肖 翀


 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:86-551-63606649
 电  邮:




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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


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 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。


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 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


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 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, 1704733.
  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, 1802000.
  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, 1600436.
  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, 1600437.


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