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尹 康

主要简介:

尹康,博士,讲师。尹康老师于2011年7月获得武汉理工大学材料物理专业工学学士学位;2017年获得武汉理工大学材料物理与化学专业工学博士学位,师从著名材料科学专家唐新峰教授,并在武汉理工大学材料复合新技术国家重点实验室长期从事先进金属功能材料以及先进半导体能源转换材料的研究。现为南京工程学院材料科学与工程学院功能材料系讲师,主要研究领域为新型热电半导体材料、光催化材料及高熵合金。目前,尹康老师已主持省部级项目1项,校级项目1项,其他项目1项,并在国际顶级学术期刊上发表多篇论文,其中SCI论文12篇,中科院一区论文8篇、二区论文3篇、三区论文1篇,Chemistry of Materials等影响因子大于3.0的论文10篇,文章被引用超过450次。尹康老师曾多次在International Conference on Thermoelectrics等国际学术会议以及中国材料大会等国内学术会议上做口头学术报告,此外还受邀担任RSC Advances、Scripta Materialia等多个国际学术期刊的审稿人

联系方式:南京市江宁科学园弘景大道1号南京工程学院材料科学与工程学院329室,邮编:211167;手机:17323481536,邮箱:yinkang@njit.edu.cn,个人主页:https://www.researchgate.net/profile/Kang_Yin4

主研方向:新型热电半导体材料;光催化材料;高熵合金

在研项目:

[1] 江苏省自然科学基金青年项目:Mg2Si1-x-y-zGexSnyPbz基材料的SHS/QP非平衡制备及其热电性能研究(BK20191021),2019.07~2022.06,20万元,主持

[2] 南京工程学院引进人才启动基金:能带结构调控结合点缺陷调控优化Mg2Si1-x-y-zGexSnyPbz基固溶体的热电性能,2019.09~2021.08,20万元,主持

[3] 武汉理工大学优秀博士论文培育基金:Mg-Si-Sn基高性能热电材料长期服役时的热电性能及机械性能稳定性研究(WUT: 2013-YB-013),2013.05~2015.04,5万元,主持

[4] 国家自然科学基金面上项目:掺杂局域共振态效应结合原位相分离纳米结构提高Mg2Si1-xSnx基材料热电性能研究(51172174),2012.01~2015.12,6万元,参与

[5] 国家自然科学基金重大专项:功能复合材料新结构创制与制备科学基础(51521001),2015.12~2018.01,1050万元,参与

[6] 中国科技部973计划:汽车尾气热电发电回收利用关键技术及其示范轿车合作研究开发(2011DFB60150),2011.01~2013.12,1918万元,参与

论文及专利:

[1] Kang Yin, Xianli Su, Yonggao Yan, Yonghui You, Qiang Zhang, Ctirad Uher, Mercouri G. Kanatzidis, Xinfeng Tang. Optimization of the electronic band structure and the lattice thermal conductivity of solid solutions according to simple calculations: A canonical example of the Mg2Si1–x–yGexSny ternary solid solution[J]. Chemistry of Materials, 2016, 28 (15): 5538-5548. (SCI一区,IF: 9.466,引用6次)

[2] Kang Yin, Qiang Zhang, Yun Zheng, Xianli Su, Xinfeng Tang, Ctirad Uher. Thermal stability of Mg2Si0.3Sn0.7 under different heat treatment conditions[J]. Journal of Materials Chemistry C, 2015, 3 (40): 10381-10387. (SCI一区,IF: 5.256,引用8次)

[3] Kang Yin, Xianli Su, Yonggao Yan, Hao Tang, Mercouri G. Kanatzidis, Ctirad Uher, Xinfeng Tang. Morphology modulation of SiC nano-additives for mechanical robust high thermoelectric performance Mg2Si1−xSnx/SiC nano-composites[J]. Scripta Materialia, 2017, 126: 1-5. (SCI一区,IF: 3.747,引用6次)

[4] Kang Yin, Yonggao Yan, Xianli Su, Ctirad Uher, Xinfeng Tang. In-situ nanostructure design leading to high figure of merit in eco-friendly stable Mg2Si0.30Sn0.70 solid solution[J]. RSC Advances, 2016, 6 (20): 16824-16831. (SCI二区,IF: 3.108,引用5次)

[5] Wei Liu, Kang Yin, Qingjie Zhang, Ctirad Uher, Xinfeng Tang. Eco-friendly high-performance silicide thermoelectric materials[J]. National Science Review, 2017, 4 (4): 611-626.(SCI二区,IF:8.843,引用1次)

[6] Wei Liu, Kang Yin, Xianli Su, Han Li, Yonggao Yan, Xinfeng Tang, Ctirad Uher. Enhanced hole concentration through Ga doping and excess of Mg and thermoelectric properties of p-type Mg2(1+z)(Si0.3Sn0.7)1−yGay[J]. Intermetallics, 2013, 32: 352-361. (SCI二区,IF: 3.140,引用25次)

[7] Wei Liu, Xiaojian Tan, Kang Yin, Huijun Liu, Xinfeng Tang, Jing Shi, Qingjie Zhang, Ctirad Uher. Convergence of Conduction Bands as a Means of Enhancing Thermoelectric Performance of n-type Mg2Si1-xSnx Solid Solutions[J]. Physical Review Letters, 2012, 108 (16): 166601. (SCI一区,IF:8.462,引用349次,高被引)

[8] Wei Liu, Qiang Zhang, Kang Yin, Hang Chi, Xiaoyuan Zhou, Xinfeng Tang, Ctirad Uher. High figure of merit and thermoelectric properties of Bi-doped Mg2Si0.4Sn0.6 solid solutions[J]. Journal of Solid State Chemistry, 2013, 203: 333-339. (SCI三区,IF: 2.299,引用58次) [

9] Wei Liu, Xinfeng Tang, Han Li, Kang Yin, Jeff Sharp, Xiaoyuan Zhou, Ctirad Uher. Enhanced thermoelectric properties of n-type Mg2.16(Si0.4Sn0.6)1-ySby due to nano-sized Sn-rich precipitates and an optimized electron concentration[J]. Journal of Materials Chemistry, 2012, 22 (27): 13653-13661. (SCI一区,IF: 8.867,引用69次)

[10] Qiang Zhang, Yun Zheng, Xianli Su, Kang Yin, Xinfeng Tang, Ctirad Uher. Enhanced power factor of Mg2Si0.3Sn0.7 synthesized by a non-equilibrium rapid solidification method[J]. Scripta Materialia, 2, 2015, 96: 1-4. (SCI一区,IF: 3.747,引用23次)

[11] Wei Liu, Hang Chi, Hui Sun, Qiang Zhang, Kang Yin, Xinfeng Tang, Qingjie Zhang, Ctirad Uher. Advanced thermoelectrics governed by a single parabolic band: Mg2Si0.3Sn0.7, a canonical example[J]. Physical Chemistry Chemical Physics, 2014, 16 (15): 6893-6897. (SCI二区,IF: 4.123,引用38次)

[12] Hongyao Xie, Xianli Su, Gang Zheng, Ting Zhu, Kang Yin, Yonggao Yan, Ctirad Uher, Mercouri G. Kanatzidis, Xinfeng Tang. The role of Zn in chalcopyrite CuFeS2: Enhanced thermoelectric properties of Cu1–xZnxFeS2 with in situ nanoprecipitates[J]. Advanced Energy Materials, 2017, 7(3): 1601299. (SCI一区,IF: 16.721,引用9次)

[13] 一种快速可控制备Mg-Si-Sn基热电材料的方法,发明人:唐新峰,尹康,邱思源,张强,鄢永高,苏贤礼,授权号:ZL201410446023.5;

[14] 一种快速制备高性能Mg2Si0.3Sn0.7基热电材料的新方法,发明人:唐新峰,张强,郑云,柳伟,尹康,授权号:ZL201310252012.9。

[15] 尹康,董运洪,周前能,张丽,戚飞,张文霞.微电子专业固体物理课程教学改革分析[J].西部素质教育,2018(20):144-146.

[16] 尹康,周前能,张丽,冯世娟,戚飞,张文霞.微电子专业半导体物理课程教学改革初探[J].教育现代化,2018,5(45):50-52.

[17] 戚飞,尹康,张文霞,周前能,张丽.新工科背景下固体物理课程教学改革探索[J].西部素质教育,2018,4(19):188-189.

发布时间:2019-12-06 浏览:
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