,Qiang Zhang,Hong Xiao,Zeyu Li,Hang Zhang,Xuehui Tian.Large size reduced graphene oxide with low charge transfer resistance as high performance electrode of fire safety high temperature stable ionic liquid based supercapacitor.[期刊]:ChemSusChem,2018,11:4026-4032. (Cover image highlight) Xuehui Tian,Hang Zhang,Zeyu Li,Hong Xiao,Qiang Zhang,Li Ma.Uniform small-sized MoS2 from novel solution based microwave-assisted method with exceptional reversible lithium storage properties.[期刊]:Nanoscale,2018,10:15222-15228 Hang Zhang,Weiwei Qian,Hong Xiao,Zeyu Li,Li Ma,Xuehui Tian.Binary Hierarchical Porous Graphene/Pyrolytic Carbon Nanocomposite Matrix Loaded with Sulfur as High Performance Li-S Battery Cathode.[期刊]:ACS Appl. Mater. Interfaces,2018,10:18726-18733 Qiang Zhang,Weiwei Qian,Hang Zhang,Zeyu Li,Yanli Tan,Weiqian Tian.Porous A-SnO2/rGO Nanocomposite via Annealing Treatment with Stable High Capacity as Anode of Lithium Ion Battery.[期刊]:ChemistrySelect,2018,3(16):4303-4309 Zeyu Li.Ultrahigh Oxygen Reduction Reaction Electrocatalytic Activity and Stability over Hierarchical Nanoporous N-doped Carbon.[期刊]:Sci. Rep.,2018,8:2863