马昌博士

马昌，工学博士

教授，硕士生导师

天津市“131”人才，北卡罗来纳州立大学访问学者，主要从事纤维碳材料结构设计与功能开发以及新型碳基储能材料的研究。主讲能源材料及器件、炭质功能材料、粉体工程等本科生课程。发表论文70余篇，他引2200余次，参与编写专著2部，申请与授权专利20余项。承担与参与国家自然科学基金4项，国家重点研发计划子课题1项，天津市自然科学基金等省部级项目3项，企业委托项目8项，获得天津市科技进步奖二等奖1项，获得中国纺织工业联合会科技二等奖1项，山西省自然科学奖二等奖1项，指导国家大学生创新创业项目2项，天津市大学生创新创业项目1项，指导获得国家级科技竞赛奖励5项，省部级竞赛奖励10项。担任Applied Catalysis B: Environmental, Journal of Energy chemistry, Chemical Engineering Journal, Carbon, Journal of Colloid and Interface Science, Applied Surface Science等国际期刊审稿人。

研究方向

[1] 炭基非贵金属催化剂设计与空气电池电催化研究

[2] 锂/钠离子电池用炭基电极材料开发与应用

[3] 燃料电池气体扩散层工艺设计与产业化

联系方式

邮箱：machang@tiangong.edu.cn

通讯地址：天津市西青区宾水西道399号天津工业大学材料学院6B434室

教育经历

2024/11至今天津工业大学材料学院教授

2018/12-2024/11 天津工业大学材料学院副教授

2019/10-2020/10 北卡罗来纳州立大学访问学者

2013/07-2018/12 天津工业大学材料学院讲师

2008/09-2013/07 中国科学院大学材料学博士

主要承担项目

[1] 国家级项目，熔盐-卤化法可控制备微孔纳米炭纤维及微孔储能机制研究，国家自然科学基金，25万，项目负责人。

[2] 省部级项目，石墨烯骨架炭纳米纤维/MnO₂复合电极的制备与电容性能，天津市自然科学基金，6万，项目负责人。

[3] 省部级项目，柔性全固态超级电容器用木质素基纳米多孔炭纤维的制备与性能研究，天津市教委科研项目，6万，项目负责人。

[4] 国家级项目，燃料电池用碳/碳柔性纸基材料，国家重点研发计划，187万，第二参与人。

[5] 企业委托项目，超级电容器高性能电极材料研发，9万，项目负责人。

[6] 企业委托项目，燃料电池用气体扩散层研发，150万，项目负责人。

[7] 企业委托项目，高性能碳纸关键制备技术，30万，项目负责人。

[8] 央企委托项目，钠电负极制备研究，87万，项目负责人。

代表性论文

[1] Y. Wang, R. Gan, X. Shao, B. Dai, L. Ma, J. Yang, J. Shi, X. Zhang, C. Ma*, Z. Jin, Co/CoO hetero-nanoparticles incorporated into lignin-derived carbon nanofibers as a self-supported bifunctional oxygen electrocatalyst for rechargeable Zn-air batteries, Journal of Colloid and Interface Science 682 (2025) 934-945. (中科院1区，IF=9.4)

[2] C. Ma*, B. Zhu, Y. Wang, S. Ma, J. Shi, X. Zhang, Y. Song, Porous carbon nanosheets integrated with graphene-wrapped CoO and CoNx as efficient bifunctional oxygen electrocatalysts for rechargeable zinc-air batteries, Journal of Colloid and Interface Science 685 (2025) 793-803. (中科院1区，IF=9.4)

[3] X. Shao, R. Gan, Y. Rao, T.T.T. Nga, M. Liang, C.-L. Dong, C. Ma, J.Y. Lee, H. Li, H. Lee, Main Group SnN4O Single Sites with Optimized Charge Distribution for Boosting the Oxygen Reduction Reaction, ACS Nano 18(22) (2024) 14742-14753. (中科院1区，IF=15.8)

[4] W. Ma, X. Shao, R. Gan, B. Zhou, Y. Wang, B. Zhu, Y. Song, N. Xiang, J. Shi, C. Ma*, Improving the rate performance of mesophase pitch fluoride by boron anion receptor for lithium/fluorinated carbon primary batteries, Applied Surface Science 682 (2025) 161636. (中科院2区，IF=6.3)

[5] W. Ma, R. Gan, C. Wang, G. Song, H. Wu, Y. Song, N. Xiang, J. Shi, C. Ma*, Molecular aggregation state and electrochemical performance of mesophase pitch fluoride, Applied Surface Science 648 (2024) 158989. (中科院2区，IF=6.3)

[6] C. Ma*, G. Song, Z. Li, H. Wu, C. Wang, Y. Wang, X. Zhang, Y. Song, J. Shi, High-areal-capacitance electrode constructed by lignin-based microporous carbon nanofibers for supercapacitors, Journal of Energy Storage 88 (2024) 111465. (中科院2区，IF=8.9)

[7] Ruihui Gan, Yan Song, Chang Ma*, Jingli Shi* [J], In situ growth of N-doped carbon nanotubes in Fe-Nx/Fe2O3/Fe3O4-encapsulated carbon sheets for efficient bifunctional oxygen catalysis, Applied Catalysis B: Environmental 327 (2023). (中科院1区，IF=24)

[8] Chengbiao Wei, Hao Liu, Ruihui Gan, Wenjun Ma, Yali Wang, Yulan Han, Yan Song, Chang Ma*, Jingli Shi* [J], Flexible NiCo2S4-hollow carbon nanofibers electrocatalytic membrane as an advanced interlayer for lithium-sulfur batteries, Colloids and Surfaces A: Physicochemical and Engineering Aspects 648 (2022) 129179. (中科院2区，IF=5.5)

[9] Chengbiao Wei, Yulan Han, Hao Liu, Ruihui Gan, Wenjun Ma, Haihui Liu, Yan Song, Xiangwu Zhang, Jingli Shi, Chang Ma* [J], Enhancing conversion of polysulfides via porous carbon nanofiber interlayer with dual-active sites for lithium-sulfur batteries, Journal of Colloid and Interface Science 625 (2022) 946. (中科院1区，IF=10)

[10] Yali Wang, Ruihui Gan, Sa Zhao, Wenjun Ma, Xiangwu Zhang, Yan Song, Chang Ma*, Jingli Shi*[J], B, N, F tridoped lignin derived carbon nanofibers as an efficient metal free bifunctional electrocatalyst for ORR and OER in rechargeable liquid/solid state Zn air batteries, Applied Surface Science 598 (2022) 153891. (中科院1区，IF=7.4)

[11] Ruihui Gan, Yali Wang, Wenjun Ma, Mahmut Dirican, Sa Zhao, Yan Song, Xiangwu Zhang, Chang Ma*, Jingli Shi* [J], Fe2O3-encapsulated and Fe-Nx-containing hierarchical porous carbon spheres as efficient electrocatalyst for oxygen reduction reaction, International Journal of Hydrogen Energy 47(4) (2022) 2103. (中科院2区，IF=7.1)

[12] Chengbiao Wei, Yulan Han, Hao Liu, Ruihui Gan, Qiqi Li, Yali Wang, P. Hu, Chang Ma*, Jingli Shi* [J], Advanced lithium–sulfur batteries enabled by a SnS2-Hollow carbon nanofibers Flexible Electrocatalytic Membrane, Carbon 184 (2021) 1. (JCR 1区，IF=11)

[13] Yali Wang, Ruihui Gan, Hao Liu, Mahmut Dirican, Chengbiao Wei, Chang Ma*, Jingli Shi*, Xiangwu Zhang [J], Fe3O4 nanoparticles anchored on N doped hierarchically porous carbon nanospheres as a high efficiency ORR electrocatalyst for rechargeable Zn air batteries, Journal of Materials Chemistry A 9 (2021) 2764. (JCR 1区，IF=14.5)

[14] Yali Wang, Ruihui Gan, Zhiquan Ai, Hao Liu, Chengbiao Wei, Yan Song, Mahmut Dirican, Xiangwu Zhang, Chang Ma*, Jingli Shi* [J], Hollow Co3O4x nanoparticles decorated N doped porous carbon prepared by one step pyrolysis as an efficient ORR electrocatalyst for rechargeable Zn air batteries, Carbon 181 (2021) 87. (JCR 1区，IF=11)

[15] Chang Ma*, Liqiang Wu, Mahmut Dirican, Hui Cheng, Junjing Li, Yan Song, Jingli Shi, Xiangwu Zhang* [J], Carbon black-based porous sub-micron carbon fibers for flexible supercapacitors, Applied Surface Science 537 (2021) 147914. (中科院1区，IF=7.4)

[16] Chang Ma*, Liqiang Wu, Mahmut Dirican, Hui Cheng, Junjing Li, Yan Song, Jingli Shi, Xiangwu Zhang* [J], ZnO-assisted synthesis of lignin-based ultra-fine microporous carbon nanofibers for supercapacitors, Journal of Colloid and Interface Science 586 (2021) 412. (中科院1区，IF=10)

[17] Chang Ma, Qingchao Fan, Mahmut Dirican, Nakarin Subjalearndee, Hui Cheng, Junjing Li, Yan Song, Jingli Shi*, Xiangwu Zhang* [J], Rational design of meso-/micro-pores for enhancing ion transportation in highly-porous carbon nanofibers used as electrode for supercapacitors, Applied Surface Science 545 (2021) 148933. (中科院1区，IF=7.4)

[18] Chang Ma, Erchuang Cao, Mahmut Dirican, Nakarin Subjalearndee, Hui Cheng, Junjing Li, Yan Song, Jingli Shi*, Xiangwu Zhang* [J], Fabrication, Structure and Supercapacitance of Flexible Porous Carbon Nanobelt Webs with Enhanced Inter-fiber Connection, Applied Surface Science 543 (2021) 148783. (中科院1区，IF=7.4)

[19] Hao Liu, Mengyun Xu, Chengbiao Wei, Wenjun Ma, Yali Wang, Ruihui Gan, Chang Ma*, Jingli Shi* [J], SnCl2-induced SnO2 nanoparticles uniformly anchored in the interpenetrating network porous structure of electrode-membranes to relieve volume expansion and enhance lithium storage performance, Colloids and Surfaces A: Physicochemical and Engineering Aspects 628 (2021) 127348. (中科院2区，IF=5.5)

[20] Hao Liu, Chengbiao Wei, Leilei Peng, Qingchao Fan, Christine Matindi, Yali Wang, Chang Ma*, Jingli Shi* [J], High-effective preparation of 3D hierarchical nanoporous interpenetrating network structure carbon membranes as flexible free-standing anodes for stable lithium and sodium storage, Colloids and Surfaces A: Physicochemical and Engineering Aspects 608 (2021) 125593. (中科院2区，IF=5.5)

[21] Hao Liu, Chengbiao Wei, Hongfei Peng, Wenjun Ma, Yali Wang, Lei Zhang, Cuimin Lu, Chang Ma*, Jingli Shi* [J], Improved lithium storage performance by encapsulating silicon in free-standing 3D network structure carbon-based composite membranes as flexible anodes, Surface and Coatings Technology 423 (2021) 127606. (中科院1区，IF=4.9)

[22] Hao Liu, Chengbiao Wei, Zhiquan Ai, Mengjia Li, Mengyun Xu, Chang Ma*, Jingli Shi* [J], The positive effect of 3D interpenetrating network porous structure by carbon membranes on alleviating the volume expansion of SnS2 nanosheets for enhancing lithium and sodium storage, Colloids and Surfaces A: Physicochemical and Engineering Aspects 610 (2021) 125937. (中科院2区，IF=5.5)

[23] Chang Ma, Qingchao Fan, Mahmut Dirican, Yan Song, Xiangwu Zhang*, Jingli Shi* [J], Porous carbon nanosheets derived from expanded graphite for supercapacitors and sodium-ion batteries, Journal of Materials Science 55(34) (2020) 16323. (中科院2区，IF=4.7)

[24] Junjing Li, Huan Wang, ZiYan Qi, Chang Ma, Zhaohui Zhang, Bin Zhao, et al [J], Kinetics and mechanisms of electrocatalytic hydrodechlorination of diclofenac on Pd-Ni/PPy-rGO/Ni electrodes, Applied Catalysis B: Environmental 268 (2020) 118696. (中科院1区，IF=24)

[25] Qingchao Fan, Chang Ma*, Liqiang Wu, Chengbiao Wei, Huihui Wang, Yan Song, Jingli Shi* [J], Preparation of cellulose acetate derived carbon nanofibers by ZnCl2 activation as a supercapacitor electrode, RSC Advances 9 (2019) 6419. (JCR 2区，IF=4.0)

[26] Chang Ma, Zhengyi Li, Junjing Li, Qingchao Fan, Liqiang Wu, Jingli Shi*, Yan Song* [J], Lignin-based hierarchical porous carbon nanofiber films with superior performance in supercapacitors, Applied Surface Science 456 (2018) 568. (中科院1区，IF=7.4)

[27] Chang Ma, Jiangnan Chen, Qingchao Fan, Junchao Guo, Weining Liu, Erchuang Cao, Jingli Shi*, Yan Song* [J], Preparation and one-step activation of nanoporous ultrafine carbon fibers derived from polyacrylonitrile/cellulose blend for used as supercapacitor electrode, Journal of Materials Science 53(6) (2018) 4527. (中科院2区，IF=4.7)

[28] Chang Ma*, Erchuang Cao, Junjing Li, Qingchao Fan, Liqiang Wu, Yan Song*, Jingli Shi* [J], Synthesis of mesoporous ribbon-shaped graphitic carbon nanofibers with superior performance as efficient supercapacitor electrodes, Electrochimica Acta 292 (2018) 364. (JCR 1区，IF=7.3)

[29] Ya Juan Li, Chang Ma, Jian Li Kang, Jing Li Shi*, Qiang Shi, Da Heng Wu [J], Preparation of diameter-controlled multi-wall carbon nanotubes by an improved floating-catalyst chemical vapor deposition method, New Carbon Materials 32(3) (2017) 234. (中科院3区，IF=6.6)

[30] Jie Sheng, Chang Ma*, Yuan Ma, Haixia Zhang, Ranran Wang, Zhenyu Xie, Jingli Shi* [J], Synthesis of microporous carbon nanofibers with high specific surface using tetraethyl orthosilicate template for supercapacitors, International Journal of Hydrogen Energy 41(22) (2016) 9383. (中科院2区，IF=7.1)

[31] Yuan Ma, Chang Ma*, Jie Sheng, Haixia Zhang, Ranran Wang, Zhenyu Xie, Jingli Shi* [J], Nitrogen-doped hierarchical porous carbon with high surface area derived from graphene oxide/pitch oxide composite for supercapacitors, Journal of Colloid and Interface Science 461 (2016) 96. (中科院1区，IF=10)

[32] Chang Ma, Jie Sheng, Canliang Ma, Ranran Wang, Junqing Liu, Zhenyu Xie, Jingli Shi* [J], High-performanced supercapacitor based mesoporous carbon nanofibers with oriented mesopores parallel to axial direction, Chemical Engineering Journal 304 (2016) 587. (中科院1区，IF=16)

[33] Canliang Ma, Chang Ma, Junzhong Wang, Huiqi Wang, Jingli Shi, Yan Song, Quangui Guo, Lang Liu [J], Exfoliated graphite as a flexible and conductive support for Si-based Li-ion battery anodes, Carbon 72(0) (2014) 38. (JCR 1区，IF=11)

[34] Chang Ma, Yajuan Li, Jingli Shi, Yan Song, Lang Liu [J], High-performance supercapacitor electrodes based on porous flexible carbon nanofiber paper treated by surface chemical etching, Chemical Engineering Journal 249 (2014) 216. (中科院1区，IF=16)

[35] Chang Ma, Ye Yu, Ya-juan Li, Jing-li Shi, Yan Song, Lang Liu [J], Ion Accumulation and Diffusion Behavior in Micro-/Meso-Pores of Carbon Nanofiber, Journal of the Electrochemical Society 161(9) (2014) A1. (JCR 2区，IF=4.3)

编写专著

[1] 碳纳米管、石墨烯及其纤维、薄膜，科学出版社，534千字，2014。（参编）

[2] 高聚物配方设计原理与应用，化学工艺出版社，364千字，2019。（参编）

获奖

[1] 2024年，多孔纳米炭纤维制备、结构调控及应用基础研究山西省自然科学奖二等奖

[2] 2021年，基于力学与功能增强的碳纤维结构调控关键技术及应用中国纺织工业联合会科技二等奖

[3] 2020年，碳纤维结构优化与性能调控技术的研发与产业化天津市科技进步二等奖

[4] 2024年，碳纸先锋:助力国产高性能碳纸产业化破局，中国国际大学生创新大赛天津赛区高教主赛道银奖（指导）

[5] 2024年，无敌碳纸队，全国高校商业精英挑战赛创新创业竞赛，全国总决赛二等奖（指导）

[6] 2023年，“碳”为观“纸”--燃料电池用国产碳纸开拓者，第九届中国国际“互联网+”大学生创新创业大赛，铜奖（指导）

[7] 2023年，碳网恢恢，疏而不漏--锂硫电池正极守护者，全国高校商业精英挑战赛创新创业竞赛创业计划赛道，全国总决赛二等奖（指导）

[8] 2019年，全固态柔性锂离子电池中国大学生社会实践知行促进计划三等奖（指导）

[9] 2019年，全生物质海水淡化装置全国大学节能减排大赛三等奖（指导）

[10] 2017年，柚子皮基碳质气凝胶吸油材料及其油水分离组件全国大学节能减排大赛三等奖（指导）

社会兼职

[1] 《炭素技术》青年编委

[2] 《新型炭材料》特约审稿专家

发明专利

[1] 一种有序介孔纳米碳纤维的制备方法, ZL201610321026.5（授权）

[2] 一种具有高比表面积纳米炭纤维的制备, ZL201610263879.8（授权）

[3] 一种石墨烯骨架多孔纳米纤维的制备方法, ZL201610512112.4（授权）

[4] 一种超级电容器用木质素纳米炭纤维的制备, ZL201610903823.4（授权）

[5] 一种高孔隙率中孔纳米石墨烯纤维的制备方法, ZL201610511955.2（授权）

[6] 一种基于气流纺丝法制备超级电容器电极材料的方法, ZL2016102200707（授权）

[7] 一种沥青炭纤维原丝熔融纺丝机, ZL201610415196X（授权）