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馬貴軍

時間:2018-03-01瀏覽:4405設置

馬貴軍課題組介紹


課題組長
馬貴軍,助理教授、研究員
通訊地址:上海市浦東新區華夏中路393號物質學院5號樓4樓
電子郵件:magj@shanghaitech.edu.cn 
2002年本科畢業于蘭州大學化學化工學院,同年考入中國科學院大連化學物理研究所,師從李燦院士進行光催化降解硫化氫方面的研究,2009年初博士畢業后相繼加入日本東京大學Prof. Domen 及沙特阿布杜拉國王科技大學(KAUST)Prof. Takanabe課題組從事博士后研究,2012年6月受邀返回東京大學以主任研究員身份加入“人工光合成化學過程技術研究組合”,開展氧硫化物光催化及光電化學分解水研究;2017年4月加入上??萍即髮W物質科學與技術學院,任助理教授。

研究介紹

主要從事開發具有可見光響應的氧化物、硫(氧)化物及氮(氧)化物無機半導體材料,通過結晶優化,形貌控制以及表面修飾等實驗手段將這一材料應用于太陽能光催化及光電化學分解水制氫反應,在注重催化劑效率的同時,兼顧成本控制及可行性分析,致力于開發出具有一定工業示范前景的光催化材料和反應。主要方向:

(1)開發低價、高效的氧硫(氮)化物光催化材料的合成方法;

(2)基于Z-體系理念實現光催化及光電化學分解水全反應;

(3)無機半導體光催化分解水反應機理探索。



發表文章


  1. Plate-like Sm2Ti2S2O5 particles prepared by a flux-assisted one-step synthesis for the evolution of O2 from aqueous solutions by both photocatalytic and photoelectrochemical reactions, G. Ma, Y. Kuang, D. H. K. Murthy, T. Hisatomi, J. Seo, S. Chen, H. Matsuzaki, Y. Suzuki, M. Katayama, T. Minegishi, K. Seki, A. Furube, K. Domen, The Journal of Physical Chemistry C, 2018, 122, 13492-9

  2. Efficient redox-mediator-free Z-scheme water splitting employing oxysulfide photocatalysts under visible light, S. Sun, T. Hisatomi, Q. Wang, S. Chen, G. Ma, J. Liu, S. Nandy, T. Minegishi, M. Katayama, K. Domen, ACS Catalysis, 2018, 8, 1690–6

  3. Enhancement of the H2 evolution activity of La5Ti2Cu(S1?xSex)5O7 photocatalysts by coloading Pt and NiS cocatalysts, S. Nandy, T. Hisatomi, G. Ma, T. Minegishi, M. Katayama, K. Domen, Journal of Materials Chemistry A, 2017, 5, 6106–12

  4. Ultrastable low-bias water spitting photoanodes via photocorrosion inhibition and in-situ catalyst regeneration, Y. Kuang, Q. Jia, G. Ma, T. Hisatomi, T. Minegishi, H. Nishiyama, T. Yamada, A. Kudo, K. Domen, Nature Energy,2016, 2, 16191

  5. Visible light-driven Z-scheme water splitting using oxysulfide H2 evolution photocatalysts, G. Ma, S. Chen, Y. Kuang, S. Akiyama, T. Hisatomi, M. Nakabayashi, N. Shibata, M. Katayama, T. Minegishi, K. Domen, Journal of Physical Chemistry Letters, 2016,7, 3892–6

  6. Rationalizing long-lived photo-excited carriers in photocatalyst (La5Ti2CuS5O7) in terms of one-dimensional carrier transport, Y. Suzuki, R. Singh, H. Matsuzaki, A. Furube, G. Ma, T. Hisatomi, K. Domen, K. Seki, Chemical Physics,2016, 476, 9–16

  7. Photoanodic and photocathodic behaviours of La5Ti2CuS5O7 electrodes in water splitting reaction, G. Ma, Y. Suzuki, R. Singh, A. Iwanaga, Y. Moriya, T. Minegishi, J. Liu, T. Hisatomi, H. Nishiyama, M. Katayama, K. Seki, A. Furube, T. Yamada, K. Domen, Chemical Science, 2015, 6, 45138  

  8. Site-selective photodeposition of Pt on a particulate Sc-La5Ti2CuS5O7 photocathode: evidence for one-dimensional charge transfer,G. Ma, J. Liu, T. Hisatomi, T. Minegishi, Y. Moriya, M. Iwase, H. Nishiyama, M. Katayama, T. Yamada, K. Domen, Chemical Communications, 2015, 51, 43025

  9. Enhancement of solar hydrogen evolution from water by surface modification with CdS and TiO2 on porous CuInS2 photocathodes prepared by electrodeposition-sulfurization method, J. Zhao, T. Minegishi, L. Zhang, M. Zhong, Gunawan, M. Nakabayashi, G. Ma, T. Hisatomi, M. Katayama, S. Ikeda, N. Shibata, T. Yamada, K. Domen, Angewandte Chemie Int. Ed., 2014, 53, 1180812

  10. Improving the photoelectrochemical activity of La5Ti2CuS5O7 for hydrogen evolution by particle transfer and doping, J. Liu, T. Hisatomi, G. Ma, A. Iwanaga, T. Minegishi, Y. Moriya, M. Katayama, J. Kubota, K. Domen, Energy & Environmental Science, 2014, 7, 223942

  11. Fabrication of photocatalyst panels and the factors determining their activity for water splitting, A. Xiong, G. Ma, K. Maeda, T. Takata, T. Hisatomi, T. Setoyama, J. Kubota, K. Domen, Catalysis Science & Technology, 2014, 4, 3258  

  12. Photoelectrochemical conversion of toluene to methylcyclohexane as an organic hydride by Cu2ZnSnS4-based photoelectrode assemblies, P. Wang, T. Minegishi, G. Ma, K. Takanabe, Y. Satou, S. Maekawa, Y. Kobori, J. Kubota, K. Domen, Journal of American Chemical Society, 2012, 134, 246972

  13. Semiconductor monolayer assemblies with oriented crystal faces, G. Ma, T. Takata, M. Katayama, F. Zhang, Y. Moriya, K. Takanabe, J. Kubota, K. Domen, CrystEngComm, 2012, 14, 5962

  14. A hybrid photocatalytic system comprising ZnS as light harvester and an [Fe2S2] hydrogenase mimic as hydrogen evolution catalyst, Wen F., Wang X., Huang L., Ma G., Yang J., Li C., Chemsuschem, 2012, 5, 84953

  15. Photoelectrochemical hydrogen production on Cu2ZnSnS4/Mo-mesh thin-film electrodes prepared by electroplating, G. Ma, T. Minegishi, D. Yokoyama, J. Kubota and K. Domen, Chemical Physics Letters, 2011, 501, 61922

  16. Photocatalytic H2 evolution on CdS loaded with WS2 as cocatalyst under visible light irradiation, X. Zong, J. Han, G. Ma, H. Yan, G. Wu and C. Li, Journal of Physical Chemistry C, 2011, 115, 122028

  17. Enhanced visible-Light activity of titania via confinement inside carbon nanotubes, W. Chen, Z. Fan, B. Zhang, G. Ma, K. Takanabe, X. Zhang and Z. Lai, Journal of American Chemical Society, 2011, 133, 148969

  18. Photocatalytic H2 evolution on MoS2/CdS catalyst under visible light irradiation, X. Zong, G. Wu, H. Yan, G. Ma, J. Shi, F. Wen, L. Wang and C. Li, Journal of Physical Chemistry C, 2010, 114, 19638  

  19. H2 evolution from water on modified Cu2ZnSnS4 photoelectrode under solar light, D. Yokoyama, T. Minegishi, K. Jimbo, T. Hisatomi, G. Ma, M. Katayama, J. Kubota, H. Katagiri, and K. Domen, Applied Physics Express, 2010, 3, 101202

  20. Preparation, characterization and photocatalytic performance of Zn2-xGeO4-x-3yN2y catalysts under visible light irradiation,B. Ma, X. Zong, G. Ma, J. Yang, P. Ying, C. Li, Chemistry Bulletin, 2010, 6, 5569

  21. Photocatalytic hydrogen production on CuInS2-ZnS solid solution prepared by solvothermal method, G. Ma, Z. Lei, H. Yan, X. Zong and C. Li, Chinese Journal of Catalysis, 2009,30, 737

  22. Visible-light-driven hydrogen production with extremely high quantum efficiency on Pt–PdS/CdS photocatalyst, H. Yan, J. Yang, G. Ma, G. Wu, X. Zong, Z. Lei, J. Shi and C. Li, Journal of Catalysis, 2009, 266, 1658

  23. Visible light driven H2 production in molecular systems employing colloidal MoS2 nanoparticles as catalyst, X. Zong, Y. Na, F. Wen, G. Ma, J. Yang, D. Wang, Y. Ma, M. Wang, L. Sun, and C. Li, Chemical Communications, 2009, 30, 45368

  24. Direct splitting of H2S into H2 and S on CdS-based photocatalyst under visible light irradiation, G. Ma, H. Yan, J. Shi, X. Zong, Z. Lei and C. Li, Journal of Catalysis, 2008, 260, 13440

  25. Photocatalytic splitting of H2S to produce hydrogen by gas-solid phase reaction, G. Ma, H. Yan, X. Zong, B. Ma, H. Jiang, F. Wen and C. Li, Chinese Journal of Catalysis, 2008, 29, 3135

  26. Enhancement of photocatalytic H2 evolution on CdS by loading MoS2 as cocatalyst under visible light irradiation, X. Zong, H. Yan, G. Wu, G. Ma, F. Wen, L. Wang, and C. Li,Journal of American Chemical Society, 2008, 130, 71767

  27. Suppressing the CO formation via anion adsorption on Pt/TiO2 for the H2 production from the photocatalytic reforming of methanol, G. Wu, T. Chen, X. Zong, H. Yan, G. Ma and C. Li, Journal of Catalysis, 2008, 253, 2257

  28. Kinetics of photogenerated electrons involved in photocatalytic reaction of methanol on Pt/TiO2, T. Chen, G. Wu, Z. Feng, J. Shi, G. Ma, P. Ying, C. Li, Chinese Journal of Chemical Physics, 2007, 20, 4838

  29.  Mechanistic studies of photocatalytic reaction of methanol for hydrogen production on Pt/TiO2 by in-situ FTIR and time-resolved IR spectroscopy, T. Chen, Z. Feng, G. Wu, J. Shi, G. Ma, P. Ying and C. Li, Journal of Physical Chemistry C, 2007, 111, 800514

  30. Sulfur-substituted and zinc-doped In(OH)3: A new class of catalyst for photocatalytic H2 production from water under visible light illumination, Z. Lei, G. Ma, M. Liu, W. You, H. Yan, G. Wu, T. Takata, M. Hara, K. Domen and C. Li, Journal of Catalysis, 2006, 237, 3229

  31. Water reduction and oxidation on Pt–Ru/Y2Ta2O5N2 catalyst under visible light irradiation, M. Liu, W. You, Z. Lei, G. Zhou, J. Yang, G. Wu, G. Ma, G. Luan, T. Takata, M. Hara, K. Domen, C. Li, Chemical Communications, 2004, 36, 21923

Book chapter:

G. Ma, T. Hisatomi, K. Domen, “Semiconductors for Photocatalytic and Photoelectrochemical Solar Water Splitting”, in “From Molecules to MaterialsPathway to Artificial Photosynthesis”, Springer Publisher, 2015, pp 1–56,ISBN 978-3-319-13800-8.


http://orcid.org/0000-0001-7943-9750

https://www.scopus.com/authid/detail.uri?authorId=24280560300



組內活動

歡送鄭倉晟工程師


組內動態

【人員招聘】本組長期招聘博士后或助理研究員1名



本組成員

郭美 / 研究生 (2017)

BS: 2013-2017, 東華大學, 無機非金屬材料工程

CONTACT

郵箱:guomei@shanghaitech.edu.cn

電話:021-20685277

晁明坤 / 研究生 (2017)

BS: 2013-2017, 華東理工大學,化學

CONTACT

郵箱:chaomk@shanghaitech.edu.cn

電話:021-20685277

向遙 / 研究生 (2018)

BS: 2013-2017, 湖南大學, 應用物理

CONTACT

郵箱:xiangyao@shanghaitech.edu.cn

電話:021-20685277

張博楊 / 研究生 (2018)

BS: 2014-2018, 太原理工大學, 應用化學

CONTACT

郵箱:zhangby1@shanghaitech.edu.cn

電話:021-20685277

周偉成 / 研究生 (2018)

 BS: 2014-2018, 西安交通大學, 新能源可續與工程

CONTACT

郵箱:zhouwch@shanghaitech.edu.cn

電話:021-20685277

劉金濤 / 研究生 (2018)

BS: 2014-2018, 武漢理工大學, 材料物理

CONTACT

郵箱:liujt1@shanghaitech.edu.cn

電話:021-20685277

林文瑞 / 本科生 (2015)

 BS: 2015- , 上??萍即髮W大學, 材料科學與工程

CONTACT

郵箱:linwr@shanghaitech.edu.cn

電話:021-20685277

楊懿 / 本科生 (2015)

BS: 2015- , 上??萍即髮W大學, 化學

CONTACT

郵箱:yangyi@shanghaitech.edu.cn

電話:021-20685277


在組內學習、工作過的人員

鄭倉晟 / Lab Engineer

BS: 2010-2014,西南大學,材料物理
MS: 2014-2016,紐約州立大學賓漢姆頓分校,材料科學與工程
Lab Engineer: 10.2017-8.2018,上??萍即髮W,物質科學與技術學院



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