韩久慧 教授

2012.06 本科，武汉理工大学

2014.03 硕士，日本东北大学

2017.03 博士，日本东北大学

2017.04 助手，日本东北大学

2020.02 助理教授，日本东北大学

2021.07 Prominent Research Fellow，日本东北大学

2022.01 国家海外优青

2022.06 教授，天津理工大学

电话： 022-6021-6537

邮箱： hanjh08@gmail.com

研究兴趣:

纳米能源材料、纳米多孔金属、界面物理与化学、电池与电催化、原位透射电子显微学

承担项目与发表论文:

承担国家自然科学基金优青（海外）项目、科技部重点研发计划项目、日本学术振兴会（JSPS）若手研究项目、JSPS研究活动启动支援项目、日本东北大学融合研究项目等9项。发表学术论文60余篇，论文被引4200余次，H指数35。获日本加藤科学振兴会研究奖、田中贵金属纪念财团MMS奖、日本东北大学“杰出研究员”称号等。

个人主页: https://hanjiuhui.mysxl.cn/

Google Scholar: https://scholar.google.co.jp/citations?user=_V7uMJwAAAAJ&hl=en

代表性论文:

1. R. R. Song, J. H. Han*, M. Okugawa, R. Belosludov, T. Wada, J. Jiang, D. X. Wei, A. Kudo, Y. Tian, M. W. Chen*, H. Kato*. Ultrafine nanoporous intermetallic catalysts by high-temperature liquid metal dealloying for electrochemical hydrogen production. Nature Communications13, 5157 (2022).

2. J. H. Han, I. Johnson, M. W. Chen*. 3D continuously porous graphene for energy applications. Advanced Materials 2108750 (2022).

3. J. H. Han, G. Huang, Z. L. Wang, J. Du, H. Kashani, M. W. Chen*. Low-temperature carbide-mediated growth of bicontinuous nitrogen-doped mesoporous graphene as an efficient oxygen reduction electrocatalyst. Advanced Materials 30, 1803588 (2018).

4. C. C. Yang^#, J. H. Han^#, P. Liu^#, C. Hou, G. Huang, T. Fujita, A. Hirata, M. W. Chen*. Direct observations of the formation and redox-mediator-assisted decomposition of Li₂O₂ in a liquid-cell Li-O₂ microbattery by scanning transmission electron microscopy. Advanced Materials 29, 1702752 (2017).

5. J. H. Han, I. Johnson, Z. Lu, A. Kudo, M. W. Chen*. Effect of local atomic structure on sodium ion storage in hard amorphous carbon. Nano Letters 21, 6504–6510 (2021) (Cover paper).

6. C. Hou^#, J. H. Han^#, P. Liu, G. Huang, M. W. Chen*. Synergetic effect of liquid and solid catalysts on energy efficiency of Li-O₂ battery: cell performances and operando STEM observations. Nano Letters 20, 2183-2190 (2020).

7. J. H. Han^#, C. Li^#, Z. Lu^#, H. Wang, Z. L. Wang, K. Watanabe, M. W. Chen*. Vapor phase dealloying: a versatile approach for fabricating 3D porous materials. Acta Materialia 163, 161-172 (2019).

8. J. H. Han, G. Huang, Y. Ito, X. W. Guo, T. Fujita, P. Liu, A. Hirata, M. W. Chen*. Full performance nanoporous graphene based Li-O₂ batteries through solution phase oxygen reduction and redox-additive mediated Li₂O₂ oxidation. Advanced Energy Materials 7, 1601933 (2017).

9. J. H. Han, X. W. Guo, Y. Ito, P. Liu, D. Hojo, T. Aida, A. Hirata, T. Fujita, T. Adschiri, H. S. Zhou, M. W. Chen*. Effect of chemical doping on cathodic performance of bicontinuous nanoporous graphene for Li-O₂ batteries. Advanced Energy Materials 6, 1501870 (2016).

10. L. H. Chen^#, J. H. Han^#, Y. Ito, T. Fujita, G. Huang, K. L. Hu, A. Hirata, K. Watanabe, M. W. Chen*. Heavily doped and highly conductive hierarchical nanoporous graphene for electrochemical hydrogen production. Angew. Chem. Int. Ed. 57, 13302-13307 (2018).

11. Z. Lu^#, C. Li^#, J. H. Han^#, F. Zhang, P. Liu, H. Wang, Z. L. Wang, C. Cheng, L. H. Chen, A. Hirata, T. Fujita, J. Erlebacher, M. W. Chen*. Three-dimensional bicontinuous nanoporous materials by vapor phase dealloying. Nature Communications 9, 276 (2018).