姓名：李新亮

职称：教授

办公地址：郑州市高新区郑州大学主校区物理C楼

邮箱：lixinliang@zzu.edu.cn

课题组网站：https://www.x-mol.com/groups/safebattery

学术详情：https://scholar.google.com.hk/citations?user=IxmbKJsAAAAJ&hl=zh-CN

研究方向：安全储能，水系电池，柔性电子，电磁/红外吸收，MXenes等

课题组常年招聘硕士研究生，博士研究生，博士后以及固定教职人员，欢迎联系。

一、个人基本情况

李新亮，博士，河南濮阳人，1993年生，现任郑州大学物理学院教授，博士生导师，国家级海外高层次青年人才。2015年本科毕业于郑州轻工业大学；2018年硕士毕业于西北工业大学，师从殷小玮教授；2021年博士毕业于香港城市大学，师从支春义教授；同年加入香港城市大学-香港大锌能源有限公司从事安全储能科学研究。主要研究方向为二维MXene材料，水系电池/卤素电池储能体系以及电磁波吸收/屏蔽器件研发。主持国家自然科学基金优秀青年（海外）基金1项，国家重点实验室开放课题1项；近年来，共计发表学术论文89篇，以第一作者在Nat. Rev. Chem（4），Joule（2），Matter（2），Chem，EES（2），Adv. Mater（2），Angew（2），Research等国际著名期刊发表论文30余篇，引用13000余次，H-index为59。当前受邀担任Frontiers in Materials国际期刊副主编；Materials Futures送审编辑；Nano Research Energy，The Innovation，Nano Research，Nano-Micro Letters，Materials Futures，eScience，Infomat，JMST等期刊青年编委；Adv. Mater.，ACS Nano等20余国际期刊独立审稿人；国际基金UAEU评审专家；入选科睿唯安高倍引学者；入选斯坦福全球前2%顶尖科学家。

二、工作与学习经历

2011-2015年，郑州轻工业大学，学士

2015-2018年，西北工业大学，硕士（导师：殷小玮）

2018-2021年，香港城市大学，博士（导师：支春义）

2021-2023年，香港城市大学-香港大锌能源有限公司，高级工程师

2023-至今，郑州大学，物理学院，教授

三、主要社会兼职及奖励

副主编：Frontiers in Materials

送审编辑：Materials Futures

青年编委：Nano Research Energy，The Innovation，Nano Research，Nano-Micro Letters，Materials Futures，eScience，Infomat，JMST

国际基金评审专家：UAEU

审稿人：Adv. Mater.，ACS Nano等二十余国际期刊

香港城市大学杰出学术奖（2019-2021）

国家优秀青年基金（海外）

四、近年代表性论文

1.Xinliang Li, Chunyi Zhi* et al., Halogen-powered static conversion chemistry.Nature Reviews Chemistry, 2024, Accepted in principle (31-Jan-2024).

2.Xinliang Li, Chunyi Zhi* et al., Perovskite Cathodes for Aqueous and Organic Iodine Batteries Operating Under One and Two Electrons Redox Modes.Advanced Materials, 2024, 2304557.

3.Xinliang Li, Chunyi Zhi* et al., Three-Electron Transfer-Based High-Capacity Organic Lithium-Iodine (Chlorine) Batteries.Angew. Chemie, 2023, e202310168.

4.Pei Li,Xinliang Li*, Chunyi Zhi* et al., Development of an energy-dense and high-power Li-Cl2 battery using reversible interhalogen bonds.Chem, 2023, DOI: https://doi.org/10.1016/j.chempr.2023.09.021.

5.Xinliang Li*, Chemical tailoring and stitching,Nature Reviews Chemistry, 2023, 7, 381-382.

6.Xinliang Li*, Advancing electrochemistry: Powering electromagnetic energy conversion,Joule, 2023, 7, 457-468.

7.Zhaodong Huang#,Xinliang Li#, Chunyi Zhi* et al., Anion chemistry in energy storage devices, (Co-first author)Nature Reviews Chemistry, 2023. https://doi.org/10.1038/s41570-023-00506-w.

8.Xinliang Li*, Customizing MXene.Matter, 2023. DOI:https://doi.org/10.1016/j.matt.2023.05.033.

9.Xinliang Li, Chunyi Zhi* et al., MXene chemistry, electrochemistry, and energy storage applications,Nature Reviews Chemistry, 2022, 6,389-404. (ESI Hot paper).

10.Xinliang Li, Chunyi Zhi* et al., Low infrared emissivity and strong stealth of Ti-based MXenes,Research, 2022, doi.org/10.34133/2022/9892628.

11.Xinliang Li, Chunyi Zhi* et al., Intrinsic voltage plateau of a Nb2CTx MXene cathode in an aqueous electrolyte induced by high-voltage scanning.Joule, 2021, 5, 2993-3005.

12.Xinliang Li, Chunyi Zhi* et al., Enhanced voltage and doubled capacity of Li-iodine batteries with new two-electron redox chemistry,Angew. Chemie, 2022, e202113576. (ESI Highly cited paper).

13.Xinliang Li, Chunyi Zhi*et al., Lattice Matching and Halogen Regulation for Synergistically Induced Uniform Zinc Electrodeposition by Halogenated Ti3C2MXenes,ACS Nano, 2022, 16, 813-822.

14.Xinliang Li, Chunyi Zhi* et al., Toward a practical Zn powder anode: MXenes as a lattice-match electrons/ions redistributor,ACS Nano, 2021, 15, 14631.

15.Xinliang Li, Chunyi Zhi* et al., Activate I0/I+ redox in an aqueous I2-Zn battery to achieve high voltage plateau,Energy & Environmental Science, 2021, 14, 407. (ESI Highly cited paper).

16.Xinliang Li, Chunyi Zhi* et al., Enhanced Redox Kinetics and Duration of Aqueous I2/I−Conversion Chemistry by MXene Confinement,Advanced Materials, 2021, 2006897. (ESI Highly cited paper).

17.Xinliang Li, Chunyi Zhi* et al., Confining aqueous Zn-Br halide redox chemistry by Ti3C2Tx MXene,ACS Nano, 2021, 15, 1718.

18.Xinliang Li, Chunyi Zhi* et al., Vertically Aligned Sn4+ Preintercalated Ti2CTX MXene Sphere with Enhanced Zn Ion Transportation and Superior Cycle Lifespan,Advanced Energy Materials, 2020, 10, 2001394.

19.Xinliang Li, Chunyi Zhi* et al., In Situ Electrochemical Synthesis of MXenes without Acid/Alkali Usage in/for an Aqueous Zinc Ion Battery,Advanced Energy Materials, 2020, 10, 200791.

20.Xinliang Li, Chunyi Zhi* et al., Phase Transition Induced Unusual Electrochemical Performance of V2CTXMXene for Aqueous Zinc Hybrid-Ion Battery,ACS Nano, 2020, 14,541. (ESI Highly cited paper).

21.Xinliang Li, Xiaowei Yin* et al., Self‐Assembly Core-Shell Graphene‐Bridged Hollow MXenes Spheres 3D Foam with Ultrahigh Specific EM Absorption Performance,Advanced Functional Materials, 2018, 28, 1803938. (ESI Highly cited paper).