邵辉

单位:中国科学院苏州纳米技术与纳米仿生研究所
地址:江苏省苏州工业园区若水路398号
邮编:0512-62872723
邮箱:hshao2023@sinano.ac.cn

个人简历/Personal resume

  2020年11月于法国图卢兹第三大学获得材料科学与工程博士学位,导师为Patrice Simon院士和Pierre-Louis Taberna研究员,研究方向为材料化学与能源化学。2023年加入中国科学院苏州纳米所,任副研究员。

  长期从事电化学储能领域,重点研究高倍率储能材料的合成与制备以及利用交叉学科原位表征技术对材料的储能机理进行探究。在知名学术期刊上发表论文30余篇,其中以(共同)第一作者或通讯作者身份在Nat. Mater.、Chem. Soc. Rev.、Nat. Commun.(2)、ACS Energy Lett.和Adv. Sci. 等期刊发表论文10篇,他引2800余次。担任Nat. Commun.、 Energy Storage Mater.、J. Phys. Chem.等10余本期刊的独立审稿人和EcoEnergy青年编委。

研究方向/Research direction

  锂离子电池,超级电容器,二维材料,原位表征

招生信息/Enrollment information

  材料物理与化学

论文专著/The monograph

  1. H. Shao†, Y. Wu†, Z. Lin*, P.L. Taberna, P. Simon*. Nanoporous Carbon for Electrochemical Capacitive Energy Storage. Chemical Society Reviews, 2020, 49(10): 3005-3039.

  2. Y. Li†, H. Shao†, Z. Lin*, J. Lu, L. Liu, B. Duployer, P. Persson, P. Eklund, L. Hultman, M. Li, K. Chen, X. Zha, S. Du, P. Rozier, Z. Chai, E. Raymundo-Piñero, P.L. Taberna, P. Simon*, Q. Huang*. A general Lewis acidic etching route for preparing MXenes with enhanced electrochemical performance in non-aqueous electrolyte. Nature Materials, 2020, (19): 894-899. (Co-first author)

  3. H. Shao, Z. Lin*, K. Xu, P.L. Taberna, P. Simon*. Electrochemical study of pseudocapacitive behavior of Ti3C2Tx MXene material in aqueous electrolytes. Energy Storage Materials, 2019, (18): 456-461.

  4. H. Shao†*, S. Luo†, A. Descamps‐Mandine, K. Ge, Z. Lin, P.L. Taberna*, Y. Gogotsi*, P. Simon*. Synthesis of MAX Phase Nanofibers and Nanoflakes and the Resulting MXenes. Advanced Science, 2023, 10(1): 2205509.

  5. H. Shao†, K. Xu†, Y. Wu, A. Iadecola, L. Liu, H. Ma, L. Qu, E. Raymundo-Piñero, J. Zhu, Z. Lin, P.L. Taberna, P. Simon*. Unraveling the charge storage mechanism of Ti3C2Tx MXene electrode in acidic electrolyte. ACS Energy Letters. 2020, 5, 2873–2880

  6. G. Ma†, H. Shao†, J. Xu, Y. Liu*, Q. Huang, P.L. Taberna, P. Simon*, Z. Lin*. Li-ion storage properties of two-dimensional titanium-carbide synthesized via fast one-pot method in air atmosphere. Nature Communications, 2021, 12, 5085. (Co-first author)

  7. M. Yu†, H. Shao†, G. Wang, F. Yang, C. Liang, P. Rozier, C. Wang, X. Lu, P. Simon*, X. Feng*. α-MoO3 with Widened Van der Waals Gaps as High-Rate Anode for Dual-Ion-Intercalation Energy Storage Device. Nature Communications, 2020, 11, 1348.

  8. Q. Dong, J. Wu, Y. Wang, J. Qi, J. Wang, J. Li, L. Zhao, S. Hu, H. Shao*, Y. Shen*, L. Chen*. Bifunctional self-assembled molecular layer enables stable Ni-rich cathodes[J]. Energy Storage Materials, 2023, 63: 103054.

  9. S. Zheng, B. Worku, J. Shi, Z. Zou, H. Shao*, B. Wang*, J. Qi*. Low-Temperature Zn-based Batteries: A Comprehensive Overview[J]. Energy Storage Materials, 2024: 103242.

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