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李忠芳

发布人:王永振 发布时间:2023-11-07

化学化工学院教师个人简历


姓名

李忠芳

出生年月

1962.11

政治面貌

中共党员


民族

职称

教授

学历

博士研究生

学位

博士

联系方式

Li2786290(微信)

电子邮箱

Zhfli@sdut.edu.cn

主要学习(工作)经历

20038月毕业于天津大学化工学院化学工程专业,获工学博士学位。

19917月毕业于东北师范大学化学系有机化学专业,获理学硕士学位。

19857月毕业于山东师范大学化学系,获理学学士学位。

20139-12月澳大利亚科廷大学先进能源研究院访问学者。

200110月山东理工大学化学工程学院教授,

2004年聘为硕士研究生导师;2014年聘为博士研究生导师。

19967-20009月,山东工程学院化工系副教授

19857-19967月,临沂大学化学系讲师

主要研究方向

  1. 能源转换与储存的电化学器件及关键材料开发;

  2. 聚合物膜燃料电池、金属空气电池发电技术及关键材料;

  3. 催化剂制备及催化工程;

  4. 膜科学与技术;功能高分子材料;

  5. 新型锂离子电池阻燃电解液的开发研究;

  6. 反应型聚氨酯阻燃剂的制备及应用

  7. 精细与专用化学品。

主讲课程

主讲本科生课程:《有机化学》,《精细化学品化学》,《配位化学》,《学科导论》,《有机化学实验》,《化学化工学科前沿讲座》

主讲研究生课程:《能源电化学》,《化学化工进展》,《有机分析》,《有机分析实验》,《新材料及其应用》,

主讲博士生课程:《现代化学电源》,《化学化工进展》

荣誉奖励

2021年 获得山东省优秀研究生指导教师称号

2020年 指导的博士研究生张廷尉博士获得山东省优秀博士毕业论文

2021年 指导的硕士研究生王晨获得山东省优秀硕士毕业论文

2022年 指导的硕士研究生王燕获得山东省优秀硕士毕业论文

学术兼职

2010年至今被聘为中国硅酸盐学会固态离子学理事会理事。

2012年至今被聘为中国有机电化学与工业行业联合会理事会常务理事。

2013年至今被聘为中国电子学会物理与化学电源专业委员会委员。

2014年至今被聘为中国化工学会储能工程专业委员会委员。

2017至今被聘为中国仪表及功能材料学会储能与动力电池专委会委员。

2017至今被聘为中国化工学会化工新材料委员会委员。

2018至今被聘为中国电工技术学会电池专业委员会委员。

2018至今被聘为《电源技术》杂志编委。多次被评为优秀审稿人。

2012年至2022年被聘为中国化学会电化学专业委员会委员。

2018.7-2023.7校 “双百人才过程”第二层次人选。

获奖情况

  1. 李忠芳,王素文,于先进,于如军,王捷,姚福生。模拟酶催化剂的制备技术及控制氧化应用开发,山东省技术发明三等奖,2011年。FM2011-3-2-1

  2. 李忠芳20126月,获得山东省知识产权局和山东发明协会联合举办的第七届山东省“发明创业奖”二等奖。

  3. 李忠芳,傅芳信,有机锡席夫碱配合物的合成结构与性质研究。2000年获得山东省教育厅科技进步三等奖。

  4. 李忠芳,王素文,傅芳信,酯交换法合成有机锡化合物。2001年获得山东省高校科技进步三等奖。

  5. 李忠芳,王素文,王宇新,有机锡配合物的分解反应及其产物结构。2003年山东省高校科技进步三等奖。

  6. 李忠芳,姚福生,王素文,于如军等。卟啉类、Schiff碱类配合物的合成及其在燃料电池中的催化性能研究。2006年获得山东省高校科技进步三等奖。

科研项目

  1. 主持,国家自然科学基金课题,基于电子质子协同导电的氧还原催化剂构筑的新型有序膜电极结构调控及强化传质理论研究(批号:2217209360万元,2022.1-2025.12

  2. 主持完成,国家自然科学基金课题,新型自增湿型高温低湿度质子交换膜结构调控及传质特性理论研究(批号:2177616764万元,2018.12021.12

  3. 主持完成,国家自然科学基金课题,强化传质型非贵金属氧还原催化剂纳米通道构筑及催化协同效应理论研究(批号:2127614880万元,2013.12016.12. 201612月结题。

  4. 主持完成,国家自然科学基金课题,聚苯并咪唑类高温快质子导体膜制备及电导率提升机制研究(批号:2107611936万元,2011.12013.12201312月结题。

  5. 主持完成,国家自然科学基金课题,平面聚合含氮大环配合物燃料电池催化剂的制备研究(批号:20776081),30万元,2008.12010.12201212月结题。

  6. 主持完成,淄博市校-城融合项目,锂电池用新型阻燃电解质的研制(批号:2019ZBXC411),30万元,201910月至202110月。

  7. 主持完成,化学工程国家重点实验室(天津大学)基金,金属空气电池强化传质型阴极催化剂的制备研究(批号:SKL-ChE-14B0115万元,2014.12016.12201612月结题。

  8. 主持完成,山东省自然科学基金课题,聚苯并咪唑类低湿度下高导电率的高温质子交换膜制备研究(批号:ZR2010BM004,7万元,2011.12013.12201212月结题。

  9. 主持完成,山东省自然科学基金“中温直接甲醇燃料电池用无机-有机复合质子交换膜的制备研究”(Y2006B37)(经费6万元),20071月~2009.12200912月结题。

  10. 主持完成,山东省科技攻关计划课题。“弱碱性直接醇类燃料电池发电技术研究”(2004GG2207089)(经费20万元),2005.12007.12200712月结题。

  11. 主持完成,山东省科技攻关计划课题“直接甲醇燃料电池发电技术”(021130105).该课题2004年获得山东省科技厅滚动资助,2005年获得省长基金资助。(合计经费140万元),20031月~2007.12200712月结题。


论著专利

专著

2021年出版的专著

  1. Chen Wang, Zhongfang Li*, Likai Wang, Xueliang Niu, Shenzhi Zhang, Yuepeng Liu. 3D GBM-supported transition-metal oxide nanocatalysts and heteroatom doped 3D graphene electrocatalysts for potential application in fuel cells. RSC, 2021, 4,20: 139-178.  Chemistry in the Environment Series No.1. Graphene-based 3D Macrostructures for Clean Energy and Environmental Applications. Edited by Rajasekhar Balasubramanian and Shamik Chowdhury. ©The Royal Society of Chemistry 2021. ISBN:978-1-83916-001-1

2023年出版的专著

  1. Liu, Yuepeng; Li, Zhongfang*; Zhang, Lei; Sun, Peng; Wang, Shuaifeng; Ji, Changhui; Duan, Wenjie; Wang, Likai; Niu, Xueliang. The role of electrocatalysts in the performance and efficiency of metal-air batteries. Noble Metal-Free Electrocatalysts for Energy Applications: Fundamentals and Recent Advancement in Electrocatalysts, Vol 1.Chapter 5 ACS Book. 2022, 95-127. December 9, 2022; Copyright © 2022 American Chemical Society; ISBN13: 9780841297371; eISBN: 9780841297364; DOI: 10.1021/bk-2022-1431

  2. Peng Sun, Lei Zhang, Hongsen Hui, Zhongfang Li*.Metal Phosphates/Phosphonates for Membranes.2023, 171-191. https://doi.org/10.1007/978-3-031-27062-8_10. Springer Nature Book. (Switzerland AG 2023) R. K. Gupta (ed.), Metal Phosphates and Phosphonates, Engineering Materials, ISBN 978-3-031-27061-1, ISBN 978-3-031-27062-8 (eBook)


发表的论文:

2023年发表的论文

  1. Shuaifeng Wang, Zhongfang Li*, Wenjie Duan, Peng Sun, Jigang Wang, Qiang Liu, Lei Zhang, Yanqiong Zhuang.Conjugated polymerized bimetallic phthalocyanine based electrocatalyst with Fe-N4/Co-N4 dual-sites synergistic effect for zinc-air battery. J Energy Chemistry, 2023: doi: https://doi.org/10.1016/j.jechem.2023.07.009中科院一区,IF=13.1

  2. Ping Li, Hui Guo, Peng Sun, Lei Zhang, Xulei Zhi, Zhongfang Li*. N-substitute polyphosphazenes cross-linked hydroxyl-terminated SPEEK high temperature proton exchange membrane to achieve high proton conductivity over low relative humidity. Journal of Membrane Science, 2023666: 121159. 中科院一区IF=9.5

  3. Hui Ding, Peng Sun*, Yan Wang, Zihan Xia, Ping Li, Chengzhi Cui, Mingyu Li, Zhongfang Li*. Efficient and stable proton conduction achieved by accommodation of the membranewide cross-linking and branching strategies. Journal of Membrane Science, 2023, 685: 121911.中科院一区,IF=9.5

  4. Ping Li, Hui Guo, Peng Sun, Xulei Zhi, Zhongfang Li*. Proton transfer efficiency enhanced over wide relative humidity: Etidronic acid-modified polyphosphazenes cross-linked polybenzimidazoles membranes. Journal of Membrane Science, 2023, 685: 121973.中科院一区,IF=9.5

  5. Shuaifeng Wang, Peng Sun, Na Li, Jigang Wang, Lei Zhang, Wenjie Duan, Zhongfang Li*. The catalytic performance enhanced via π-electron cloud interaction of polymerized cobalt phthalocyanine/3D-graphene as bifunctional oxygen catalysts for Zn-air battery. J Power Sources, 2023, 556: 232471. 中科院二区,IF=9.2

  6. Changhui Ji, Tingwei Zhang, Peng Sun, Ping Li, Jigang Wang, Lei Zhang, Yinggang Sun, Wenjie Duan, Zhongfang Li*. Facile preparation and properties of high nitrogen-containing Fe/Co/N co-doped three-dimensional graphene bifunctional oxygen catalysts for zinc air battery. Int J Hydrogen Energy, 2023,48: 26328-26340. 中科院二区,IF=7.139

  7. Jinjie Zhang, Yingjie Zhang, Chengxiao Xu, Yuzheng Li, Guoxu Ni, Peipei Huo*,V. Balasubramani, Zhongfang Li*, Bo Liu*. Metal-organic-framework-derived bimetallic carbon-based catalysts as efficient oxygen reduction reaction electrocatalysts. Journal of Alloys and Compounds, 2023, 948: 169721中科院二区,IF=6.2

  8. Yuepeng Liu, Wenjie Duan, Hongchang Pei, Peng Sun, Yinggang Sun, Yanqiong Zhuang, and Zhongfang Li*. Multi-level Porous Fe, Co, N, S Co-doped Three-Dimensional Graphene-like Catalyst as the Excellent Trifunctional Electrocatalyst for Liquid and Flexible All-Solid-State Zinc−Air Batteries. ACS Appl. Energy Mater. 2023, 6, 13, 7194–7204. 中科院三区,IF=6.3

2022发表的论文

  1. Zihan Xia, Hui Ding, Yan WangPeng Sun*,  Zhongfang Li*Hui GuoHongsen HuiLei Zhang. Metal tri-phosphonates containing aliphatic tertiary amines for medium-temperature proton conduction. International Journal of Hydrogen Energy, 2022, 47: 27590-27597.

https://www.editorialmanager.com/apcatb/l.asp?i=1058127&l=8X0SCPU520220628 online IF=7.139

  1. Hui Guo, Xulei Zhi, Zhongfang Li*, Lei Zhang, Peng Sun, Hongchang Pei. Effective proton transport and anti-free radical oxidation: Construction of interpenetrating network via co-crosslinking polybenzimidazole with proton conductors. Materials Today Chemistry, 2022, 26: 101009.

https://doi.org/10.1016/j.mtchem.2022.101009 IF=7.613

  1. Ping Li, Hui Guo, Yanan Lv, Lei Zhang, Peng Sun, and Zhongfang Li*.Bifunctional Acid Proton Conductor Doping to Improve the Comprehensive Properties of a Cross-Linked Polybenzimidazole High-Temperature Proton Exchange Membrane. ACS Applied Energy Materials, 2022, 5, 4, 4956–4969. https://doi.org/ 10.1021/acsaem.2c00333. IF=6.959

  2. Yuepeng Liu,, Jiehua Bao, Zhongfang Li* , Lei Zhang, Shenzhi Zhang, Likai Wang, Xueliang Niu, Peng Sun, Liping Xu. Large-scale defect-rich iron/nitrogen co-doped graphene-based materials as the excellent bifunctional electrocatalyst for liquid and flexible all-solid-state zinc-air batteries. Journal of Colloid And Interface Science. 2022, 607: 1201–1214,  https://doi.org/10.1016/j.jcis.2021.09.070IF=8.128

  3. Peng Sun, Zihan Xia, Zhongfang Li*, Ziwei Fan, Fengqi He, Qiang Liu, Xiaoyan Yin. Polybenzimidazole dendrimer containing triazine rings based high temperature proton exchange membranes with high performances over wide humidity range. Materials Today Chemistry, 2022, 23: 100653  IF=8.301 https://doi.org/10.1016/j.mtchem.2021.100653

  4. Hui Guo, Zhongfang Li*, Hongchang Pei, Peng Sun, Lei Zhang, Ping Li, Xiaoyan Yin. Stable branched polybenzimidazole high temperature proton exchange membrane: Crosslinking and pentaphosphonic-acid doping lower fuel permeability and enhanced proton transport. J Membr Sci, 2022,644: 120092. https://doi.org/10.1016/j.memsci. 2021.120092

2021发表的论文

  1. Chen Wang, Yuepeng Liu, Zhongfang Li*, Likai Wang, Xueliang Niu, Peng Sun. Novel Space-Confinement Synthesis of Two-Dimensional Fe, N-Codoped Graphene Bifunctional Oxygen Electrocatalyst for Rechargeable Air-cathode. Chemical Engineering Journal., 2021, 411(1): 128492. https://doi.org/10.1016/j.cej.2021.128492  IF(2020)13.273.

  2. Yan Wang, Peng Sun*, Zhongfang Li*, Hui Guo, Hongchang Pei, Xiaoyan Yin. Construction of Novel Proton Transport Channels by Triphosphonic Acid Proton Conductor Doped Cross-linked mPBI Based High Temperature and Low Humidity Proton Exchange Membranes. ACS Sustainable Chemistry & Engineering. 2021, 9(7): 2861-2871.

http://dx.doi.org/10.1021/acssuschemeng.0c08799

  1. Yuepeng Liu, Zhongfang Li*, Chongyun Sun, Shuaifeng Wang, Likai Wang, Xueliang Niu, Peng Sun, Shenzhi Zhang. Closely packed planar polyphthalocyanine iron/hierarchical three-dimensional graphene as a bifunctional oxygen electrocatalyst for zinc-air battery. Sustainable Energy & Fuels, 2021, 5, 5216–5226.  DOI: 10.1039/D1SE00844G

  2. Hui Guo, Zhongfang Li*,Yanan Lv, Hongchang Pei, Peng Sun, Lei Zhang, Weihui Cui, Xiaoyan Yin, Hongsen Hui. Multiple crosslinking forms a monolithic macromolecule membrane: a method to enhance stability and durability of high-temperature polybenzimidazole based proton exchange membranes. ACS Applied Energy Materials, 2021,4,9:8969: https://doi.org/10.1021/acsaem.1c01233

  3. Yuepeng Liu, Zhongfang Li*, Likai Wang, Lei Zhang, Xueliang Niu. Tunable Fe/N co-doped 3D porous graphene with high density Fe-Nx sites as the efficient bifunctional oxygen electrocatalyst for Zn-air batteries. International Journal of Hydrogen Energy,202146: 36811-36823.

  4. Hui Guo, Zhongfang Li*, Peng Sun, Hongchang Pei, Lei Zhang, Weihui Cui, Xiaoyan Yin, Hongsen Hui. How to Enhance the Proton Conductivity and Durability of Crosslinked PBI-based High-Temperature PEM: Effective Doping a Novel Cerium Triphosphonic-isocyanurate. Journal of The Electrochemical Society. 2021, 168 024510https://doi.org/10.1149/1945-7111/abe290.

  5. Chuangang Wang, Weihui Cui, Peng Sun, Zhongfang Li*, Yan Wang, Hongchang Pei Xiaoyan Yin.Preparation and characterization of zirconium (1,3,5,2λ5,4λ5,6λ5-triazatri- phosphinine-2,2,4,4,6,6-hexyl) hexa(phosphate) as a novel high temperature proton conductor. Ionics, 2021, 27(3):1193–1203.DOI: 10.1007/s11581-020-03855-4.

  6. Yan Wang, Peng Sun*, Zhongfang Li*, Hui Guo, Hongchang Pei, Xiaoyan Yin. High performance polymer electrolyte membrane with efficient proton pathway over a wide humidity range and effective cross-linking network. Reactive and Functional Polymers. 2021,161:104854. https://doi.org/10.1016/j.reactfunctpolym.2021.104854

2020发表的论文

  1. Peng Sun, Yan Wang, Zhongfang Li * , Chuangang Wang, Hongchang Pei, Xiaoyan Yin. Organic-inorganic backbone with high contents of proton conducting groups: A newly designed high performance proton conductor. International Journal of Hydrogen Energy, 2020, 45: 14407-14412. 2020,4,16:https://doi.org/ 10.1016/ j.ijhydene. 2020.03.148; IF 4.939

  2. Shenzhi Zhang, Likai Wang*, Liping Fang, Yali Tian, Yi Tang, Xueliang Niu, Yuepeng Hao, Zhongfang Li*. A Facile Method to Prepare Ultrafine Pd Nanoparticles Embedded into N-Doped Porous Carbon Nanosheets as Highly Efficient Electrocatalysts for Oxygen Reduction Reaction. J Electrochem Soc, 2020,167: 054508  DOI: 10.1149/19457111/ ab679f  (WOS:000519796900001)

  3. Chuangang Wang, Zhongfang Li, Peng Sun, Hongchang Pei, and Xiaoyan Yin. Preparation and Properties of Covalently Crosslinked Polybenzimidazole High Temperature Proton Exchange Membranes Doped with High Sulfonated Polyphosphazene. Journal of The Electrochemical Society, 2020,167: 104517.https://doi.org/10.1149/1945-7111/ab9d60   IF, 3.721

  4. Peng Sun, Yan Wang, Zhongfang Li*, Hui Guo, Xiaoyan Yin, Hongchang Pei. A flexible organic-inorganic hybrid for medium temperature proton conduction over a wide humidity range. J Mater Sci, 2020,55(27): 13075-13084.   DOI: 10.1007/s10853-020-04984-x

  5. Chongyun Sun, Zhongfang Li*, Jianwei Yang, Suwen Wang, Xizhan Zhong, Likai Wang. Two-dimensional closely packed amide polyphthalocyanine iron absorbed on Vulcan XC-72 as an efficient electrocatalyst for oxygen reduction reaction. Catalysis Today, 2020, 353: 279–286 2018,10.1016/j.cattod. 2018.01.029

  6. Tingwei Zhang, Zhongfang Li*, Likai Wang, Shenzhi Zhang, Yuepeng Liu, Xueliang Niu. Highly exposed active sites of Fe/N co-doped defect-rich graphene as an efficient electrocatalyst for oxygen reduction reaction. Chemistry — An Asian Journal, 2020, 15: 3527-3534.  DOI:10.1002/asia.202000903. IF=4.056.

  7. Tingwei Zhang, Zhongfang Li*, Peng Sun, Likai Wang, Xueliang Niu, Suwen Wang. α-MnO2 Nanorods Supported on Three Dimensional Graphene as High Activity and Durability Cathode Electrocatalysts for Magnesium-air Fuel Cells. Catalysis Today, 2020, 355: 304-310. https://doi.org/10.1016/j.cattod.2019.04.055,IF=5.825

  8. Weihui Cui†, Yanan Lv†, Peng Sun†, Zhongfang Li*, Hongchang Pei, Xiaoyan Yin. SPEEK/CMABPBI ionic and self-covalent crosslinked composite membrane: A method to comprehensively enhance the properties of high temperature proton exchange membranes. ACS Applied Energy Materials, 2020, 3: 12115-12126: ACS Appl. Energy Mater. 2020, 3, 12115-12126. https://dx.doi.org/10.1021/acsaem.0c02224;

  9. 刘岳鹏,张廷尉,李忠芳,张志旭。尖晶石类燃料电池阴极催化剂性能提升策略。电源技术,2020,4411):1563-1568

2019发表的论文

  1. Tingwei Zhang, Zhongfang Li*, Likai Wang, Zhixu Zhang, Suwen Wang. Spinel CoFe2O4 supported by three dimensional graphene as high-performance bi-functional electrocatalysts for oxygen reduction and evolution reaction. Int J Hydrogen Energy, 2019,44: 1610-1619. https://10.1061jihydene.2018.11.120

  2. Yanan Lv, Zhongfang Li*, Mingfeng Song, Peng Sun, Xiaoyan Yin, Suwen   Wang. Preparation and properties of ZrPA doped CMPSU cross-linked PBI based high temperature and low humidity proton exchange membranes. Reactive and Functional Polymers. 2019, 137:57-70. https://doi.org/DOI: 10.1016/j.reactfunctpolym. 2019.01.014

  3. Chen Wang, Zhongfang Li*, Likai Wang, Xuewei Lu, Suwen Wang, Xueliang Niu. Vertical-space-limit synthesis of bi-functional Fe, N codoped two-dimensional multilayers graphene for Zn-air battery. Energy Technology, 2019, 7(6), 1900123.IF 3.175

  4. Chen Wang, Zhongfang Li*, Likai Wang, Xueliang Niu, Suwen Wang. Facile synthesis of 3D Fe/N codoped mesoporous graphene as efficient bi-functional oxygen electrocatalysts for rechargeable Zn-air batteries.ACS Sustainable Chemistry & Engineering, 2019, 7, 13873−13885.IF=7.632https://doi.org/10.1021/acssuschemeng.9b02052

  5. Tingwei Zhang, Zhongfang Li*, Likai Wang, Peng Sun, Zhixu Zhang, Suwen Wang. Spinel MnCo2O4 Nanoparticles Supported on Three-Dimensional Graphene with Enhanced Mass Transfer as an Efficient Electrocatalyst for Oxygen Reduction Reaction. ChemSusChem, 2018, 2018, 11: 2730-2736.

  6. Chen Wang, Zhongfang Li*, Likai Wang, Xueliang Niu, Suwen Wang. Facile synthesis of 3D Fe/N codoped mesoporous graphene as efficient bi-functional oxygen electrocatalysts for rechargeable Zn-air batteries.ACS Sustainable Chemistry & Engineering, 2019, 7, 13873−13885.

  7. Tingwei Zhang, Zhongfang Li*, Zhixu Zhang, Likai Wang, Peng Sun, and Suwen Wang. Design of Three Dimensional Interconnected Hierarchical MicroMesoporous Structure of Graphene as Support Material for Spinel NiCo2O4 Electrocatalyst toward Oxygen Reduction Reaction. J. Phys. Chem. C, 2018, 122, 27469−27476.

  8. Tingwei Zhang, Zhongfang Li*, Likai Wang, Zhixu Zhang, Suwen Wang. Spinel CoFe2O4 supported by three dimensional graphene as high-performance bi-functional electrocatalysts for oxygen reduction and evolution reaction. Int J Hydrogen Energy, 2019,44: 1610-1619..

  9. Yanan Lv, Zhongfang Li*, Mingfeng Song, Peng Sun, Xiaoyan Yin, Suwen   Wang. Preparation and properties of ZrPA doped CMPSU cross-linked PBI based high temperature and low humidity proton exchange membranes. Reactive and Functional Polymers. 2019, 137:57-70.

  10. Suwen Wang, Peng Sun*, Xuejing Hao, Zhongfang Li*, Guohong Liu, Lei Jin, Xiaoyan Yin. Ferric sulfophenyl phosphate bonded with phosphotungstic acid as a novel intercalated high-temperature inorganic-organic proton conductor. Materials Chemistry and Physics, 2018, 213: 35-43.

  11. Suwen Wang, Peng Sun*, Zhongfang Li*, Guohong Liu, Xiaoyan Yin. Comprehensive performance enhancement of polybenzimidazole based high temperature proton exchange membranes by doping with a novel intercalated proton conductor. Int J Hydrogen Energy, 2018, 43(21): 9994-10003.

  12. Peng Sun, Zhongfang Li*, Suwen Wang, Xiaoyan Yin. Performance enhancement of polybenzimidazole based high temperature proton exchange membranes with multifunctional crosslinker and highly sulfonated polyaniline. J Membr Sci, 2018, 549: 660–669.

  13. Chongyun Sun, Zhongfang Li*, Xizhan Zhong, Suwen Wang, Xiaoyan Yin, Likai Wang.Three-dimensional graphene-supported cobalt phthalocyanine as advanced electrocatalysts for oxygen reduction reaction. J Electrochem Soc, 2018, 165(2), F24-F31.

  14. Chongyun Sun, Zhongfang Li*, Jianwei Yang, Suwen Wang, Xizhan Zhong, Likai Wang. Two-dimensional closely packed amide polyphthalocyanine iron absorbed on Vulcan XC-72 as an efficient electrocatalyst for oxygen reduction reaction. Catalysis Today, 2018,10.1016/j.cattod. 2018.01.029

  15. Zhixu Zhang, Zhongfang Li*, Chongyun Sun, Tingwei Zhang, Suwen Wang. Preparation and properties of an amorphous MnO2/CNTs-OH catalyst with high dispersion and durability for magnesium-air fuel cells. Catalysis Today2017, 298: 241-249.

  16. Peng Sun, Zhongfang Li*,Feilong Dong, Suwen Wang, Xiaoyan Yin, Yuxin Wang. High temperature proton exchange membranes based on cerium sulfophenyl phosphate doped polybenzimidazole by end-group protection and hot-pressing method. Int J Hydrogen Energy, 2017,42(1): 486-495.

  17. Peng Sun, Zhongfang Li*, Mingfeng Song, Suwen Wang, Xiaoyan Yin, Yuxin Wang. Preparation and characterization of zirconium phytate as a novel solid intermediate temperature proton conductor. Materials Letters, 2017, 191: 161-164.

  18. Peng Sun, Zhongfang Li*, Lei Jin, Suwen Wang, Xiaoyan Yin. Construction of proton channels and reinforcement of physicochemical properties of oPBI/FeSPP/GF high temperature PEM via building hydrogen bonding network.Int J Hydrogen Energy, 2017, 42: 14572-14582.

  19. Xuewei Lu, Zhongfang Li*, Xiaoyan Yin, Suwen Wang,Yurong Liu, Yuxin Wang*. Controllable synthesis of three-dimensional nitrogen-doped graphene as a high performance electrocatalyst for oxygen reduction reaction. Int J Hydrogen Energy, 2017, 42: 17504-17513.

  20. Peng Sun, Zhongfang Li*, Lei Jin, Yangong Yang, Suwen Wang, Xiaoyan Yin, Yuxin Wang. Pre-oxidized acrylicfiber reinforced ferric sulfophenyl phosphate doped polybenzimidazole based high temperature proton exchange membrane. Macromol Mater Eng, 2017, 302(7) 1600468.

  21. Jinlong Wang, Ludan Yue, Zunfu Hu, Zhichao Dai, Yafei Qi, Xiuwen Zheng*, Zhongfang Li*, and Dexin Yu*. Multifunctional FePt-Au Heterodimers: a Promising Nanotheranostic Agent for Cancer Dual-modality MR/CT Imaging Diagnosis and Simultaneously in-situ Therapy. RSC Adv, 2016, 6: 107331- 107336.

  22. Mingfeng Song, Zhongfang Li*, Guohong Liu, Suwen Wang, Xiaoyan Yin,Yuxin Wang. A new high-temperature inorganic–organic proton conductor: lanthanum sulfophenyl phosphate. Chemical Papers, 2016, 70 (3): 343–349.

  23. Mingfeng Song, Xuewei Lu, Zhongfang Li*, Guohong Liu, Xiaoyan Yin, Yuxin Wang, Compatible ionic crosslinking composite membranes based on SPEEK and PBI for high temperature proton exchange membranes, Int J Hydrogen Energy,2016, 41: 12069-12081.

  24. Zhongfang Li*, Jianwei Yang, Guofeng Xu, Suwen Wang. Non-precious cathode electrocatalyst for magnesium air fuel cells: activity and durability of iron- polyphthalocyanine absorbed on carbon black. J Power Sources, 2013, 242:157-165.

  25. Zhongfang Li*, Feilong Dong, Lijuan Xu, Suwen Wang, Xianjin Yu, Preparation & Properties of Medium Temperature Membranes Based on Zirconium Sulfophenyl- phosphate / Sulfonated Poly (Phthalazinone Ether Sulfone Ketone) for Direct Methanol Fuel cells. J Membr Sci, 2010, 351: 50-57.

  26. Guofeng Xu, Zhongfang Li*, Suwen Wang, Xianjin Yu, Planar Polyphthalocyanine Cobalt Absorbed on Carbon Black as Stable Electrocatalysts for DMFC. J Power Sources,2010, 195, 4731–4735.

  27. Panfeng Yue, Zhongfang Li*, Suwen Wang, Yuxin Wang. MnO2 nanorod catalysts for magnesium-air fuel cells: Influence of different supports. Int J Hydrogen Energy, 2015, 40, 6809-6817.  

  28. Shihua Xu, Zhongfang Li *, Yanfeng Ji, Suwen Wang, XiaoyanYin, Yuxin Wang. A Novel Cathode Catalyst for Aluminum Air Fuel Cells: Activity and Durability of Polytetraphenyl- porphyrin Iron (II) Absorbed on Carbon Black. Int J Hydrogen Energy, 2014, 39: 20171-20182.

  29. Guohong liu, Zhongfang Li*, Lei Jin, Suwen Wang, Simple synthesis of iron sulfophenyl phosphate nanosheets as a high-temperature inorganic-organic proton conductor,Ionics2014, 20: 1399-1406.

  30. Suwen Wang, Feilong Dong, Zhongfang Li*. Proton-conducting Membrane Preparation Based on SiO2-Riveted Phosphotungstic Acid and Poly (2,5-benzimidazole) via Direct Casting Method and its Durability.J Mater Sci, 2012, 47: 4743–4749.

  31. Lei Jin, Zhongfang Li*, Suwen Wang, Zhenhai Wang, Feilong Dong, Xiaoyan Yin. Highly Conductive Proton Exchange Membranes Based on Sulfonated Poly(Phthalazinone Ether Sulfone) and Cerium Sulfophenyl Phosphate. React Funct Polym, 201272: 549–555.

  32. Suwen Wang, Feilong Dong, Zhongfang Li*, Lei Jin. Preparation and properties of sulfonated poly(phthalazinone ether sulfone ketone) / tungsten oxide composite membranes. Asia-Pac J Chem Eng, 2012, 7(4): 528~533.

  33. Suwen Wang, Lei Jin, Zhongfang Li*. Preparation and Characterization of Zirconium Sulfophenyl Phosphate Doped Sulfonated Poly(phthalazinone ether sulfone) Composite Proton Exchange Membrane. Ionics, 2013, 19: 1027–1036.

  34. Feilong Dong, Zhongfang Li*, Suwen Wang, Zhenhai Wang. Cerium Sulfonphenyl Phosphate, a Novel Inorgano-organic Solid Proton-conducting Material.Materials Letters, 2011, 65(9): 1431-1433.

  35. Feilong Dong, Zhongfang Li*, Suwen Wang, Zhenhai Wang. Synthesis and Characteristics of Proton-Conducting Membranes Based on Cerium Sulfophenyl Phosphate and Poly (2, 5-benzimidazole) by Hot-Pressing Method. Int J Hydrogen Energy, 2011, 36: 11068- 11074.

  36. Yanfeng Ji, Zhongfang Li*, Suwen Wang, Guofeng Xu, Degang Li, Xianjin Yu. Durability of Polytetraphenylporphyrin Cobalt Adsorbed on Carbon Black as an Electrocatalyst for Oxygen Reduction. J Electrochem Soc, 2011, 158(2): B139-B142.

  37. Yanfeng Ji,  Zhongfang Li* , Suwen Wang, Guofeng Xu,  Xianjin Yu, Thermal Treatment of Co() Tetracarboxyphenyl Porphyrin Supported on Carbon as an Electrocatalyst for Oxygen Reduction. Int J Hydrogen Energy, 2010, 35: 8117-8121.

  38. Feilong Dong, Zhongfang Li*, Suwen Wang, Lijuan Xu, Xianjin Yu. Preparation and Properties of Sulfonated Poly(Phthalazinone Ether Sulfone Ketone)/Zirconium Sulfophenyl- phosphate/PTFE composite membranes. Int J Hydrogen Energy, 2011, 36, 3681-3687.

  39. Qian Zhang, Zhongfang Li*, Suwen Wang, Wei Xing, Rujun Yu, Xianjin Yu .The electro-oxidation of dimethyl ether on platinum-based catalyst.Electrochim Acta, 2008, 53: 82983804

  40. 孙 鹏, 李忠芳*, 王传刚, 王 燕, 崔伟慧, 裴鸿昌, 尹晓燕. 燃料电池用高温质子交换膜的研究进展. 材料工程,2021,491:23-34.

  41. 刘岳鹏,张廷尉,李忠芳*,张志旭。尖晶石类燃料电池阴极催化剂性能提升策略。电源技术,2020,4411):1563-1568

  42. 王卫云,李忠芳*,王素文。香兰素缩3,4-二氨基苯甲酸在45#钢表面的组装工艺对其缓蚀性能的影响。腐蚀与防护2013, 4043):193-196

  43. 张骞,李忠芳*,王素文,于如军. 直接二甲醚燃料电池的研究进展. 电源技术20073110):837840

  44. 李忠芳,王素文,宋文生,邓会宁,王亚权,王宇新,meso-5,10,15,20-(取代-2-噻吩基)卟啉及其配合物的合成与表征,有机化学2003236):588594.

  45. 李忠芳,王素文,王纪孝,王亚权,王宇新,过渡金属离子为模板的卟啉过渡金属配合物的合成研究,无机化学学报20037: 691698.

授权的专利

2020年申请的PCT国际专利

  1. 李忠芳,孙鹏,崔伟慧,王传刚,郭辉,王燕。(PCT),新型阻燃电解质的锂盐提升有机溶剂中溶解性能的方法。PCT/CN2020/071572, 申请日期:2020-01-11。检索报告2020.09.22.

  2. 李忠芳,孙鹏,崔伟慧,王传刚,郭辉,王燕。易溶于有机溶剂的阻燃锂离子电池电解质的制备方法(PCT)。PCT/CN2020/071575,申请日期:2020-01-11, 检索报告2020.10.102021-06-16申报美国专利

  3. 李忠芳,孙鹏,郭辉,王立开,牛学良。一种新型反应型聚氨酯阻燃剂的制备方法及应用。PCT/CN2020/136806申请日期:2020-12-162021-06-16申报美国专利


2021年申请的美国专利

  1. Zhongfang Li, Peng Sun, Hui Guo, Likai Wang, Xueliang Niu. PREPARATION METHOD AND APPLICATION OF NOVEL REACTIVE POLYURETHANE FLAME RETARDANT. 申请号17631502

  2. Zhongfang Li, Peng Sun, Weihui Cui, Chuangang Wang, Hui Guo, Yan Wang. PREPARATION METHOD OF FLAME-RETARDANT LITHIUM-ION BATTERY ELECTROLYTE EASILY SOLUBLE IN ORGANIC SOLVENT. 申请号  17639576

2023年获得授权的专利

  1. 王素文,李忠芳,郭辉,孙鹏,崔伟慧。2,4,6-三氧代-1,3,5-三嗪-三磷酸锂及其复配物用于阻燃电解质的制备方法。ZL 202010028563.7,申请日期:2020-01-11 CN 111205322B授权日期:2022.7.26

  2. 李忠芳,崔伟慧,孙鹏,郭辉,王燕。含三聚氰环的易溶于有机溶剂的阻燃电解质的制备方法。202010028554.8,申请日期:2020-01-11CN 111211350B,授权日期:2023.2.10

  3. 李忠芳,郭辉,孙鹏,崔伟慧,王燕。高有机相容性的阻燃型锂盐及其复合阻燃电解质的制备。202010028553.3,申请日期:2020-01-11CN 111224165B,授权日期:2023.2.10

2022年授权的专利

  1. 李忠芳,王传刚,郭辉,孙鹏,王燕。一种含有聚磷腈的锂离子电池阻燃电解质的制备方法。ZL 202010028556.7,申请日期:2020-01-11CN 111193070B2022.5.17授权。

  2. 王素文,李忠芳,孙鹏,王传刚,崔伟慧。一种锂离子电池用阻燃电解质的制备方法。ZL 202010028555.2,申请日期:2020-01-11CN 111193067B2022.5.17授权。

  3. 李忠芳,孙鹏,崔伟慧,王传刚,郭辉,王燕。一种阻燃电解液的制备方法。ZL 202080002865.5。申请日期2020-01-11CN 112204795B2022.5.17授权。

  4. 李忠芳,王传刚,孙鹏,郭辉。掺杂聚(二磷酸盐磷腈)聚苯并咪唑类高温、低湿度质子交换膜的制备方法ZL 202010028566.0,申请日期:2020-01-11,授权公告号:CN 1112054958B,授权日期:2022.7.26

  5. 王传刚,李忠芳,孙鹏,郭辉。环三磷腈六磷酸盐掺杂的聚苯并咪唑类质子交换膜制备方法。ZL 202010028550.X,申请日期:2020-01-11。授权公告号:CN 111205640B,授权日期:2022.7.26

  6. 孙鹏,李忠芳,郭辉,王燕,崔伟慧。含三聚氰环的三膦酸盐类掺杂PBI高温质子交换膜的制备方法。ZL 202010028557.1,申请日期:2020-01-11. 授权公告号:CN 111205641B,授权日期:2022.7.26

  7. 李忠芳,孙鹏,崔伟慧,王传刚,郭辉,王燕。易溶于有机溶剂的阻燃锂离子电池电解质的制备方法,申请号:ZL 202080002855.1,申请日期2020-01-11,授权公告号:CN 112189278B,授权日期:2022.7.29

2021授权的专利

  1. 郭辉,李忠芳,孙鹏。2,4,6-三氧代-1,3,5-三嗪-三磷酸盐掺杂PBI质子交换膜的制备方法。ZL 202010028562.2,申请日期:2020-01-11CN111416140B2021-04-13

  2. 王素文,李忠芳,王传刚,孙鹏。一种环三磷腈基六磷酸盐类耐高温质子导体的制备方法。ZL 202010028548.2,申请日期:2020-01-11CN 111223585B2021-05-11

  3. 王素文,李忠芳,王传刚,郭辉,王燕。一种含有环三磷腈环的锂离子电池阻燃电解质的制备方法。ZL 202010028552.9,申请日期:2020-01-11CN111276742B2021-05-11

  4. 李忠芳,孙鹏,王传刚,郭辉,王立开,牛学良。一种含环三磷腈基六磷酸及衍生物复配的高性能反应型聚氨酯阻燃剂的制备。ZL 2020100839286申请日期:2020-02-07CN111285989B2021-11-05

  5. 李忠芳,王传刚,孙鹏,郭辉。聚(二磷酸盐磷腈)高温质子导体的制备方法及应用。ZL 202010028561.8,申请日期:2020-01-11CN111205465B2021-11-05

  6. 李忠芳,孙鹏,郭辉,王立开,牛学良。一种反应型聚氨酯阻燃剂的制备方法及应用。ZL 202010082370X申请日期:2020-02-07CN1112253546B,授权日期:2021-11-05

  7. 李忠芳,孙鹏,郭辉,王立开,牛学良,裴鸿昌,尹晓燕。异氰尿酸基三膦酸及其衍生物复配的高性能阻燃剂的制备方法。ZL 2020100823697申请日期:2020-02-07CN111171257B,授权日期:2021-11-05

  8. 李忠芳,孙鹏,王立开,牛学良,尹晓燕,裴鸿昌。含三嗪环的三膦酸及其衍生物复配的高性能反应型聚氨酯阻燃剂的制备。ZL 2020100839271,申请日期:2020-02-07CN111285990B,授权日期:2021-11-05

2021年之前的发明授权专利

  1. 李忠芳,姚福生,王宇新,王素文。一种新的取代卟啉金属配位化合物及其应用.中国发明专利,专利号:ZL 02 135327.1(授权日期:200554日)。

  2. 李忠芳,姚福生,王宇新,王素文。桥联面面结构双卟啉金属配位化合物及其应用.中国发明专利,专利号:ZL 02 135326.3(授权日期:200614日)。

  3. 李忠芳,姚福生,王素文,于如军,王捷。聚合酞菁化合物作为直接甲醇燃料电池阴极催化剂的应用。中国发明专利,专利号:ZL 2003 1 0114576.2(授权日期:2006927日)

  4. 李忠芳,姚福生,王捷,王素文,于如军。活性炭表面用卟啉、酞菁化学修饰的产品在燃料电池中的应用。中国发明专利,专利号:ZL 2003 1 0114579.6(授权日期:200727日)

  5. 李忠芳,张骞,于如军,王素文,樊彩霞。直接二甲醚燃料电池系统。中国发明专利,专利号:ZL  2005 1 0104716.7,授权日期:2009211

  6. 李忠芳,于如军,王素文,邢伟,张骞,樊彩霞。弱碱性聚合物膜直接醇类燃料电池,中国发明专利,专利号:ZL 2005 1 0104715.2,授权日期:20081112

  7. 王素文,李忠芳,于如军,樊彩霞,张骞。直接醇类燃料电池弱碱性膜的制备方法。中国发明专利,专利号:ZL 2005 1 0104690.6,授权日期:2009211

  8. 李忠芳,王素文,于如军,樊彩霞,张骞。弱碱性高分子树脂及在直接醇类燃料电池中的应用,中国发明专利,专利号:ZL 2005 1 0104691.0,(授权日期:2009-7-1

  9. 李忠芳,王素文,季岩峰,于先进。可控孔径的二维网状金属卟啉聚合物及其应用,中国发明专利,专利号:ZL 2008 1 0160562.7,(授权日期:2010-11-17

  10. 李忠芳,王素文,许国峰,王旭涛,于先进。可控孔径的二维网状金属酞菁聚合物及其应用,中国发明专利,专利号:ZL 2008 1 0160563.1,(授权日期:2010-11-17

  11. 李忠芳,王素文,王旭涛,于先进。 二茂铁键连面-面双酞菁配合物及其用途,中国发明专利,专利号:ZL 200710015079.5,(授权日期:2010-12-15

  12. 李忠芳,王素文,徐丽娟,董飞龙,于先进。掺杂磺化苯基膦酸锆的质子交换膜及其制备方法,中国发明专利,专利号:ZL 200810160560.8,(授权日期:2010-12-22

  13. 李忠芳,王素文,张燕,于先进。以二茂铁为连接基团的面-面双卟啉配合物及其应用,中国发明专利,专利号:ZL 200710015077.6,(授权日期:2011720日)

  14. 李忠芳,王素文,于如军,于先进,樊彩霞。吡啶季铵盐型碱性或弱碱性聚合物膜的应用,中国发明专利,专利号:ZL 200710015078.0,(授权日期:20111012日)

  15. 李忠芳,王素文,董飞龙,于先进。用二氧化碳保护聚苯并咪唑分子中端氨基的方法,中国发明专利,专利号:ZL 201010011831.0(授权日期2011928日)

  16. 李忠芳,王素文,董飞龙,于先进。聚苯并咪唑高分子材料中端氨基的保护方法,中国发明专利,专利号:ZL 201010011830.6(申请日2010112日)(授权日20111116日)

  17. 李忠芳,王素文,王旭涛,张燕,于先进。平面聚合酞菁或卟啉过渡金属配合物的应用,中国发明专利,专利号:ZL 200710015076.1,(申请日期:2007624日)(授权日期:2012111日)

  18. 李忠芳,王素文,徐丽娟,董飞龙,于先进。可中温使用的燃料电池质子交换膜及其制备方法,中国发明专利,专利号:ZL 200810160561.2,(申请日期:20081114日)(授权日20120215日)

  19. 李忠芳,王素文。用于制备生物柴油的固体酸催化剂及其制备方法,中国发明专利,专利号:ZL 201110025228.2(申请日期20110124日)(授权日20130417日)

  20. 王素文,李忠芳,董飞龙,金磊。磺化苯磷酸铈掺杂聚苯并咪唑高温质子交换膜的制备方法,中国发明专利,专利号:ZL 201110025204.7(申请日期20110124日)(授权日20130508日)

  21. 李忠芳,王素文。一种新型镁空气电池阴极,中国发明专利,ZL 201010618666.5(申请日期20101231(授权日2013814日)

  22. 李忠芳,王素文。膜电极的制备方法,中国发明专利,ZL 201010618721.0(申请日期20101231日)(授权日20131120日)

  23. 李忠芳,王素文。改进的大容量镁空气电池,中国发明专利,ZL 201110001792.0(申请日期201116日)(授权日20131211日)

  24. 李忠芳,王素文,董飞龙。一种磺化苯磷酸铈的制法,中国发明专利,ZL201110025172.0(申请日期20110124日)(授权日20141217日)

  25. 李忠芳,金磊,刘国红,王素文.制备磺化苯磷酸钴的简易方法,中国发明专利,ZL 201210574425.4(申请日期:2012-12-26)(授权日2015325日)

  26. 李忠芳,王素文,金磊,刘国红.制备磺化苯磷酸铁的简易方法,中国发明专利,ZL 201210574424.X(申请日期:2012-12-26)(授权日2015422日)

  27. 李忠芳,金磊,刘国红,王素文.一种杂多酸插层到磺化苯膦酸盐复合材料及其制备和应用,中国发明专利,ZL201210574451.7(授权日2015722日)(申请日期:2012-12-26

  28. 李忠芳,王素文,张廷尉,岳攀峰. 一种高氮含量的三维氮掺杂石墨烯的制备方法. ZL 201611234519.1. 2016.12.28(授权日期:2019129日,授权公告号:CN 106477566B

  29. 李忠芳,王素文,卢雪伟. 用限域微反应器制备过渡金属和氮共掺杂的二维石墨烯. ZL 201611236547.7. 2016.12.28 (授权日期:2019305日,授权公告号:CN 106582766 B

  30. 李忠芳,王素文, 卢雪伟, 张廷尉. 具有协同催化效应的Fe-Co-N三元共掺杂三维石墨烯的制备. ZL 201611236579.7. 2016.12.28 (授权日期:2019426日,授权公告号:CN 106622330B

  31. 李忠芳,王素文,张廷尉. 强化传质型多级孔道贯通的三维氮掺杂石墨烯的制备方法. ZL 201611234526.1. 2016.12.28(授权日期:201942日,授权公告号:CN 106587026 B

  32. 李忠芳,吕亚楠,王素文. 用聚苯并咪唑制备多级孔道的三维氮掺杂石墨烯. ZL 201611235495.1. 2016.12.28 (授权日期:201942日,授权公告号:CN 106582816 B

  33. 王素文,李忠芳,张廷尉,孙鹏. 带吡嗪基的聚苯并咪唑制备三维氮掺杂石墨烯的方法. ZL 201611235521.0. 2016.12.28(授权日期:201945日,授权公告号:CN 106582818 B

  34. 王素文,李忠芳,张廷尉,孙鹏. 带吡啶基团的聚苯并咪唑制备高氮含量的三维氮掺杂石墨烯. ZL 201611235522.5. 2016.12.28(授权日期:201945日,授权公告号:CN 106732729 B

  35. 李忠芳,王素文,岳攀峰. 钴和氮共掺杂的三维石墨烯的制备. 201611236602.2. 2016.12.28(授权日期:201945日,授权公告号:CN 106582767 B

  36. 李忠芳,王素文,岳攀峰,张廷尉. 用聚(25苯并咪唑)制备三维氮掺杂石墨烯的方法. ZL 201611235508.5. 2016.12.28 (授权日期:2019430日,授权公告号:CN 106744847 B

  37. 李忠芳,王素文,张廷尉,岳攀峰. 一种制备氮掺杂三维石墨烯的简便方法. ZL 201611235509.X. 2016.12.28. (授权日期:2019528日,授权公告号:CN 106582817 B

  38. 李忠芳,王素文,卢雪伟. 垂直方向限域的微反应器内制备二维氮掺杂石墨烯的方法. ZL 201611234516.8. 2016.12.28(授权日期:2019531日,授权公告号:CN 106622329 B

  39. 李忠芳,王素文,岳攀峰. 铁和氮共掺杂的三维石墨烯的制备方法. ZL 201611237826.5. 2016.12.28(授权日期:2019723日,授权公告号:CN 106744852 B

  40. 李忠芳,王素文,张廷尉. 多级孔道的铁钴和氮三元共掺杂的三维石墨烯的制备. ZL 201611235510.2. 2016.12.28(授权日期:2019723日,授权公告号:CN 106744848 B

  41. 李忠芳,王素文,张廷尉,卢雪伟. 过渡金属和氮共掺杂的多级孔道三维石墨烯的制备. ZL 201611236544.3. 2016.12.28(授权日期:2019723日,授权公告号:CN 106744850 B

  42. 李忠芳,战明明,王素文. 聚苯并咪唑(PBI)类高分子制备三维石墨烯的方法. ZL 201611236542.4. 2016.12.28授权日期:2019730日,授权公告号:CN 106744849 B

  43. 李忠芳,王素文,卢雪伟. 一种高氮含量的二维氮掺杂石墨烯的制备方法. ZL 201611234520.4. 2016.12.28授权日期:2019730日,授权公告号:CN 106744846 B

  44. 李忠芳,王素文,卢雪伟. 用聚苯并咪唑制备高氮含量的二维氮掺杂石墨烯的方法. ZL 201611236549.6. 2016.12.28授权日期:2019730日,授权公告号:CN 106744851 B



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