姓　　名: 肖　翀
　地　　址: 合肥微尺度物质科学国家研究中心理化大楼8019室
　邮　　编: 230026
　电　　话: 86-
　电　　邮: cxiao@ustc.edu.cn

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　教育与科研经历
　　肖翀，中国科学技术大学特任教授。入选国家自然科学基金委优秀青年基金，中科院青年创新促进会等人才支持计划。近年来一直从事低维无机固体制备、电声结构调控及其在能源转换领域的研究，已在国际专业期刊上以第一作者/通讯作者身份发表SCI论文29篇，影响因子10以上的21篇，其中Acc. Chem. Res.1篇，J. Am. Chem. Soc. 10篇，Nature Communications 1篇，Angew. Chem. Int. Ed. 2篇，Adv. Mater. 2篇，Adv. Energy Mater. 2篇。2篇论文被ESI评为Highly Cited Papers，1篇论文入选JACS亮点文章（Spotlights on Recent JACS Publications），1篇论文入选2012年度《中科院重大科技基础设施重大成果汇编》，博士学位论文相关工作获Springer出版社邀请作为Springer Theses系列丛书向全球出版发行。
　　2017/02–至今 中国科学技术大学，合肥微尺度物质科学国家实验室，特任教授
　　2016/02–2017/01 中国科学技术大学，合肥微尺度物质科学国家实验室，副研究员

　　2015/07–2016/01 中国科学技术大学，化学与材料科学学院，特任副研究员
　　2013/07–2015/06 中国科学技术大学，能源材料化学协同创新中心，博士后
　　2012/07–2013/06 中国科学技术大学，合肥微尺度物质科学国家实验室，助理研究员
　　2009/09–2013/06 中国科学技术大学，博士
　　2006/09–2009/06 中南大学，硕士
　　2002/09–2006/06 中南大学，学士


　目前研究方向

　　本研究组一直从事低维固体化学的研究，通过固体化学、凝聚态物理和近代物理等多学科领域的交叉研究，调节低维固体的电子、声子及自旋结构，优化其输运性质，实现低维无机固体在能源转换领域的应用，为低维固体的可控制备与结构表征提供了理论指导，为基于低维固体的能源转换材料性能优化提新思路，推动其作为缓解能源危机重要手段的实际应用进程。


　在研科研项目
　　1. 国家自然科学基金优秀青年基金，（2017/01-2019/12），主持
低维固体化学
　　2. 中科院青年创新促进会，（2016/01-2019/12），主持
　　3. 合肥物质科学技术中心方向项目培育基金，（2018/01-2019/12），主持
硫属化合物二维固体自旋结构调制及输运行为优化
　　4. 国家自然科学基金联合基金项目，（2019/01-2021/12），主持
层状硫属化合物电热输运协同调控的同步辐射研究
　　5. 科技部国家重点研发计划，（2018/07-2022/06），科研骨干
基于材料基因工程的热电材料高通量研究与应用示范
　　6. 科技部国家重点研发计划，（2017/07-2022/06），科研骨干
面向精细化工绿色过程的纳米界面化学


　代表性论文（*通讯作者）
　　1. Youwen Liu#, Ming Cheng#, Zhihai He, Bingchuan Gu, Chong Xiao*, Tengfei Zhou, Zaiping Guo, Jiandang Liu, Haiyan He, Bangjiao Ye, Bicai Pan, and Yi Xie*. Pothole-rich ultrathin WO3 nanosheets triggering N≡N bond activation of nitrogen for direct nitrate photosynthesis. Angew. Chem. Int. Ed. 2018, 2019, 58, 731-735.
　　2. Sailong Ju#, Wei Bai#, Liming Wu#, Hua Lin#, Chong Xiao*, Shengtao Cui, Zhou Li, Shuai Kong, Yi Liu, Dayong Liu, Guobin Zhang, Zhe Sun*, and Yi Xie*. Evidence for Itinerant Carriers in Anisotropic Narrow-gap Semiconductor by Angle-Resolved Photoemission Spectroscopy. Adv. Mater. 2018, 30, **.
　　3. Hao Zhu, Chong Xiao*, and Yi Xie*. Design of Highly Efficient Thermoelectric Materials Tailoring Reciprocal‐Space Properties by Real‐Space Modification. Adv. Mater. 2018, 30, **.
　　4. Youwen Liu, Chong Xiao*, Pengcheng Huang, Ming Cheng, and Yi Xie*. Regulating the Charge and Spin Ordering of Two-Dimensional Ultrathin Solids for Electrocatalytic Water Splitting. Chem. 2018, 4, 1263–1283.
　　5. Zhou Li,Chong Xiao*, Hao Zhu, and Yi Xie*. Defect Chemistry for Thermoelectric Materials.J. Am. Chem. Soc. 2016, 138, 14810-14819.(Spotlights on Recent JACS Publications)
　　6. Youwen Liu, Xuemin Hua,Chong Xiao*, Tengfei Zhou, Pengcheng Huang, ZaipingGuo, Bicai Pan, and Yi Xie*. Heterogeneous Spin States in Ultrathin Nanosheets Induce Subtle Lattice Distortion To Trigger Efficient Hydrogen Evolution.J. Am. Chem. Soc. 2016, 138, 5087-5092.
　　7. Chong Xiao, Zhou Li, Kun Li, Pengcheng Huang, and Yi Xie*. Decoupling Interrelated Parameters for Designing High Performance Thermoelectric Materials.Acc. Chem. Res. 2014, 47, 1287?1295.
　　8. MengjieLyu, Youwen Liu, YuduoZhi,Chong Xiao*, BingchuanGu, Xuemin Hua, Shaojuan Fan, Yue Lin, Wei Bai, Wei Tong, YoumingZou, Bicai Pan, Bangjiao Ye, and Yi Xie*. Electric-Field-Driven Dual Vacancies Evolution in Ultrathin Nanosheets Realizing Reversible Semiconductor to Half-Metal Transition.J. Am. Chem. Soc. 2015, 137, 15043-15048.
　　9. Zhou Li,Chong Xiao*, Shaojuan Fan, Yu Deng, Wenshuai Zhang, Bangjiao Ye, and Yi Xie*. Dual-vacancies: an Effective Strategy Realizing Synergistic Optimization of Thermoelectric Property in BiCuSeO.J. Am. Chem. Soc. 2015, 137, 6587-6593.
　　10. Lin Liang, Kun Li,Chong Xiao*, Shaojuan Fan, Jiao Liu, Wenshuai Zhang, Wenhui Xu, Wei Tong, Jiaying Liao, Yingying Zhou, Bangjiao Ye, and Yi Xie*. Vacancy Associates-rich Ultrathin Nanosheets for High Performance and Flexible Nonvolatile Memory Device.J. Am. Chem. Soc. 2015, 137, 3102-3108.
　　11. Youwen Liu, Hao Cheng, MengjieLyu, Shaojuan Fan, Qinghua Liu, Wenshuai Zhang, YuduoZhi, Chengming Wang,Chong Xiao*, Shiqiang Wei*, Bangjiao Ye, and Yi Xie*. Low Overpotential in Vacancy-Rich Ultrathin CoSe2 Nanosheets for Water Oxidation.J. Am. Chem. Soc. 2014, 136, 15670?15675.
　　12. Chong Xiao, Jie Xu, Kun Li, Jun Feng, Jinlong Yang, and Yi Xie*. Superionic Phase Transition in Silver ChalcogenideNanocrystals Realizing Optimized Thermoelectric Performance.J. Am. Chem. Soc. 2012, 134, 4287-4293.
　　13. Chong Xiao, Jie Xu, Boxiao Cao, Kun Li, Mingguang Kong, and Yi Xie*. Solid-SolutionedHomojunctionNanoplates with Disordered Lattice: a Promising Approach toward “Phonon Glass Electron Crystal” Thermoelectric Materials.J. Am. Chem. Soc. 2012, 134, 7971-7977.
　　14. Chong Xiao, Xinming Qin, Jie Zhang, Ran An, Jie Xu, Kun Li, Boxiao Cao, Jinlong Yang*, Bangjiao Ye, and Yi Xie*. High Thermoelectric and Reversible p-n-p Conduction Type Switching Integrated in Di-metal Chalcogenide.J. Am. Chem. Soc. 2012, 134, 18460-18466.
　　15. YouwenLiu,ChongXiao*,Mengjie Lyu,Yue Lin,WeizhengCai,PengchengHuang,Wei Tong,YoumingZou,andYi Xie*. Ultrathin Co3S4 Nanosheets that Synergistically Engineer Spin States and Exposed Polyhedra that Promote Water Oxidation under Neutral Conditions.Angew. Chem. Int. Ed. 2015, 127, 11231-11235.
　　16. Meili Guan,Chong Xiao（并列一作）, Jie Zhang, Shaojuan Fan, Ran An, Qingmei Cheng, JunfengXie, Min Zhou, Bangjiao Ye, and Yi Xie*. Vacancy Associates Promoting Solar-driven Photocatalytic Activity of Ultrathin Bismuth OxychlorideNanosheets.J. Am. Chem. Soc. 2013, 135, 10411-10417.
　　17. Haiou Zhu,Chong Xiao（并列一作）, Hao Cheng, Fabian Grote, Xiaodong Zhang, Tao Yao, Zhou Li, Chengming Wang, Shiqiang Wei*, Yong Lei & Yi Xie*. Magnetocaloric effects in a freestanding and flexible graphene-based superlattice synthesized with a spatially confined reaction.Nat. Commun. 2014, 5, 3960.
　　18. Youwen Liu,Chong Xiao*, Zhou Li and Yi Xie*. Vacancy Engineering for Tuning Electron and Phonon Structures of Two-Dimensional Materials.Adv. Energy Mater. 2016, 6, **.
　　19. Youwen Liu, Lin Liang,Chong Xiao*, Xuemin Hua, Zhou Li, Bicai Pan and Yi Xie*. Promoting Photo-generated Holes Utilization in Pore-rich WO3 Ultrathin Nanosheets for Efficiently Oxygen-evolving Photoanode.Adv. Energy Mater. 2016, 6, **.