专家信息：

王聪，北京航空航天大学物理学院教授，博士生导师，主要从事凝聚态物理与材料物理领域的教学与科研工作。1989年兰州大学物理系获学士学位，1995年中科院物理所获博士学位，1998年德国洪堡学者，2006年教育部新世纪人才，曾先后在德国、法国、英国、美国作为访问学者短期工作，目前与法国、德国、美国、澳大利亚、日本等国有长期科研合作关系。在Adv. Mater. ,Phys. Rev. 系列, Chem. Mater. Acta Materialia ，ACS Appl. Mater. Interfaces Solar Energy Mater. & Solar Cell等刊物上发表论文超过230篇， SCI收录近200篇，SCI他引超过3000次；授权发明专利12项，获得2013年教育部自然科学二等奖（第四作者）。现兼任中国物理学会理事，中国晶体学会理事，中国物理学会粉末衍射专业委员会副主任，中国材料学会环境材料委员会副主任，国家能源太阳能热发电技术研发中心技术委员会委员，国际衍射数据中心(ICDD)委员；《硅酸盐学报》编委委员，《Journal of Materiomics》编委委员；《北京航空航天大学学报》编委委员，《中国材料进展》编委委员，《热能动力工程》编委委员，国际中文期刊《纳米技术》(Hans J. of Nanotechnology)编委委员，国际中文期刊《凝聚态物理学进展》编委委员，国际期刊《NAT》编委委员，国际期刊Journal of Solar Energy ResearchUpdates 主编。The 4th Chinese-FrenchSymposium on Advanced Materials (CFSAM-4)(Oct. 30 - Nov. 3, 2014, Beijing,China) 组委会主席;第一届全国反钙钛矿及反常热膨胀功能材料会议（北京，2013年11月29-12月1日）大会主席。国际邀请报告30次以上。科研方向与研究领域包括：①反钙钛矿化合物的反常（负、低、零膨胀）热膨胀性质、及其关联的磁、电、热输运性质, 如“晶格-自旋-电荷”强关联的多场耦合，磁结构的多场调控、磁热效应、磁致伸缩、压磁效应、反常霍尔效应、超导、零电阻温度系数等；②太阳能聚焦热发电高温集热器、及耐高温的太阳光谱选择性吸收涂层（光-热转换多层膜），辐射致冷、热控薄膜、储热材料等的研究。

教育经历：

1995,9-1997,7 北京科技大学理化系, 博士后

1992,9-1995,7 中国科学院物理研究所, 博士

1989,9-1992,7 兰州大学材料科学系, 硕士

1985,9-1989,7 兰州大学物理系学士

工作经历：

1997,7 北京科技大学, 副教授任职资格

1997,10-1999,7德国卡尔斯鲁尔大学物化研究所, 洪堡学者

1999,8-2003,6 北京航空航天大学理学院, 副教授

2002,7-2003,10法国奥尔良大学GREMI实验室, 访问学者

2003,7 北京航空航天大学理学院, 教授

2004,7 北京航空航天大学理学院, 博士生导师

2005,9 北京航空航天大学理学院教育部新世纪优秀人才

2007,6 北京航空航天大学理学院北京市优秀人才计划

2009,9-12 美国国家标准与技术研究所（NIST）高访学者

至今北京航空航天大学物理学院教授，博导

教学情况：

主讲课程：

物理系本科生专业课程：《热学》、《热力学统计物理》、《凝聚态物理导论》。

物理专业研究生课程：《固体物理》（下）、《微结构与衍射物理》。

培养研究生情况：

至今已培养博士，硕士40多名，目前在读研究生10人。

联系方式：

congwang@buaa.edu.cn

010-82338346

科学研究：

研究方向：

主要从事物质晶体结构分析，光电信息薄膜，材料晶格变化及其关联电、磁性质，太阳能能源材料的研究。

① 反钙钛矿化合物的反常（负、低、零膨胀）热膨胀性质、及其关联的磁、电、热输运性质；磁致伸缩，压磁、磁热效应，反常霍尔效应等。

② 太阳能聚焦热发电用中高温太阳光谱选择性吸收涂层（光-热转换材料）；辐射致冷，热控薄膜；超表面的光学性质，光谱选择性等。

承担科研项目情况：

承担和参加国家自然科学基金，国家863项目，国家973项目，航天科技支撑计划项目等近20项。

1． 国家自然科学基金项目：反钙钛矿结构M3XN(C)材料的反常晶格热膨胀，及其与磁相变、电输运性质的关联，2007-03-31。

2． 国家自然科学基金项目：新型负热膨胀氧化物材料的结构设计、性能与机理研究，2000-03-31。

3． 国家自然科学基金项目：太阳能槽式热发电用高温稳定的光谱选择性吸收涂层M/NbXN/NbXON/Si3N4(X=Al,Cu,Zr,M=Cu,Si)的研究，2009-03-20。

4． 国家自然科学基金重点项目(项目批准号：51732001)， 项目名称: “宽温域负/零膨胀功能材料的研究” (2018,1-2022,12)。

5． 国家自然科学基金(项目批准号：51572010)，项目名称：”锰基反钙钛矿结构Mn3AX化合物压热-磁热效应的研究” (2016.01- 2019.12)。

科研成果：

1、 含稀土氧化物高温超导体系热力学、相结构和相关系，获国家冶金工业局科学技术进步二等奖。

2、“Ln_2-x-yLa_yCe_xCuO_4-δ电子型超导体系的晶胞参数与超导电性关系的研究”论文，获第四届北京青年优秀科技论文一等奖。

3、王天民, 王聪,光转换氧化物材料的设计、电子结构调控及性能的研究. 北京市,北京航空航天大学,2009-10-01.

4、王天民,王聪, 环境友好型光功能材料应用基础研究. 北京市,北京航空航天大学,2006-09-01.

5、张俊英,王聪, 多功能陶瓷涂层及其应用. 北京市,北京航空航天大学,2005-12-03.

发明专利：

发明公开：

[1]米志龙, 王聪, 郭炳晖, 殷子樵, 靳东辉, 郑志明. 一种基于联邦学习的中毒攻击防御方法及装置[P]. 北京市: CN119475346A, 2025-02-18.

[2]孙莹, 丘傲, 安世海, 王聪. 一种基于压力驱动水相变的新型制冷方法[P]. 北京市: CN118776149A, 2024-10-15.

[3]陈云霞, 杜雨潇, 王聪. 基于QTA-TLBO双层多目标算法的电池成组排布均衡策略优化方法[P]. 北京市: CN116522670A, 2023-08-01.

[4]孙莹, 安世海, 王聪, 郝维昌, 杜轶, 史可文. 一种布里奇曼活塞圆筒超高静水压力磁性测量装置及方法[P]. 北京市: CN116381572A, 2023-07-04.

[5]孙莹, 安世海, 王聪, 郝维昌, 杜轶, 史可文. 一种测量样品综合物性的布里奇曼活塞加压装置[P]. 北京市: CN116380664A, 2023-07-04.

[6]陈云霞, 周子懿, 王聪, 高昊天. 基于可解释性神经网络的跳水电池特征识别方法[P]. 北京市: CN116298915A, 2023-06-23.

[7]王聪, 孙丙辉, 孙莹. 一种用于槽式热发电高温真空集热管的太阳光谱选择性吸收涂层及其制备方法[P]. 北京市: CN116123741A, 2023-05-16.

[8]王聪, 任杰, 孙莹. 一种高温稳定的DMD结构太阳光谱选择性吸收涂层[P]. 北京市: CN116105387A, 2023-05-12.

[9]王聪, 崔进, 孙莹, 史可文, 赵巍胜. 一种利用负热膨胀或巨热膨胀调控磁性层磁态实现信息存储的方法[P]. 北京市: CN114744107A, 2022-07-12.

[10]陈云霞, 朱家晓, 王聪. 基于量子滤波模型的时序信号预测方法[P]. 北京市: CN114528878A, 2022-05-24.

[11]陈云霞, 朱家晓, 王聪, 林坤松. 基于最近邻KNN和改进波函数的量子聚类方法[P]. 北京市: CN114529004A, 2022-05-24.

[12]王聪, 刘欢, 孙莹, 任杰, 梁冬冬. 一种高性能辐射制冷无机多层膜[P]. 北京市: CN114086121A, 2022-02-25.

[13]孙莹, 崔进, 王聪, 袁秀良. 一种具有巨热滞负热膨胀性质材料的制备及其在内嵌型管接头领域的应用[P]. 北京市: CN112499640A, 2021-03-16.

[14]孙莹, 袁秀良, 王聪. 一种多相复合零热膨胀材料设计方法[P]. 北京市: CN109190265A, 2019-01-11.

[15]孙莹, 赵文君, 王聪, 卢会清, 王蕾, 史可文. 一种具有负热膨胀性质的合金材料及其制备方法[P]. 北京: CN107385305A, 2017-11-24.

[16]王聪, 宁玉平, 王文文, 孙莹, 宋平, 满红亮, 张翼麟, 代蓓蓓. 一种太阳光谱选择性吸收涂层及其制备方法[P]. 北京: CN106884145A, 2017-06-23.

[17]陶飞, 王聪, 张霖, 邹孝付, 高健. 基于FPGA的动态重构技术应用平台[P]. 北京: CN104008024A, 2014-08-27.

[18]陶飞, 刘轶龙, 王聪, 张霖. 基于FPGA的高维卡尔曼滤波器及其实现方法[P]. 北京: CN103366058A, 2013-10-23.

[19]王聪, 薛亚飞, 刘宇, 张放放. 一种太阳能选择性吸收涂层及其制备方法[P]. 北京: CN101922816A, 2010-12-22.

[20]王聪, 崔银芳, 吴素娟. 莲藕状纳米片组成的氧化镍微球的制备方法[P]. 北京: CN101905904A, 2010-12-08.

[21]王聪, 孙莹, 褚立华, 温永春, 聂曼. 一种具有近零热膨胀特性的“反钙钛矿结构”固体材料[P]. 北京: CN101734722A, 2010-06-16.

[22]王聪, 孙莹, 褚立华, 温永春, 聂曼. 具有近零热膨胀特性的“反钙钛矿结构”金属间化合物材料[P]. 北京: CN101734730A, 2010-06-16.

[23]王聪, 孙莹, 褚立华, 温永春, 聂曼. 一种具有低电阻温度系数的反钙钛矿类材料及其制备方法[P]. 北京: CN101734731A, 2010-06-16.

[24]王聪, 孙莹, 纳元元, 褚立华, 温永春, 聂曼. 一种“反钙钛矿”结构的三元锰氮化物Mn₃CuN薄膜[P]. 北京: CN101734863A, 2010-06-16.

[25]王聪, 薛亚飞, 刘宇. 一种太阳能选择性吸收涂层及其制备方法[P]. 北京: CN101737982A, 2010-06-16.

[26]王聪, 刘宇, 薛亚飞. 一种太阳光谱选择性吸收涂层及其制备方法[P]. 北京: CN101737983A, 2010-06-16.

[27]王聪, 崔银芳, 吴素娟. 氧化锌/氧化亚铜纳米异质结光催化材料及其制备方法[P]. 北京: CN101708471A, 2010-05-19.

[28]王聪, 崔银芳, 吴素娟. 均匀、中孔结构的氧化镍纳米薄片的制备方法[P]. 北京: CN101704558A, 2010-05-12.

[29]王聪, 杨海刚, 刁训刚, 王怀义, 朱开贵, 王天民. 一种无机全固态电致变色元件及其制备方法[P]. 北京: CN101188886, 2008-05-28.

[30]杜心康, 王聪, 周珑, 王天民, 陈步亮. 一种新型太阳选择性吸收涂层[P]. 北京: CN101169485, 2008-04-30.

[31]王天民, 安惠中, 王聪, 张俊英. 一种新型复合蓄能光催化材料及其制备方法[P]. 北京: CN101049570, 2007-10-10.

发明授权：

[1]陈云霞, 朱家晓, 王聪. 基于量子滤波模型的时序信号预测方法[P]. 北京市: CN114528878B, 2024-12-20.

[2]王聪, 刘欢, 孙莹, 任杰, 梁冬冬. 一种高性能辐射制冷无机多层膜[P]. 北京市: CN114086121B, 2022-11-22.

[3]孙莹, 袁秀良, 王聪. 一种多相复合零热膨胀材料设计方法[P]. 北京市: CN109190265B, 2022-03-01.

[4]孙莹, 崔进, 王聪, 袁秀良. 一种具有巨热滞负热膨胀性质材料的制备及其在内嵌型管接头领域的应用[P]. 北京市: CN112499640B, 2021-12-17.

[5]王聪, 宁玉平, 王文文, 孙莹, 宋平, 满红亮, 张翼麟, 代蓓蓓. 一种太阳光谱选择性吸收涂层及其制备方法[P]. 北京市: CN106884145B, 2019-09-17.

[6]孙莹, 赵文君, 王聪, 卢会清, 王蕾, 史可文. 一种具有负热膨胀性质的合金材料及其制备方法[P]. 北京市: CN107385305B, 2019-08-23.

[7]陶飞, 刘轶龙, 王聪, 张霖. 基于FPGA的高维卡尔曼滤波器及其实现方法[P]. 北京市: CN103366058B, 2017-02-08.

[8]王聪, 刘宇, 薛亚飞. 一种太阳光谱选择性吸收涂层的制备方法[P]. 北京市: CN101737983B, 2012-12-12.

[9]王聪, 孙莹, 褚立华, 温永春, 聂曼. 一种具有低电阻温度系数的反钙钛矿类材料及其制备方法[P]. 北京市: CN101734731B, 2012-11-21.

[10]王聪, 孙莹, 纳元元, 褚立华, 温永春, 聂曼. 一种“反钙钛矿”结构的三元锰氮化物Mn-(3)CuN薄膜[P]. 北京市: CN101734863B, 2012-08-08.

[11]王聪, 孙莹, 褚立华, 温永春, 聂曼. 具有近零热膨胀特性的“反钙钛矿结构”金属间化合物材料的制备方法[P]. 北京市: CN101734730B, 2012-07-18.

[12]王聪, 薛亚飞, 刘宇, 张放放. 一种太阳能选择性吸收涂层及其制备方法[P]. 北京市: CN101922816B, 2012-07-18.

[13]王聪, 刘宇, 薛亚飞. 一种太阳能选择性吸收涂层及其制备方法[P]. 北京市: CN101737982B, 2012-05-30.

[14]王聪, 崔银芳, 吴素娟. 氧化锌/氧化亚铜纳米异质结光催化材料及其制备方法[P]. 北京市: CN101708471B, 2011-09-28.

[15]杜心康, 王聪, 周珑, 王天民, 陈步亮. 一种新型太阳选择性吸收涂层[P]. 北京市: CN100543499C, 2009-09-23.

[16]王天民, 安惠中, 王聪, 张俊英. 一种复合蓄能光催化材料及其制备方法[P]. 北京市: CN100496723C, 2009-06-10.

[17]王聪, 杨海刚, 刁训刚, 王怀义, 朱开贵, 王天民. 一种无机全固态电致变色元件的制备方法[P]. 北京市: CN100498493C, 2009-06-10.

论文专著：

出版专著：

1、《固态表面、界面与薄膜》-Hans Lvth著， 王聪，孙莹，王蕾 译，高等教育出版社，2019年3月出版。

发表英文论文：

[1]Ya-Ning, Sun; Lei, Wang; Cong, Wang.Anharmonicity and lattice thermal conductivity of negative thermal expansion materials Zn(CN)₂ and Cd(CN)₂ by first-principles calculations.Dalton Transactions, 2025, 54(2): 764-773.

[2]Han, Zhong; Yangying, Zhou; Cong, Wang; Chunlei, Wan; Kunihito, Koumoto; Zhiping, Wang; Hong, Lin.A perovskite solar cell-photothermal-thermoelectric tandem system for enhanced solar energy utilization.Science and Technology of Advanced Materials, 2024, 25(1).

[3]Jiechen, Luo; Kaixin, Zou; Bing, Wang; Xiuliang, Yuan; Shihai, An; Zhijie, Ma; Kewen, Shi; Sihao, Deng; Juping, Xu; Wen, Yin; Wei‐Hua, Wang; Cong, Wang; Ying, Sun.Zero Thermal Expansion Behavior in High‐Entropy Anti‐Perovskite Mn₃Fe_0.2Co_0.2Ni_0.2Mn_0.2Cu_0.2N.Advanced Functional Materials, 2024, 34(52).

[4]Wang, Jingyao; Shi, Kewen*; Sun, Ying; Deng, Sihao; Zhang, Kaiqi; Cui, Jin; Hu, Dongmei; Zhao, Weisheng; Wang, Cong*.A new noncollinear triangle antiferromagnetic phase in Mn₃GaN by Cr doping.Materials Today Physics, 2024, 42: 101362.

[5]Yuan, Xiuliang; Sun, Ying*; Guo, Huaiming; Du, Yi; Shi, Kewen; Hao, Weichang*; Wang, Cong*.A Delicate Balance Between Spin-Wave Mediated Weak Localization and Electron-Phonon Scattering in the Design of Zero Temperature Coefficient of Resistivity.Small, 2024.

[6]Liang, Dongdong; Ren, Jie; Liu, Huan; Yang, Yingxin; Ambar, Atsha; Sun, Ying*; Wang, Cong*.Efficient Strategy for Radiative Cooling Based on Ultra-Broad-Band Infrared Regulation of Flexible Bilayer Film.ACS Applied Materials & Interfaces, 2023, 15(47): 54875-54885.

[7]Ren, Jie; Liang, Dongdong; Liu, Huan; Yang, Yingxin; Li, Aoyu; Sun, Ying*; Wang, Cong*.High-temperature thermal stable solar selective absorbing coating based on the dielectric-metal-dielectric structure.Materials Today Physics, 2023, 34: 101092.

[8]Ma, Zhijie; Sun, Ying*; Lu, Huiqing; Shi, Kewen; Deng, Sihao; Yuan, Xiuliang; Hao, Weichang; Du, Yi; Xia, Yuanhua; Fang, Leiming; Yang, Jinbo; Yang, Wenyun; Colin, Claire V.; Guo, Huaiming; Ma, Xiaobai; Chen, Dongfeng; Wang, Cong.Noncoplanar antiferromagnetism induced zero thermal expansion behavior in the antiperovskite Mn₃Sn_0.5Zn_0.5C_x..Physical Review B, 2023, 107(9): 094412.

[9]Han, Huimin; Sun, Ying*; Shi, Kewen; Yuan, Xiuliang; Ren, Jie; Cui, Jin; Hu, Dongmei; Zhang, Kaiqi; Wang, Cong*.Sign reversal of the anomalous Hall effect in antiperovskite (110)-oriented Mn_3.19Ga_0.81N1-δ film.Journal of Applied Physics, 2022, 132(23): 233902.

[10]Wang, Lei*; Chen, Ying; Miura, Hideo; Suzuki, Ken; Wang, Cong*.Penta-graphene and phagraphene: thermal expansion, linear compressibility, and Poisson's ratio.Journal of Physics: Condensed Matter , 2022, 34(50): 505301.

[11]Wang, Lei*; Chen, Ying; Miura, Hideo; Suzuki, Ken; Wang, Cong*.Tunable uniaxial, area, and volume negative thermal expansion in quartz-like and diamond-like metal-organic frameworks.RSC Advances, 2022, 12(34): 21770-21779.

[12]Yuan, Xiuliang; Sun, Ying*; Guo, Huaiming; Shi, Kewen; Song, Ping; Han, Huimin; Cui, Jin; An, Shihai; Huang, Rongjin; Li, Laifeng; Wang, Cong*.Design of negative/nearly zero thermal expansion behavior over a wide temperature range by multi-phase composite.Materials and Design, 2021, 203: 109591.

[13]Deng, Sihao*; Heid, Rolf; Bohnen, Klaus-Peter; Wang, Cong; Surgers, Christoph.Minority-spin conduction in ferromagnetic Mn5Ge₃Cx and Mn5Si3Cx films derived from anisotropic magnetoresistance and density functional theory.Physical Review B, 2021, 103(13): 134439.

[14]Wen, Yongchun*; Chen, MuYang; Gu, Daguo; Zhang, Xia; Wang, Cong; Hou, Haijun; Yao, Wei.First-principles study of the structural, electronic, and magnetic properties of Mn-doped Ni₃XN(X=Al, Cu, In) compounds.Solid State Communications, 2021, 325: 114168.

[15]Ning, Yuping; Wang, Cong*; Wang, Wenwen; Tomasella, Eric; Sun, Ying; Song, Ping; Hao, Weichang; Bousquet, Angelique.Improvement of thermal stability of ZrSiON based solar selective absorbing coating.Journal of Materiomics, 2020, 6(4): 760-767.

[16]Lu, Huiqing; Sun, Ying*; Shi, Kewen; Cui, Jin; Han, Huimin; Wang, Cong*.Negative thermal expansion, magnetic and electronic transport properties in antiperovskite compounds Mn3Ga1-xAgxN (0 <= x <= 1.0).Journal of Magnetism and Magnetic Materials, 2020, 514: 167137.

[17]Song, Ping; Wang, Cong*; Ren, Jie; Sun, Ying; Zhang, Yong; Bousquet, Angelique; Sauvage, Thierry; Tomasella, Eric.Modulation of the cutoff wavelength in the spectra for solar selective absorbing coating based on high-entropy films.
International Journal of Minerals Metallurgy and Materials, 2020, 27(10): 1371-1378.

[18]Cui, Jin; Sun, Ying*; Yuan, Xiuliang; Shi, Kewen; Huang, Rongjin; Li, Laifeng; Wang, Cong.Discovery of negative thermal expansion with giant thermal hysteresis in Fe₃NiBx.Scripta Materialia, 2020, 183: 149-152.

[19]Nasr, Maryline; Huang, Wenshi; Bittencourt, Carla; Cui, Dandan; Sun, Ying; Wang, Lei; Caperaa, Nathalie Gaillard; Ning, Yuping; Song, Ping; Bonnet, Pierre*; Wang, Cong*.Synthesis of BiOF/TiO₂ Heterostructures and Their Enhanced Visible-Light Photocatalytic Activity.European Journal of Inorganic Chemistry, 2020, 2020(3): 253-260.

[20]Song, Ping; Wang, Cong*; Sun, Ying; Bousquet, Angelique; Tomasella, Eric.Broadband and Wide-Temperature-Range Thermal Emitter with Super-Hydrophobicity Based on Oxidized High-Entropy Film.ACS Applied Materials & Interfaces, 2020, 12(3): 4123-4128.

[21]Wang, Lei*; Dove, Martin T.; Shi, Jia; Sun, Binghui; Hu, Dongmei; Wang, Cong*.Adjustable uniaxial zero thermal expansion and zero linear compressibility in unique hybrid semiconductors: the role of the organic chain.Dalton Transactions, 2020, 49(3): 719-728.

[22]Wang, Lei*; Wang, Cong; Chen, Ying.Black phosphorene exhibiting negative thermal expansion and negative linear compressibility.Journal of Physics: Condensed Matter , 2019, 31(46): 465003.

[23]Yu, Hang; Guo, Junji; Wang, Cong; Zhang, Junying; Liu, Jiang; Zhong, Xiaolan*; Dong, Guobo; Diao, Xungang*.High performance in electrochromic amorphous WOx film with long-term stability and tunable switching times via Al/Li-ions intercalation/deintercalation.Electrochimica Acta, 2019, 318: 644-650.

[24]Hu, Yong; Zheng, Xinqi; Ma, Guodong; Lu, Huiqing; Zhang, Lei; Zhang, Changsheng; Xia, Yuanhua; Hao, Yiqing; He, Lunhua; Chen, Jie; Shen, Feiran; Wang, Shouguo; Wang, Cong; Wang, Dunhui*; Du, Youwei.Giant Negative Thermal Expansion in Antiferromagnetic CrAs-Based Compounds.Physical Review Applied, 2019, 12(3): 034027.

[25]Deng, Sihao*; Fischer, Gerda; Uhlarz, Marc; Wosnitza, Joachim; Bohnen, Klaus Peter; Heid, Rolf; Wang, Cong; Suergers, Christoph.Controlling Chiral Spin States of a Triangular-Lattice Magnet by Cooling in a Magnetic Field.Advanced Functional Materials, 2019, 29(37): 1900947.

[26]Sun Ying; Yuan Xiuliang; Tian Xingbin; Zhao Suyang; Wu Meimei; Wang Zhihao; Hu Pengwei; Wang Cong*.Controllable nearly zero thermal expansion behavior in Mn₃Zn1-xCrxN (0 <= x <= 0.20) compounds.Scripta Materialia, 2019, 162: 108-111.

[27]Sun Ying; Hu Pengwei; Shi Kewen; Wu Hui; Deng Sihao; Huang Qingzhen; Mao Zhiyong; Song Ping; Wang Lei; Hao Weichang; Deng Shenghua; Wang Cong*.Giant zero-field cooling exchange-bias-like behavior in antiperovskite Mn₃Co_0.61Mn_0.39N compound.PHYSICAL REVIEW MATERIALS, 2019, 3(2): 024409.

[28]Xing, Qiuwei; Ma, Jiang; Wang, Cong; Zhang, Yong*.High-Throughput Screening Solar-Thermal Conversion Films in a Pseudobinary (Cr, Fe, V)-(Ta, W) System.ACS Combinatorial Science, 2018, 20(11): 602-610.

[29]Yan Jun; Shi Kewen; Deng Sihao; Zhao Wenjun; Lu Huiqing; Sun Ying; Chen Yunlin*; Wang Cong*.The influence of combination of the first-order and second-order phase transitions on magnetocaloric effects in Mn₃Cu_1-xFe_xN.Solid State Communications, 2018, 282: 33-37.

[30]Deng, Sihao*; Fischer, Gerda; Srichandan, Sasmita; Wang, Lielin; Wang, Cong; Suergers, Christoph.Local Joule Heating Mimicking Electroresistance-Like Behavior in Antiperovskite Mn3GaC.Advanced Electronic Materials, 2018, 4(9): 1800028.

[31]Sheng Wen Jie; Yang Xiao; Zhu Jie; Wang Cong; Zhang Yong.Amorphous phase stability of NbTiAlSiN (X) high-entropy films.Rare Metals, 2018, 37(8): 682-689.

[32]Lu Huiqing; Sun Ying; Shi Kewen; Wang Lei; Wang Wei; Huang Rongjing; Yuan Xiuliang; Yan Jun; Diao Xungang; Wang Cong.Effects of Ni substitution on magnetism and thermal expansion of antiperovskite Mn3Ga1-xNixN (0 <= x <= 1.0).Ceramics International, 2018, 44(8): 9574-9580.

[33]Cheng Jiushan; Frezet Lawrence; Bonnet Pierre; Wang Cong.Preparation and Photocatalytic Properties of a Hierarchical BiOCl/BiOF Composite Photocatalyst.Catalysis Letters, 2018, 148(5): 1281-1288.

[34]Shi, Xinlu; Wen, Yongchun*; Gu, Daguo; Hou, Haijun; Zhang, Yaheng; Wang, Cong.The structure, magnetism and electronic transport properties of Mn3Sn1-xZnxC(x=0, 0.1, 0.2, 0.3, 0.4, 0.5).Journal of Alloys and Compounds, 2018, 739: 934-938.

[35]Deng Sihao; Sun Ying; Wu Hui; Shi Zaixing; Wang Lei; Yan Jun; Shi Kewen; Hu Pengwei; Diao Xungang; Huang Qingzhen; Suergers Christoph; Wang Cong.Phase separation and zero thermal expansion in antiperovskite Mn3Zn0.77Mn0.19N0.94: An in situ neutron diffraction investigation.Scripta Materialia, 2018, 146: 18-21.

[36]Shi, Kewen; Sun, Ying*; Colin, Claire, V; Wang, Lei; Yan, Jun; Deng, Sihao; Lu, Huiqing; Zhao, Wenjun; Kazunari, Yamaura; Bordet, Pierre; Wang, Cong.Investigation of the spin-lattice coupling in Mn₃Ga_1-xSn_xN antiperovskites.Physical Review B, 2018, 97(5): 054110.

[37]Zhao Wenjun; Sun Ying; Liu Yufei; Shi Kewen; Lu Huiqing; Song Ping; Wang Lei; Han Huimin; Yuan Xiuliang; Wang Cong.Negative Thermal Expansion over a Wide Temperature Range in Fe-Doped MnNiGe Composites.Frontiers in Chemistry, 2018, 6: 15.

[38]Chu Lihua; Ding Lei; Wang Cong; Li Meicheng; Guo Yanjiao; Liu Zhuohai.Unusual Electrical Transport Driven by the Competition between Antiferromagnetism and Ferromagnetism in Antiperovskite Mn3Zn1-xCoxN.Materials, 2018, 11(2): 286.

[39]Wang Lei; Luo Hubin; Deng Shenghua; Sun Ying; Wang Cong*.Uniaxial Negative Thermal Expansion, Negative Linear Compressibility, and Negative Poisson's Ratio Induced by Specific Topology in Zn[Au(CN)(2)](2).Inorganic Chemistry, 2017, 56(24): 15101-15109.

[40]Lu Huiqing; Sun Ying*; Deng Sihao; Shi Kewen; Wang Lei; Zhao Wenjun; Han Huimin; Deng Shenghua; Wang Cong*.Tunable negative thermal expansion and structural evolution in antiperovskite Mn3Ga1-xGexN (0 <= x <= 1.0).Journal of the American Ceramic Society, 2017, 100(12): 5739-5745.

[41]Song Ping; Wu Yongxin; Wang Lei*; Sun Ying; Ning Yuping; Zhang Yilin; Dai Beibei; Tomasella Eric; Bousquet Angelique; Wang Cong*.The investigation of thermal stability of Al/NbMoN/NbMoON/SiO2 solar selective absorbing coating.Solar Energy Materials and Solar Cells, 2017, 171: 253-257.

[42]Feng, Haifeng; Du, Yi; Wang, Cong; Hao, Weichang*.Efficient visible-light photocatalysts by constructing dispersive energy band with anisotropic p and s-p hybridization states.Current Opinion in Green and Sustainable Chemistry, 2017, 6: 93-100.

[43]Ning Yuping; Wang Wenwen; Wang Lei; Sun Ying; Song Ping; Man Hongliang; Zhang Yilin; Dai Beibei; Zhang Junying; Wang Cong; Zhang Yong; Zhao Shuxi; Tomasella Eric; Bousquet Angelique; Cellier Joel.Optical simulation and preparation of novel Mo/ZrSiN/ZrSiON/SiO₂ solar selective absorbing coating.Solar Energy Materials and Solar Cells, 2017, 167: 178-183.

[44]Shi Kewen; Wang Cong; Sun Ying; Wang Lei; Deng Sihao; Hu Pengwei; Lu Huiqing; Hao Weichang; Wang Tianmin; Tang Weihua.Rectifying Characteristics and Semiconductor-Metal Transition Induced by Interfacial Potential in the Mn₃CuN/n-Si Intermetallic Heterojunction.ACS Applied Materials & Interfaces, 2017, 9(14): 12592-12600.

[45]Jun Chen; Qilong Gao; Andrea Sanson; Xingxing Jiang; Qingzhen Huang; Alberto Carnera; Clara Guglieri Rodriguez; Luca Olivi; Lei Wang; Lei Hu; Kun Lin; Yang Ren; Zheshuai Lin; Cong Wang; Lin Gu; Jinxia Deng; J. Paul Attfield; Xianran Xing.Tunable thermal expansion in framework materials through redox intercalation.Nature Communications, 2017, (8): 14441 (2017).

[46]Wang Lei; Wang Cong; Luo Hubin; Sun Ying.Correlation between Uniaxial Negative Thermal Expansion and Negative Linear Compressibility in Ag-3[Co(CN)₆].Journal of Physical Chemistry C, 2017, 121(1): 333-341.

[47]Ning, Yuping; Wang, Wenwen; Sun, Ying; Wu, Yongxin; Man, Hongliang; Wang, Cong*; Zhao, Shuxi; Tomasella, Eric; Bousquet, Angelique; Zhang, Yong.Tuning of reflectance transition position of Al-AlN cermet solar selective absorbing coating by simulating.INFRARED PHYSICS & TECHNOLOGY, 2017, 80: 65-70.

[48]Lei Wang*; Cong Wang*; Hubin Luo; Ying Sun.Correlation between Uniaxial Negative Thermal Expansion and Negative Linear Compressibility in Ag3[Co(CN)6].J. Phys. Chem. C, 2016, 121(1): 333-341.

[49]Yuping Ning; Wenwen Wang; Ying Sun; Yongxin Wu; Hongliang Man; Cong Wang*; Shuxi Zhao; Eric Tomasella; Angélique Bousquet; Yong Zhang.Tuning of reflectance transition position of Al-AlN cermet solar selective absorbing coating by simulating.Infrared Physics & Technology, 2016, (80): 65-70.

[50]Wu, Peng; Tiedje, T.*; Alimohammadi, H.; Bahrami-Yekta, V.; Masnadi-Shirazi, M.; Wang, Cong.Molecular beam epitaxy growth and optical properties of single crystal Zn3N2 films.Semiconductor Science and Technology, 2016, 31(10): 10LT01.

[51]Meribout, Rayene; Zuo, Ying; Khodja, Amina Amine; Piram, Anne; Lebarillier, Stephanie; Cheng, Jiushan; Wang, Cong; Wong-Wah-Chung, Pascal*.Photocatalytic degradation of antiepileptic drug carbamazepine with bismuth oxychlorides (BiOCl and BiOCl/AgCl composite) in water: Efficiency evaluation and elucidation degradation pathways.Journal of Photochemistry and Photobiology A: Chemistry , 2016, 328: 105-113.

[52]Malik Muhammad Imran; Sun Ying*; Wang Lei; Shi Sihao Deng Kewen; Hu Pengwei; Lu Huiqing; Wang Cong*.Effects of Cr-doping on the electronic transport properties in antiperovskite nitrides Mn3-xCrxZnN (0 <= x <= 0.5).Physica B: Condensed Matter , 2016, 491: 59-64.

[53]Wang, Lei*; Wang, Cong*; Sun, Ying; Shi, Kewen; Deng, Sihao; Lu, Huiqing.Large negative thermal expansion provided by metal-organic framework MOF-5: A first-principles study.Materials Chemistry and Physics, 2016, 175: 138-145.

[54]Sheng, Wenjie; Yang, Xiao; Wang, Cong; Zhang, Yong*.Nano-Crystallization of High-Entropy Amorphous NbTiAlSiWxNy Films Prepared by Magnetron Sputtering.Entropy, 2016, 18(6): 226.

[55]Ning, Yuping; Wang, Wenwen; Sun, Ying; Wu, Yongxin; Liu, Yingfang; Man, Hongliang; Malik, Muhammad Imran; Wang, Cong*; Zhao, Shuxi; Tomasella, Eric; Bousquet, Angelique.Effects of substrates, film thickness and temperature on thermal emittance of Mo/substrate deposited by magnetron sputtering.Vacuum, 2016, 128: 73-79.

[56]Shi, Kewen; Sun, Ying; Yan, Jun; Deng, Sihao; Wang, Lei; Wu, Hui; Hu, Pengwei; Lu, Huiqing; Malik, Muhammad Imran; Huang, Qingzhen; Wang, Cong*.Baromagnetic Effect in Antiperovskite Mn₃Ga_0.95N_0.94 by Neutron Powder Diffraction Analysis.Advanced Materials, 2016, 28(19): 3761-3767.

[57]Malik Muhammad Imran; Sun Ying; Wang Lei; Deng Sihao; Shi Kewen; Hu Pengwei; Lu Huiqing; Wang Cong.Competition between ferromagnetic and antiferromagnetic interactions by Cr doping at Mn sites in antiperovskite Mn_3-xCr_xZnN (0 <= x <= 0.5) compounds.Physica B: Condensed Matter , 2016, 488: 19-23.

[58]Ning, Yuping; Wang, Wenwen; Sun, Ying; Wu, Yongxin; Liu, Yingfang; Man, Hongliang; Wang, Cong*; Zhang, Yong; Zhao, Shuxi; Tomasella, Eric; Bousquet, Angelique.Investigation on low thermal emittance of Al films deposited by magnetron sputtering.Infrared Physics & Technology, 2016, 75: 133-138.

[59]Deng, Sihao; Sun, Ying; Wang, Lei; Wu, Hui; Shi, Kewen; Hu, Pengwei; Huang, Qingzhen; Wang, Cong*.Near-zero temperature coefficient of resistivity associated with magnetic ordering in antiperovskite Mn_3+xNi_1-xN.Applied Physics Letters, 2016, 108(4): 041908.

[60]Malik; Ying Sun*; Wei Wang; Sihao Deng; Kewen Shi; Pengwei Hu; Huiqing Lu; CongWang*.Effects of Cr-doping on theelectronic transport properties in antiperovskite nitrides Mn3-xCrxZnN(0Muhammad Imran .Physica B, 2016, 491: 59-64.

[61]Sihao Deng; Ying Sun*; Jun Yan; Zaixing Shi; Kewen Shi; Lei Wang; Pengwei Hu; Muhammad Imran Malik; Cong Wang.The evolution of magnetic transitions, negative thermal expansion and unusual electronic transport properties in Mn3AgxMnyN.Solid State Communications, 2015, 222: 37-41.

[62]Na, Yuanyuan*; Wang, Cong; Tomasella, Eric; Cellier, Joel; Xiang, Jinzhong.Effect of Cu doping on structural and magnetic properties of antiperovskite Mn₃Ni(Cu)N thin films.Journal of Alloys and Compounds, 2015, 647: 35-40.

[63]Wen, Yongchun; Wang, Cong*; Nie, Man; Sun, Ying.The magnetism and electronic transport properties of Mn₃Sn_1-xSi_xC.Journal of Magnetism and Magnetic Materials, 2015, 391: 22-25.

[64]Na, Yuanyuan*; Wang, Cong; Xiang, Jinzhong; Ji, Nian; Wang, Jian-ping.Investigation of gamma '-Fe₄N thin films deposited on Si(100) and GaAs (100) substrates by facing target magnetron sputtering.Journal of Crystal Growth, 2015, 426: 117-122.

[65]Wang, Lei; Wang, Cong*; Sun, Ying; Deng, Sihao; Shi, Kewen; Lu, Huiqing; Hu, Pengwei; Zhang, Xiaoyun.First-Principles Study of Sc_1-xTi_xF₃ (x0.375): Negative Thermal Expansion, Phase Transition, and Compressibility.Journal of the American Ceramic Society, 2015, 98(9): 2852-2857.

[66]Wu, Yongxin; Wang, Cong*; Sun, Ying; Ning, Yuping; Liu, Yingfang; Xue, Yafei; Wang, Wenwen; Zhao, Shuxi; Tomasella, Eric; Bousquet, Angelique.Study on the thermal stability of Al/NbTiSiN/NbTiSiON/SiO₂ solar selective absorbing coating.Solar Energy, 2015, 119: 18-28.

[67]Na, Yuanyuan*; Wang, Cong; Xiang, Jinzhong.Structural and magnetic properties of antiperovskite Mn3NiNx thin films.Materials Letters, 2015, 152: 213-216.

[68]Ding, Lei; Wang, Cong*; Sun, Ying; Colin, Claire V.; Chu, Lihua.Spin-glass-like behavior and negative thermal expansion in antiperovskite Mn3Ni1-xCuxN compounds.Journal of Applied Physics, 2015, 117(21): 213915.

[69]Lei Wang; Cong Wang*; Ying Sun; Kewen Shi; Sihao Deng; Huiqing Lu; Pengwei Hu; Xiaoyun Zhang.Metal fluorides, a new family of negative thermal expansion materials.Journal of Materiomics, 2015, 1(2): 106-112.

[70]Malik, Muhammad-Imran; Sun, Ying*; Deng, Si-Hao; Shi, Ke-Wen; Hu, Peng-Wei; Wang, Cong.Nitrogen-Induced Change of Magnetic Properties in Antiperovskite-Type Carbide: Mn3InC.Chinese Physics Letters, 2015, 32(6): 067503.

[71]Ying Zuo; Cong Wang*; Ying Sun; Jiushan Cheng.Photocatalytic Properties of BiOCl/Bi2WO6 Composite.Journal of Solar Energy Research Updates, 2015, 2(1): 10-13.

[72] Deng, Sihao; Sun, Ying*; Wu, Hui; Huang, Qingzhen; Yan, Jun; Shi, Kewen; Malik, Muhammad Imran; Lu, Huiqing; Wang, Lei; Huang, Rongjin; Li, Laifeng; Wang, Cong.Invar-like Behavior of Antiperovskite Mn_3+xNi_1−xN Compounds.Chemistry of Materials, 2015, 27(7): 2495-2501.

[73]Chu Li-Hua; Wang Cong*; Sun Ying; Li Mei-Cheng; Wan Zi-Pei; Wang Yu; Dou Shang-Yi; Chu Yue.Doping Effect of Co at Ag Sites in Antiperovskite Mn3AgN Compounds.Chinese Physics Letters, 2015, 32(4): 047501.

[74]Zuo Ying; Wang Cong*; Sun Ying; Cheng Jiushan.Preparation and photocatalytic properties of BiOCl/Bi2MoO6 composite photocatalyst.Materials Letters, 2015, 139: 149-152.

[75]Chen Zhengbo*; Zhang Chenmeng; Wang Cong.A colorimetric assay of dopamine utilizing melamine modified gold nanoparticle probes.Analytical Methods, 2015, 7(3): 838-841.

[76]LIU Yingfang; WANG Cong*; SUN Ying; WU Yongxin; NING Yuping; WANG Wenwen; ZHANG Yong; ZHAO Shuxi.Optical Design and Preparation of High Performance Mo/NiAlN/NiAlON/SiO2 Solar Selective Absorbing Coating.Journal of the Chinese Ceramic Society, 2015, 2(4): 171-178.

[77]Deng S.; Sun Y.*; Wang L.; Shi Z.; Wu H.; Huang Q.; Yan J.; Shi K.; Hu P.; Zaoui A.; Wang C.Frustrated Triangular Magnetic Structures of Mn3ZnN: Applications in Thermal Expansion.Journal of Physical Chemistry C, 2015, 119(44): 24983-24990.

[78]Wang, C.; Chang, S.*; Wu, H.; Ding, L.; Thompson, J. M.THEORETICAL MODELING OF SPRAY DROP DEFORMATION AND BREAKUP IN THE MULTIMODE BREAKUP REGIME.Atomization and Sprays, 2015, 25(10): 857-869.

[79]Wu, Yongxin; Wang, Cong*; Sun, Ying; Xue, Yafei; Ning, Yuping; Wang, Wenwen; Zhao, Shuxi; Tomasella, Eric; Bousquet, Angelique.Optical simulation and experimental optimization of Al/NbMoN/NbMoON/SiO₂ solar selective absorbing coatings.Solar Energy Materials and Solar Cells, 2015, 134: 373-380.

[80]Liu, Yu; Wang, Zhifeng; Lei, Dongqiang; Wang, Cong*.A new solar spectral selective absorbing coating of SS-(Fe₃O₄)/Mo/TiZrN/TiZrON/SiON for high temperature application.Solar Energy Materials and Solar Cells, 2014, 127: 143-146.

[81]Yafei Xue; Cong Wang*; Ying Sun; Yongxin Wu; Yuping Ning; Wenwen Wang.Effects of the LMVF and HMVF absorption layer thickness and metal volume fraction on optical properties of the MoSi₂-Al₂O₃ solar selective absorbing coating.Vacuum (Rapid communication), 2014, (104): 116-121.

[82]Yan, Jun; Sun, Ying; Wen, Yongchun; Chu, Lihua; Wu, Meimei; Huang, Qingzhen*; Wang, Cong; Lynn, Jeffrey W.; Chen, Yunlin.Relationship between Spin Ordering, Entropy, and Anomalous Lattice Variation in Mn3Sn1-epsilon S epsilon C1-delta Compounds.Inorganic Chemistry, 2014, 53(4): 2317-2324.

[83]Sun, Ying*; Guo, Yanfeng; Tsujimoto, Yoshihiro; Wang, Cong; Li, Jun; Wang, Xia; Feng, Hai L.; Sathish, Clastin I.; Matsushita, Yoshitaka; Yamaura, Kazunari.Unusual magnetic hysteresis and the weakened transition behavior induced by Sn substitution in Mn₃SbN.Journal of Applied Physics, 2014, 115(4): 043509.

[84]Yan Jun; Sun Ying*; Wang Cong; Shi Zai-Xing; Deng Si-Hao; Shi Ke-Wen; Lu Hui-Qing.Effects of Co doping on the magnetic properties, entropy change, and magnetocaloric effect in Mn₃Sn_1-xCo_xC1.1 compounds.Acta Physica Sinica, 2014, 63(16): 167502.

[85]Liu, T.*; Shen, H.; Wang, C.; Chou, W..Microstructure and mechanical properties of Al containing ODS ferritic alloys by VHP and HIP.Materials Research Innovations, 2014, 18: 410-413.

[86]Jun Yan; Ying Sun; Yongchun Wen; Lihua Chu; Meimei Wu; Qingzhen Huang; Cong Wang*; Jeffrey W.Lynn; Yunlin Chen.Relationship between Spin Ordering, Entropy, and Anomalous Lattice Variation in Mn3Sn1−εSiεC1−δ Compounds.Inorganic Chemistry, 2014, 53: 2317-2324.

[87]Xue, Yafei; Wang, Cong*; Sun, Ying; Wang, Wenwen; Wu, Yongxing; Ning, Yuping.Preparation and spectral properties of solar selective absorbing MoSi₂–Al₂O₃ coating.Physica Status Solidi A-Applications and Materials Science, 2014, 211(7): 1519-1524.

[88]Wu, Sujuan; Wang, Cong*; Cui, Yinfang.Controllable growth of BiOCl film with high percentage of exposed {001} facets.Applied Surface Science, 2014, 289: 266-273.

[89]SHI Zaixing, WANG Cong*, YAN Jun, CHU Lihua, DING Lei, SUN Ying, WEN Yongchun "Negative thermal expansion and magnetic phase transition in antiperovskite Mn₃AN(C) compounds". J. of The Chinese Ceramic Society 2014,42(3):286-295,

[90]Cheng, Jiushan; Wang, Cong*; Cui, Yinfang; Sun, Ying; Zuo, Ying; Wang, Tianming.Large improvement of visible-light-driven photocatalytic property in AgCl nanoparticles modified black BiOCl microsphere.Materials Letters, 2014, 127: 28-31.

[91]Jun Yan; Ying Sun; Hui Wu; Qingzhen Huang; Cong Wang*; Zaixing Shi; Sihao Deng; Kewen Shi; Huiqing Lu; Lihua Chu.Phase transitions and magnetocaloric effect in Mn₃Cu_0.89N_0.96.Acta Materialia, 2014, 74: 58-65.

[92]Yan, Jun; Sun, Ying*; Wang, Cong; Chu, Lihua; Shi, Zaixing; Deng, Sihao; Shi, Kewen; Lu, Huiqing.Study of structure of Mn₃Cu_0.5Ge_0.5N/Cu composite with nearly zero thermal expansion behavior around room temperature.Scripta Materialia, 2014, 84-85: 19-22.

[93]Jiushan Cheng; Cong Wang*; Yinfang Cui; Ying Sun; Ying Zuo.Visible Light Photocatalytic Properties and Thermochromic Phenomena of Nanostructured BiOCl Microspheres.J. Mater. Sci. Technol., 2014, 30(11): 1130-1133.

[94]Ying Zuo; Cong Wang*; Ying Sun; Jiushan Cheng.Preparation and photocatalytic properties of BiOClBi₂MoO₆ composite photocatalyst.Materials Letters, 2014, (139): 149-152.

[95]Sun, Ying*; Guo, Yanfeng; Li, Jun; Wang, Cong; Wang, Xia; Sathish, Clastin I.; Yamaura, Kazunari.The Unusual Resistivity Behavior and Correlated Magnetic Properties of Antiperovskite Mn₃Ag_1-xM_xN (M = Sn, Zn) Compounds.Science of Advanced Materials, 2014, 6(7): 1394-1398.

[96]Xie,W., Yan, J., Liu, Y., Xue, Y., Zhang, Y., Zhang, F., Wang, C*. “Influnence of the substrate and thickness of HMVF layers on performance of NbSiN/NbSiNO/Si₃N₄ tandem ”. 《太阳能学报》（Acta Energiae Solaris Sinica） 2014,35(1) : 145-148

[97]Sun,Y*; Guo,YF; Tsujimoto, Y; Yang, JJ; Shen, B; Yi, W; Matsushita, Y; Wang, C; Wang, X; Li, J.Carbon-Induced Ferromagnetism in the Antiferromagnetic Metallic Host Material Mn₃ZnN.Inorganic Chemistry, 2013, 52(2): 800-806.

[98]Sun, Ying*; Guo, Yan-Feng; Tsujimoto, Yoshihiro; Wang, Xia; Li, Jun; Sathish, Clastin I.; Wang, Cong; Yamaura, Kazunari.Thermodynamic, Electromagnetic, and Lattice Properties of Antiperovskite Mn₃SbN.ADVANCES IN CONDENSED MATTER PHYSICS, 2013, 2013: 286325.

[99]Wang, Cong.The magnetic and electrical transport properties of the Co-doped antiperovskite compounds CuNMn3-xCox (0=x=0.15).2013, 2013(3).

[100]Wang, Cong*; Takenaka, Koshi; Li, Laifeng; Sun, Yuping.Lattice and Magnetic and Electronic Transport Properties in Antiperovskite M(3)AX Compounds.ADVANCES IN CONDENSED MATTER PHYSICS, 2013, 214120.

[101]Cong Wang, Koshi Takenaka, Laifeng Li, Yuping Sun Lattice, Magnetic and Electronic Transport Properties in Antiperovskite M3AX Compounds, Advances in Condensed Matter Physics, special issue, volume 2013 article ID214120 2 pages.

[102]Wu, Sujuan; Brault, Pascal*; Wang, Cong; Courtois, Blandine.The impact of thermal annealing on the morphology of sputter deposited platinum clusters into anodic aluminum oxide pores.Applied Surface Science, 2013, 266: 400-404.

[103]Chu, Lihua; Wang, Cong*; Bordet, Pierre; Colin, Claire V.; Pairis, Sebastien; Na, Yuanyuan; Yan, Jun; Huang, Qingzhen。The effect of Zn vacancies on the physical properties of antiperovskite compounds Mn₃ZnxN.Scripta Materialia, 2013, 68(12): 968-971.

[104]Xue, Yafei; Wang, Cong*; Wang, Wenwen; Liu, Yu; Wu, Yongxin; Ning, Yuping; Sun, Ying.Spectral properties and thermal stability of solar selective absorbing AlNi-Al₂O₃ cermet coating.Solar Energy, 2013, 96: 113-118.

[105]Cheng, Jiushan; Wang, Cong*; Wang, Wenwen; Du, Xinkang; Liu, Yu; Xue, Yafei; Wang, Tianmin; Chen, Buliang.Improvement of thermal stability in the solar selective absorbing Mo-Al₂O₃ coating.Solar Energy Materials and Solar Cells, 2013, 109: 204-208.

[106]Meimei Wu; Cong Wang*; Ying Sun,; Lihua Chu,; Jun Yan,; Dongfeng Chen,; Qingzhen Huang,; Jeffrey W. Lynn.Magnetic structure and lattice contraction in Mn₃NiN.Journal of Applied Physics, 2013, 114: 123902.

[107]Zhao, Haofei; Sun, Ying; Shi, Zaixing; Zhang, Qinghua; Yao, Yuan; Yu, Richeng*; Wang, Cong.Surface activity of antiperovskite manganese nitrides.Journal of Materials Research, 2013, 28(23): 3245-3251.

[108]Hu Jing-Yu; Wen Yong-Chun; Yao Yuan; Wang Cong; Zhao Qing*; Jin Chang-Qing; Yu Ri-Cheng.Pressure Effects on the Magnetic Phase Transition of Mn₃SnC_1-xN_x (x=0, 0.5).Chinese Physics Letters, 2012, 29(8): 086201.

[109]Chu, Lihua; Wang, Cong*; Yan, Jun; Na, Yuanyuan; Ding, Lei; Sun, Ying; Wen, Yongchun.Magnetic transition, lattice variation and electronic transport properties of Ag-doped Mn3Ni1-xAgxN antiperovskite compounds.Scripta Materialia, 2012, 67(2): 173-176.

[110]Cui Yin-Fang; Wang Cong; Wu Su-Juan; Liu Yu; Wang Tian-Min.Preparation and Photocatalytic Activity of ZnO/Fe2O3 Nanorod Arrays and ZnO/NiO Nanotube Arrays.Chinese Physics Letters, 2012, 29(3): 37201-37203.

[111]Sun, Ying; Wang, Cong*; Chu, Lihua; Wen, Yongchun; Na, Yuanyuan; Nie, Man; Chen, Xiaolong。Ni-doping effect on the magnetic transition and correlated lattice contraction in antiperovskite Mn3ZnN compounds.Solid State Communications, 2012, 152(6): 446-449.

[112]Na Yuan-Yuan; Wang Cong*; Chu Li-Hua; Ding Lei; Yan Jun.Study on electronic transport and magnetic properties for antiperovskite Mn3CuNx thin films fabricated with different N-2 flow rates.Acta Physica Sinica, 2012, 61(3): 37201-37203.

[113]Y.S.Sun*; Y.F.GUO; X.X.Wang; Y.Tsujimoto; Y.Matsushita; Y.G.Shi; C.Wang; A.A.Belik; K.Yamaura.Resistive switching phenomenon driven by antiferromagnetic phase separation in an antiperovskite nitride Mn3ZnN.Applied Physics Letters, 2012, 100(16).

[114]Wang, Cong.Optimization of the thickness of glass/TiO2/Ag/Ti/TiO2/SiON multilayer film.Vacuum, 2012, 86: 2040-2043.

[115]Cong Wang*; Lihua Chu; Qingrong Yao; Ying Sun; Meimei Wu; Lei Ding; Jun Yan; Yuanyuan Na; Weihua Tang; Guannan Li; Qingzhen Huang; Jeffrey W.Lynn.Tuning the range, magnitude, and sign of the thermal expansion in intermetallic Mn₃(Zn, M)x N(M = Ag, Ge).Phys. Rev. B rapid comm., 2012, 85(220103(R)).

[116]Liu, Yu; Wang, Cong*; Xue, Yafei.The spectral properties and thermal stability of NbTiON solar selective absorbing coating.Solar Energy Materials and Solar Cells, 2012, 96(1): 131-136.

[117]Sun, Y. S.*; Guo, Y. F.; Wang, X. X.; Tsujimoto, Y.; Matsushita, Y.; Shi, Y. G.; Wang, C.; Belik, A. A.; Yamaura, K..Resistive switching phenomenon driven by antiferromagnetic phase separation in an antiperovskite nitride Mn₃ZnN.Applied Physics Letters, 2012, 100(16): 161907.

[118]Sun, Ying; Wang, Cong*; Huang, Qingzhen; Guo, Yanfeng; Chu, Lihua; Arai, Masao; Yamaura, Kazunari.Neutron Diffraction Study of Unusual Phase Separation in the Antiperovskite Nitride Mn₃ZnN.Inorganic Chemistry, 2012, 51(13): 7232-7236.

[119]Lihua Chu, Cong Wang, Jun Yan, Yuanyuan Na, Lei Ding, Ying Sun, Yongchun Wen, Scripta Materiala 67 (2012) 173–176 “Magnetic transition, lattice variation and electronic transport properties of Ag doped Mn₃Ni_1-xAg_xN antiperovskite compounds”.

[120]Liu Yu, Wang Cong*, Diao Xungang, Xue Yafei Vacuum （Rapid communication） 86 (2012) 2040-2043 “Optimization of the thickness of glass/TiO₂/Ag/Ti/TiO₂/SiON multilayer film”.

[121]Ying Sun, Cong Wang∗, Lihua Chu, Yongchun Wen, Yuanyuan Na, Man Nie, Xiaolong Chen，Solid State Communications 152 (2012) 446–449 “Ni-doping effect on the magnetic transition and correlated lattice contraction in antiperovskite Mn₃ZnN compounds”.

[122]CUI Yin-fang, WANG Cong, WU Su-juan, LIU Yu，WANG Tian-min，Chin. Phys. Lett. Vol. 29, No. 3 (2012) 037201 “Preparation and Photocatalytic Activity of ZnO/Fe₂O₃ Nanorod Arrays and ZnO/NiO Nanotube Arrays”.

[123]Nie, Man; Wang, Cong*; Wen, Yongchun; Sun, Ying; Na, Yuanyuan; Chu, Lihua; Tang, Meibo.Magnetic phase transitions of antiperovskite Mn_3-xFe_xSnC (0.5 <= x <= 1.3).Solid State Communications, 2011, 151(5): 377-381.

[124]Wu, Sujuan; Wang, Cong*; Cui, Yinfang; Hao, Weichang; Wang, Tianmin; Brault, Pascal.BiOCl nano/microstructures on substrates: Synthesis and photocatalytic properties.Materials Letters, 2011, 65(9): 1344-1347.

[125]Na, Yuanyuan; Wang, Cong*; Sun, Ying; Chu, Lihua; Nie, Man; Ji, Nian; Wang, Jian-ping.Structure and properties of ternary manganese nitride Mn₃CuNy thin films fabricated by facing target magnetron sputtering.Materials Research Bulletin, 2011, 46(7): 1022-1027.

[126]Wu, Sujuan; Brault, Pascal*; Wang, Cong; Sauvage, Thierry.Enhanced anomalous diffusion of sputtered atoms in nanosized pores.Physica A: Statistical Mechanics and Its Applications , 2011, 390(11): 2112-2116.

[127]Cui, Yinfang; Wang, Cong*; Wu, Sujuan; Jia, Yuping; Zhang, Fangfang; Wang, Tianmin; Liu, Gang.Growth of Intricate ZnO Nanorod Networks on α-Fe₂O₃-Coated Si Substrate: Growth Mechanism and Optical Properties.Journal of the American Ceramic Society, 2011, 94(7): 1992-1994.

[128]Ding, Lei; Wang, Cong*; Na, Yuanyuan; Chu, Lihua; Yan, Jun; Xiaolong Chen.Preparation and near zero thermal expansion property of Mn₃Cu_0.5A_0.5N (A = Ni, Sn)/Cu composites.Scripta Materialia, 2011, 65(8): 687-690.

[129]Cui, Yinfang; Wang, Cong*; Wu, Sujuan; Liu, Gang; Zhang, Fangfang; Wang, Tianmin.Lotus-root-like NiO nanosheets and flower-like NiO microspheres: synthesis and magnetic properties.CrystEngComm, 2011, 13(15): 4930-4934.

[130]Cui, Yinfang; Wang, Cong*; Liu, Gang; Yang, Hongchao; Wu, Sujuan; Wang, Tianmin.Fabrication and photocatalytic property of ZnO nanorod arrays on Cu₂O thin film.Materials Letters, 2011, 65(14): 2284-2286.

[131]YuNa, Yuanyuan; Wang, Cong*; Chu, Lihua; Ding, Lei; Ji, Nian; Wang, Jian-ping; Chen, Xiaolong.Magnetic and electronic transport properties of antiperovskite Mn₃Cu(Ge)N thin films.Materials Letters, 2011, 65(15-16): 2401-2403.

[132]Na, Yuanyuan; Wang, Cong*; Chu, Lihua; Ding, Lei; Yan, Jun; Xue, Yafei; Xie, Wanfeng; Chen, Xiaolong.Preparation and properties of antiperovskite Mn₃NiN thin film.Materials Letters, 2011, 65(23-24): 3447-3449.

[133]Ding Lei; Wang Cong*; Chu Li Hua; Na Yuan Yuan; Yan Jun.Progress in lattice, magnetic and electronic transport properties of antiperovskite Mn-3 AX.Acta Physica Sinica, 2011, 60(9): 097507.

[134]Lei Ding; Cong Wang*; Lihua Chu; Jun Yan; Yuanyuan Na; Qingzhen Huang; Xiaolong Chen.Near zero temperature coefficient of resistivity in antiperovskite Mn₃Ni_1-xCu_xN.Applied Physics Letters, 2011, 99(251905).

[135]Wen, Yongchun; Wang, Cong*; Sun, Ying; Liu, Guanxin; Nie, Man; Chu, Lihua.Lattice, magnetic and electronic transport behaviors of Ge-doped Mn₃XC (X = Al, Zn, Ga).Journal of Alloys and Compounds, 2010, 489(1): 289-292.

[136]Ying Sun; Cong Wang*; Yongchun Wen; Lihua Chu; Man Nie; Fusheng Liu.Negative thermal expansion and correlated magnetic and electrical properties of Si-doped Mn₃GaN compounds.J. of American Ceramic Society, 2010, 3(93): 650-653.

[137]Wu, Sujuan; Wang, Cong; Cui, Yinfang; Wang, Tianmin; Huang, Baibiao; Zhang, Xiaoyang; Qin, Xiaoyan; Brault, Pascal.Synthesis and photocatalytic properties of BiOCl nanowire arrays.Materials Letters, 2010, 64(2): 115-118.

[138]Cong Wang*; Ying Sun; Yongchun Wen; Lihua Chu; Man Nie.Investigation of Lattice Contraction in Mn₃XN (X=Zn, Cu, Sn).Materials Science Forum, 2010, 638-642: 2195-2200.

[139]Sun, Ying; Wang, Cong*; Chu, Lihua; Wen, Yongchun; Nie, Man; Liu, Fusheng.Low temperature coefficient of resistivity induced by magnetic transition and lattice contraction in Mn₃NiN compound.Scripta Materialia, 2010, 62(9): 686-689.

[140]Wen, Yongchun; Wang, Cong*; Nie, Man; Sun, Ying; Chu, Lihua; Dong, Cheng.Influence of carbon content on the lattice variation, magnetic and electronic transport properties in Mn3SnCx.Applied Physics Letters, 2010, 96(4): 041903.

[141]X. B. Kong, Y. Sun, L. X. Yang, Y. Yu, C. Q. Jin, C. Wang, R. C. Yu, J. Apply Physics 106(2009)113905-1-113905-4 “Pressure effects on the stability of magnetic structure of Mn₃Zn_1-xGe_xN (x=0, 0.1)”.

[142]Ying Sun; Cong Wang*; Lihua chu; Yongchun Wen; Man Nie; Fusheng Liu.Negative thermal expansion and magnetic transition in anti-perovskite structured Mn₃Zn_1-xSn_xN compounds.J. of American Ceramic Society, 2010, 8(93): 2178-2181.

[143]Sun, Ying; Wang, Cong*; Na, Yuanyuan; Chu, Lihua; Wen, Yongchun; Nie, Man, “Investigation of antiperovskite Mn₃CuN_x film prepared by DC reactive magnetron sputtering”. Materials Research Bulletin, 2010, 45(9): 1230-1233.

[144]NA Yuan-Yuan, WANG Cong* , LIU Yu, “The Influence of Au-Doping on Morphology and Visible-Light Reflectivity of TiN Thin Films Deposited by Direct-Current Reactive Magnetron Sputtering”. Chinese Physics Letters, 2010, 27(5): 56802-56804.

[145]Wu, Sujuan; Brault, Pascal; Wang, Cong.Deposition and diffusion of plasma sputtered platinum nanoparticles in porous anodic aluminum oxide.Journal of Optoelectronics and Advanced Materials, 2010, 12(3): 451-455.

[146]Wen, Yongchun; Wang, Cong*; Nie, Man; Sun, Ying; Chu, Lihua.Forced volume magnetostriction in Mn_3.3Sn_0.7C compound at room temperature.Journal of Magnetism and Magnetic Materials, 2010, 322(20): 3106-3108.

[147]Yongchun Wen; Cong Wang*; Man Nie; Fusheng Liu; Lihua Chu; Ying Sun.Magnetic, lattice and transport properties of Mn₃SnCx. Appl. Phys. Lett., 2010, (96).

[148]Yongchun Wen, Cong Wang*, Ying Sun, Man Nie, Liang Fang, Yongjun Tian “Lattice, magnetic and transport properties in antiperovskite Mn₃Sn_1-xGe_xC compounds ” Solid State Communications, 2009, (149): 1519-1522.

[149]Sun Ying ，温永春，褚立华，Nie Man ，Wang, Cong*， "ABNORMAL THERMAL EXPANSION IN ANTI-PEROVSKITE MANGANESE NITRIDE” .Journal of The Chinese Ceramic Society 37(5)(2009)724-727

[150]Yang Haigang; Wang Cong; Zhu Kaigui; Diao Xungang; Wang Huaiyi; Wang Tianmin.Electrochromic Property and Mechanism of NiOx Film Fabricated by DC Sputtering.Rare Metal Materials and Engineering, 2009, 38: 572-575.

[151]Kong, X. B.; Sun, Y.; Yang, L. X.; Yu, Y.; Jin, C. Q.; Wang, C.; Yu, R. C..Pressure effects on the stability of magnetic structure of Mn3Zn1-xGexN (x=0,0.1).Journal of Applied Physics, 2009, 106(11): 113905.

[152]H G Yang, C Wang*, Y Cui, K G Zhu, X G Diao, H Y Wang and T M Wang, “A novel inorganic ion conductor electrochromic device: MoO₃/LiAlO₂/NiO_x ” Material Science Forum, 2009, 610-613: 610-615.

[153]Du Xinkang , Wang Cong*, Wang Tianmin, Zhou Long, Chen Buliang, Ru Ning. “Microstructure and spectral selectivity of Mo-Al₂O₃ solar selective absorbing coatings after annealing”. Thin Solid Films, 2008, 516: 3971-3977.

[154]An Huizhong; Wang Cong; Zhang Junying; Hao Weichang; Wang Tianmin.Light-Storing Photocatalyst BiOCl/Sr4Al14O25:Eu2+, Dy3+.Rare Metal Materials and Engineering, 2008, 37(10): 1714-1718.

[155]Haigang Yang, Cong Wang* , Xungang Diao, Huaiyi Wang, Tianmin Wang, Kaigui Zhu, "A new all-thin-film electrochromic device using LiBSO as the ion conducting layer”.J. Phys. D: Appl. Phys. , 2008, (41): 115301.（IF=2.2）.

[156]Jikang Jian; Cong Wang*; M. Lei; Z. H. Zhang; T. M. Wang; X. L. Chen.Quasi-horizontal GaNnanowire array network grown by sublimation sandwich technique.Applied Surface Science, 2008, 254: 6637-6641.

[157]AN Huizhong, DU Yi, WANG Tianmin, WANG Cong*, HAO Weichang, ZHANG Junying, “Photocatalytic properties of BiOX (X=Cl, Br, I)”. Rare Metals, 2008, 27(3): 243-250.

[158]Y. F. Lou, W. Y. Wang, G. M. Cai, Y. P. Sun, C. Wang, “Structure determination of new compounds Li₆MB₃O₉ (M=Nd, Sm, Eu, Tm, Er)”. Powder Diffraction 23(1) (2008)3-9

[159]Jikang Jian, Cong Wang*, M. Lei, Z. H. Zhang, T. M. Wang, X. L. Chen, “Quasi-horizontal GaN nanowire array network grown by sublimation sandwich technique”. Applied Surface Science 254（2008）6637-6641

[160]YANG Hai-Gang, WANG Cong*, ZHU Kai-Gui, DIAO Xun-Gang, WANG Huai-Yi, CUI Yi, WANG Tian-Min， “An all-thin-film electrochromic device composed of MoO₃-LiBSO-NiO_x multilayer structure”. Chinese Physics Letters, 2008, 2(25): 740-742.

[161]Pan, Hui; Wang, Cong; Duan, Su-Qing; Chu, Wei-Dong; Zhang, Wei, "Magnetically tunable spin-polarization of the current through a double quantum dot device”. Solid State Communications, 2008, 148(1-2): 69-73.

[162]Ying Sun, Cong Wang*, Yongchun Wen, Kaigui Zhu，Jingtai Zhao, “Lattice contraction and magnetic and electronic transport properties of Mn₃Zn_1-xGe_xN”. Applied Physics Letters, 2007, 91(23): 231913.

[163]Du Xinkang, Wang Cong*, Wang Tianmin, Chen Buliang, Zhou Long, Ru Ning. “Magnetron Sputtering High Temperature Mo-Al₂O₃ Cermet Solar Selective Coatings”, Materials Science Forum. 546-549 （2007）1773-1776.

[164]Du Xin-kang, Wang Tian-min, Wang Cong*, Chen Bu-liang, Zhou Long, “Microstructure and Optical Characterization of Magnetron Sputtered NbN Thin Films”, Chinese Journal of Aeronautics, 2007, 20(2): 140-144.

[165]Zhou Long; Wang Tianmin; Du Xinkang; Chen Buliang; Ru Ning; Wang Cong.Optical constants of Mo-Al2O3 cermet granular films.Rare Metal Materials and Engineering, 2007, 36(5): 825-829.

[166]Lihai Xu, Yuxing Xu, Cong Wang* and Tianmin Wang,“Preparation and Properties of Ce_0.9Sm_0.1O_1.95 as the Electrolytes of IT-SOFC”. Key Engineering Materials Vols. 336-338 (2007) pp. 398-400,

[167]Cong Wang, Xinkang Du, Tianmin Wang, “Nb-NbN Cermet Film as Solar Selective Coating”. Advanced Materials Research, 26-28(2007)899-904

[168]Pan, Hui; Lue, Rong; Wang, Cong. “Quantum supercurrent in a quantum dot Aharonov–Bohm interferometer”. Solid State Communications, 2007, 144(1-2): 37-41.

[169]Sun Ying; Wang Cong*; Wen Yongchun.“Negative Thermal Expansion in Mn₃Ga(Ge,Si)N Anti-perovskite Materials”. Materials Science Forum, 2007, 561-565: 557-562.

[170]An Hui-Zhong; Wang Cong; Wang Tian-Min; Hao Wei-Chang.Photocatalytic activity of M(M=Mg, Ca, Sr, Ba, Ni)Nb₂O₆.Journal of Inorganic Materials, 2007, 22(5): 922-926.

[171]Jian, J. K.; Zhang, Z. H.; Sun, Y. P.; Lei, M.; Chen, X. L.; Wang, T. M.; Wang, Cong.GaN nanorings: Another example of spontaneous polarization-induced nanostructure.Journal of Crystal Growth, 2007, 303(2): 427-432.

[172]Jikang Jian, Cong Wang*, Z. H. Zhang, X. L. Chen, L. H. Xu, T. M. Wang, "Necktie-like ZnO nanobelts grown by a self-catalytic VLS process”. Materials Letters, 2006, 60(29-30): 3809-3812.

[173]J. K. Jian, G. Wang, Cong Wang, W. X. Yuan, X. L. Chen, “ GaN single crystals grown under moderate nitrogen pressure by a new flux: Ca₃N₂”. J. of Crystal Growth 29(2006)72-76,

[174]WANG Cong, DU Xinkang, WANG Tianmin, ZHOU Long, RU Ning, and CHEN Buliang,"Preparation and Optical Properties of Nb-NbN Multilayer Films as Solar Selective Absorptive Coatings”. Rare Metals 25（2006）355-359（Spec. Issue）

[175]Wang Cong*; Xui Lihai; Tang Weihua . “Study on SGDC Electrolyte Film prepared by RF Magnetron Sputtering”. Rare Metal Materials and Engineering, 2006, 35: 501-503.

[176]Wang Cong, Brault Pascal, Pineau Alain, Plantin Pascale, Thomann Anne-Lise, “X-ray diffraction study of effect of deposition conditions on α-β phase transition and stress evolution in sputter-deposited W coatings”. Chinese Physics, 2006, 15(2): 432-436.

[177]W.Yang, L.S.Jia, X.L.Chen, C. Wang,“Defects in La₂CuO₄ and La_1.86Sr_0.14CuO₄ single crystals”. Rare Metal (English Edt.) 24（1）(2005) 71-75

[178]C. Wang, P. Brault, T. Sauvage, “Density measurement of W thin films coating by combination of ion beam analysis and scanning electron microscopy”. Eur. Physcal Journal : Applied Physics,31（2005）17-22

*：作者为论文通讯作者，前面的作者基本是本人指导的研究生

[1]Yanlan Hu, Xungang Diao, Cong Wang, Weichang Hao, Tianmin Wang, Vacuum 75(2004)183-188 “ Effect of heat treatment on properties of ITO films prepared by rf magnetron sputtering”.

[2]Cong Wang, Tianmin Wang, Chin. Phys. 12(3)(2003)315 " Surface Behavior and Undercooling in Liquid Ga-Bi Binary System by Optical Second Harmonic Generation".

[3]Cong Wang, Pascal Brault et al. Proceeding of CIP 2003.(June 29 – July 3, Antibes, France 2003) “Deposition and microstructure of W-Cu multilayer coating by magnetron sputtering”.

[4]Cong Wang, Pascal Brault et al. J. Phys. D: Appl. Phys. 36(2003)2709-2713 “Deposition and microstructure of W-Cu multilayer coating by magnetron sputtering”.

[5]Zheng SK, Xiang G. Wang TM, Pan F. Wang C. Hao WC, Vacuum 72(1)(2003) 79-84 “ Photocatalytic activity studies of TiO₂ thin films prepared by r.f. magnetron reactive sputtering”.

[6]Shen Rong, Wang Cong*, Wang Tian-min et al. “Characterization of the negative thermal expansion material Zr_1-xHf_xW₂O₈”. Rare Metals, 2003, 22(2): 107-111.

[7]Shen Rong, Wang Cong*, Wang Tian-min et al. “ Crystal structures of Dy₂(WO₄)₃ and GdY(WO₄)₃”. Rare Metals , 2003, 22(1): 49-54.,

[8]Cong Wang, Tianmin Wang and Shukai Zheng, Physica E 14(1-2) (2002)242-248, "Investigation of the Photoreactivity of Nanocrystalline TiO₂ thin film by Ion-implantation Technique" (被引次数：6 )

[9]T. M. Wang, S. K. Zheng, W. C. Hao, C. Wang, Surface and Coatings Technology 155(2-3)(2002)141-145 "Studies on photocatalytic activity and transmittance spectra of TiO₂ thin films prepared by r. f. magnetron sputtering method".

[10]Liu, FM*; Wang, TM; Li, JQ; Wang, C; Zheng, SK; Duan, M. Journal of Magnetism and Magnetic Materials 251(3)(2002)245-250 “ Structural, Optical and Magnetic Properties of a Mn Thin Film Sandwiched Between TiO₂ Films Prepared by Magnetron Sputtering”.

[11]W. C. Hao, S. K. Zheng, C. Wang*, T. M. Wang, J. of Mater. Sci. Lett. 21(2002)1627 “Comparison of the photocatalytic activity of TiO₂ powder with different particle size”.

[12]S. K. Zheng, T. M. Wang, C. Wang, J. of Mater. Sci. Lett. 21(2002)1465 “Fabrication, photocatalytic activity and surface modification of nanoporous TiO₂ photocatalytic thin film”.

[13]S. K. Zheng, T. M. Wang, C. Wang, G. Xiang, Nuclear Instruments and Methods in Physics Research (NIM B) 187(2002)479-484 “ Photocatalytic Activity Study of TiO₂ Thin Films with and without Fe ion Implantation”.

[14]Zhang HT, Wang TM, Wang C et al. Nuclear Instruments and Methods in Physics Research (NIM B) 197 (1-2) (2002)83-93 “Effect of Intense Pulsed Ion Beams Irradiation on the Oxidation Behavior of γ′¢－Based Alloy IC6”

[15]Tianmin Wang, Cong Wang, S.K. Zheng, J. of Advanced Science 13(3)(2001)360-362 “Surface Modification of the TiO₂ Photocatalytic thin film by Au-particle embedding Technique”

[16]Shukai Zheng, Tianmin Wang, Gang Xiang, Cong Wang, Vacuum 62(4) (2001)361-366 "Photocatalytic Activity of Nanostructured TiO₂ Thin Films Prepared by D.C. Magnetron Sputtering Method".

[17]Cong Wang, Detlef Nattland, Werner Freyland, J. Phys.: Condens. Matter 12 (2000)6121-6134“ Surface phase transition in the Ga-Bi liquid alloys studied by Second Harmonic Generation (SHG) " (被引次数：7 )

[18]T. M. Wang, C. Wang, T. Y. Zuo, Z. R. Nie, ( Nov. 1999, Gifu, Japan), " Proceedings of the Fourth International Conference on Ecomaterials " PP: 453-456 " Research and Development of Ecomaterials in China” .

[19]C. Wang, Zh. Qiao, X. Xing, Y. Xie, Trans. Nonferrous Met. Soc. China ( English edition) 8(1) (1998)126-131 '' Ni-Ga Binary Phase Relations at 700 C ''.

[20]C. Wang, C. Dong, et al., Phys. Rev. B 55(1997)3935-3942. " The Relationship between Lattice Parameter and Superconductivity in the 2-1-4 Series Cuprates.

[21]C. Wang, C. Dong, Zh. Y. Qiao, et al., Physica C 282-287(1997)747-748 " Correlations of Lattice Parameters, Oxygen Content and Charge Carrier Density in Nd_2-x-yLa_yCe_xCuO₄- Superconductors ".

[22]Jian-Wang Cai, Cong Wang, Bao-Gen Shen, Jian-Gao Zhao, Wen-Shan Zhan, . Appl Phys. Lett. 71(12)(1997)1727-1729 (被引次数：130) “Colossal Magnetoresistance of Spin-Glass Perovskite La_0.67Ca_0.33Mn_0.9Fe_0.1O₃ "

[23]C. Wang, J. K. Liang, et al., Physica C 260(1996)64-70. " Influence of Fluorine on the Properties of Nd_1.85Ce_0.15CuO₄ n-type Superconductor "(被引次数：5)

[24]J. R. Min, J. K. Liang, C. Wang, et al., J. Phys.: Condensed Matter 8(1996)2869-2879, " The Crystal structure and superconductivity of (Pb_0.5Cd_0.5)(Sr_0.9Ln_0.1)₂(Ln_0.7Ce_0.3)₂Cu₂O₉ (Ln=Pr, Sm, Eu, Gd and Dy) "

[25]C. Wang, J. K. Liang, X. L. Chen, et al., Phys. Stat. Sol. (a) 148(1995)219-228. " The Crystal Structure and Electrical Properties of Solid Solution Nd_2-x Pr_x CuO₄ "(被引次数：1 )

[26]C. Wang, J. K. Liang, et al., Proceedings of the 8th National Symposium on Phase Diagram (in Oct. 1995, Xi'An, China). 137-138 (in Chinese) “Experimental termination of the Phase Diagram of Nd₂O₃-Pr₆O₁₁-CuO”

[27]W. D. Zhuang, C. Wang, X. L. Chen, et al., J. Solid State Chemistry 115(1995)291-294, "Phase Relations of Nd₂O₃-Pr₆O₁₁-CuO Ternary System "

[28]X. L. Chen, J. K. Liang, W. H. Tang, C. Wang, et al., Phys. Rev. B, 52(1995)16233-16236. "Superconductivity at 55 K in La_0.7Sr_1.3Cu(O,F)₄₊d with Reduced CuO₂ Sheets and Apical Aanions " (被引次数：12)

[29]JMIN JR*; LIANG JK; CHEN XL; WANG C; RAO GH; WU F; DONG C. "Preferential Occupancy and Composition Driven C-axis Variation in (Pb_0.5Cd_0.5) (Sr, Y, Ca)₃ Cu₂O₇-Delta".Physical Review B - Condensed Matter and Materials Physics, 1995, 51(14): 9261-9270. (被引次数：1 )

[30]Xie Yun'an, Qiao Zhiyu, Xing Xianran, Wang Cong. Rare Metals (English Edition), 16(2)(1997)81-89 " Phase Equilibra Calculation of the Ga-Ln-Sb Ternary System".

[31]MIN JR*; LIANG JK; WANG C; WU F; DONG C; RAO GH, "Characterization of a new Pb-based 1222 Cuprate Pb(Sr_1.2La_0.8)Gd₂Cu₂O_9.06". .Journal of Physics: Condensed Matter , 1995, 7(30): L405-L410.

[32] X. L. Chen, J. K. Liang, C. Wang. ACTA Physica Sinica (Overseas Edition) 4(1995)259-267, " Effect of High-Angle Diffraction Data on Rietveld Structure Refinement "(被引次数：1)

[33]MIN JR*; LIANG JK; WANG C; WU F; CHEN H; DONG C; RAO GH. "Crystal Structure and Superconductivity of New Pb-based 1222 Cuprate (Pb_0.5Cd_0.5)(Sr_0.9Eu_0.1)₂(Eu_0.7Ce_0.3)₂Cu₂O_9-δ ".Journal of Physics: Condensed Matter , 1995, 7(30): 5975-5982. (被引次数：1 )

[34]MIN JR*; LIANG JK; CHEN XL; WANG C; DONG C; YU YD; CHENG XR; RAO GH. "Synthesis and Superconducting Properties of (Pb_0.5Cd_0.5)Sr₂(Y_0.5Ca_0.5)Cu₂O₇ ". Physica C-Superconductivity and Its Applications, 1995, 245(3-4): 281-286.

[35]MIN JR*; LIANG JK; JIN H; WANG C; CHEN H; YU YD; DONG C; RAO GH. "A New Family of Pb-based 1222 Cuprates Pb(Sr,La)₂Ln₂Cu₂O_z (Ln=Gd, Dy, Eu, and Pr) " .Physica C-Superconductivity and Its Applications, 1995, 249(1-2): 196-201.

[36]Zhiyu Qiao, Weidong Zhuang, Shoukun Wei, Lin Cheng, Cong Wang, Jingkui Liang. "Phase Relations in the Sm₂O₃-CeO₂-CuO Ternary System and the n- type Superconductor Sm_2-xCe_xCuO_4-δ " (421-431), < Ceramics Systems >> edited by Ray Y. Lin, Y. Austin Chang, Ramana G. Reddy, C. T. Liu. (The Minerals, Matals & Materials Society, 1995 )

[37]C. Wang, J. K. Liang, X. L. Chen. Proceedings of the Fifth National Conference on Superconductivity for Yong Scholars (in Hangzhou, China, Sept. 1994 ), 25-27. “Investigation about the Improvement of Tc for n-type Superconductor Nd_2-xCe_xCuO₄ " (in English).

[38]C. Wang, J. K. Liang, X. L. Chen, et al., "An Investigation about the Improvement of Tc for the n-type Superconductor Nd_2-xCe_xCuO₄ ".Phys. Stat. Sol. (a) 144(1994)157-162. (被引次数：1 )

[39]X. L. Chen, J. K. Liang, C. Wang, et al., " The Nd₂O₃-SrO- CuO System: Compounds and Phase Relations "J. Alloys and Compounds 205(1994)101-106, (被引次数：8)

[40]X. L. Chen, J. K. Liang, C. Wang, et al., "Oxygen Analysis for High-Tc Copper Oxides: An Alternative Method for the Determination of Solid Solution Limits". J. Alloys and Compounds 209(1994)65-70

[41]J. R. Min, J. K. Liang, X. L. Chen, C. Wang, et al., "The Effects of Chemical Substitutions on the (Pb,Cd)-1212 Superconducting Cuprates". Physica C 229(1994)169-176,

[42]J. R. Min, J. K. Liang, X. L. Chen, C. Wang, et al., "The Crystal Structure of (Pb_0.5Cd_0.5)Sr₂(Y_1-xCa_x )Cu₂O₇". Physica C 230(1994)389-396, （END）

发表中文期刊论文：

[1]梁冬冬, 任杰, 刘欢, 杨映新, Atsha Ambar, 孙莹, 王聪. Al₂O₃掺杂无色聚酰亚胺/Ag柔性薄膜的辐射致冷性能[J]. 硅酸盐学报, 2024, 52 (07): 2175-2186.

[2]马之杰, 孙莹, 袁秀良, 史可文, 王聪*. 锰基反钙钛矿化合物负/零热膨胀性质的研究进展[J]. 硅酸盐学报, 2023, 51 (01): 260-269.

[3]武永鑫,王聪.NiSiO₂太阳光谱选择吸收涂层的设计制备及热稳定性研究[J].功能材料,2018,49(09):9101-9106.

[4]黄文师,孙莹,王蕾,宁玉平,宋平,王聪.BiOCl光催化改性的研究进展[J].合成材料老化与应用,2018,47(01):112-118.

[5]张翼麟,王聪,孙莹,王蕾,宋平,代蓓蓓.SiWN/SiWON双吸收层薄膜的光吸收性能（英文）[J].硅酸盐学报,2018,46(05):633-637.

[6]王聪,代蓓蓓,于佳玉,王蕾,孙莹.太阳能光电、光热转换材料的研究现状与进展[J].硅酸盐学报,2017,45(11):1555-1568.

[7]王虎,武永鑫,王聪.槽式太阳能集热器用光谱选择性吸收涂层的研究进展[J].分布式能源,2016,1(01):52-56.

[8]史可文,孙莹,邓司浩,胡鹏伟,王蕾,卢会清,MUHAMMAD Imran Malik,赵文君,王聪.反钙钛矿化合物Mn₃Co_1-xN的磁相变及其反常热膨胀性能研究[J].中国科技论文,2016,11(11):1219-1222.

[9]史可文,孙莹*,邓司浩,王蕾,胡鹏伟,王聪.Sn掺杂对Mn₃Zn_1-xSn_xN化合物负热膨胀行为和电输运性能的影响[J].中国材料进展,2015,34(Z1):531-535+544.

[10]王聪,孙莹,王蕾,王天民.反常热膨胀功能材料的研究进展[J].中国材料进展,2015,34(Z1):497-502+543.

[11]伊木然,孙莹,邓司浩,史可文,胡鹏伟,王聪.Nitrogen-Induced Change of Magnetic Properties in Antiperovskite-Type Carbide:Mn_3InC[J].Chinese Physics Letters,2015,32(06):163-167.

[12]褚立华,王聪,孙莹,李美成,万子裴,王宇,窦尚轶,楚月.Doping Effect of Co at Ag Sites in Antiperovskite Mn₃AgN Compounds[J].Chinese Physics Letters,2015,32(04):130-133.

[13]王聪; 杨朝阳; 段红梅; 李晓光.碱性成纤维细胞生长因子-壳聚糖载体诱导神经干细胞向神经元分化并形成突触的研究.中国康复理论与实践, 2015, (04): 406-411.

[14]闫君,孙莹,王聪,史再兴,邓司浩,史可文,卢会清.Co掺杂对Mn₃Sn_1-xCo_xC_1.1化合物的磁性质、熵变以及磁卡效应的影响[J].物理学报,2014,63(16):349-355.

[15]史再兴,王聪,闫君,褚立华,丁磊,孙莹,温永春.反钙钛矿Mn₃AN(C)化合物中的负热膨胀与磁相转变（英文）[J].硅酸盐学报,2014,42(03):286-295.

[16]王聪; 文彬鹤; 司文杰; 彭滔; 袁成志; 陈填锐; 林文愉; 王勇; 侯安平.轴流压气机旋转失速建模与检测:Ⅰ——基于确定学习理论与高阶Moore-Greitzer模型的研究.自动化学报, 2014, (07): 1265-1277.

[17]谢万峰,闫金良,刘宇,薛亚飞,张易军,张放放,王聪.基底及HMVF层厚度变化对NbSiN/NbSiNO/Si_3N_4涂层光学性能的影响[J].太阳能学报,2014,35(01):145-148.

[18]王聪; 司文杰; 文彬鹤; 张明明; 王勇; 侯安平.轴流压气机旋转失速建模与检测Ⅱ:基于北航低速压气机试验台的实验研究.控制理论与应用, 2014, (10): 1414-1422.

[19]吴东奇,王文文,马丁,李东亮,王聪.金属Ag微网格修饰ITO薄膜的制备及光电性能[J].功能材料,2012,43(24):3402-3405+3409.

[20]胡靖宇,孙莹,王聪,赵清,张思佳,张庆华,李延春,刘景,靳常青,禹日成.Mn₃Zn_0.8Ni_0.2N的高压同步辐射研究[J].高压物理学报,2012,26(06):617-620.

[21]张放放,王聪,吴素娟,崔银芳,程久珊,王天民.Ag/BiOCl复合纳米薄膜的合成及光催化性能研究[J].稀有金属,2012,36(02):272-276.

[22]周珑,孙玉静,王聪.溅射工艺对金属Mo膜微观结构及红外反射特性的影响[J].科技传播,2012(03):160-162.

[23]纳元元,王聪,褚立华,丁磊,闫君.不同氮流量制备Mn₃CuN_x薄膜及其电、磁输运性质的研究[J].物理学报,2012,61(03):391-397.

[24]丁磊,王聪,褚立华,纳元元,闫君.反钙钛矿Mn₃AX化合物的晶格、磁性和电输运性质的研究进展[J].物理学报,2011,60(09):882-895.

[25]王怀义,刁训刚,王聪,郝维昌,王天民.一种增磁装置在磁控射频溅射制备薄膜中的应用[J].功能材料与器件学报,2011,17(03):237-241.

[26]崔毅,王聪,周瑜升,崔银芳.射频磁控溅射法制备Bi₂O₃薄膜的电致变色性能研究[J].功能材料与器件学报,2010,16(06):548-554.

[27]杨海刚,王聪,宋桂林,王天兴,常方高.WO₃薄膜的微观结构与电致变色机制研究[J].功能材料,2010,41(02):181-184.

[28]王怀义,刁训刚,王武育,郝维昌,王聪,王天民.基于磁控溅射制备纳米微晶NiO_x薄膜的方法[J].材料研究学报,2009,23(04):426-430.

[29]王怀义,刁训刚,王武育,郝维昌,王聪,王天民.基于WO₃和NiO_x的单基片全无机智能窗器件的快速制备及其性能的研究[J].功能材料,2009,40(08):1292-1296.

[30]孙莹,温永春,褚立华,聂曼,王聪.反钙钛矿结构锰氮化合物奇特的热膨胀性质(英文)[J].硅酸盐学报,2009,37(05):724-727+732.

[31]王怀义,刁训刚,王武育,杨海刚,郝维昌,王聪,王天民.液氮冷却法全无机智能窗器件的制备及其性能研究[J].光学学报,2009,29(05):1424-1430.

[32]杨海刚,王聪,朱开贵,刁训刚,王怀义,王天民.直流反应溅射制备NiO_x薄膜及其电致变色机理研究[J].稀有金属材料与工程,2009,38(S1):572-575.

[33]陈尔东,王聪.TiN_xO_y薄膜的制备及其光学特性[J].材料科学与工程学报,2008(05):706-708.

[34]安惠中,王聪,张俊英,郝维昌,王天民.复合蓄能光催化材料BiOCl/Sr₄Al₁₄O₂₅:Eu²⁺,Dy³⁺的研究[J].稀有金属材料与工程,2008(10):1714-1718.

[35]陈尔东,王聪,杨海刚,朱开贵.直流磁控溅射制备TiN_xO_y薄膜的性能研究[J].真空,2008(01):60-63.

[36]安惠中,王聪,王天民,郝维昌.M(M=Mg，Ca，Sr，Ba，Ni)Nb₂O₆的光催化性能的研究[J].无机材料学报,2007(05):922-926.

[37]温永春,王聪,孙莹.具有负膨胀性能的磁性材料[J].物理,2007(09):720-725.

[38]周珑,王天民,杜心康,陈步亮,茹宁,王聪.Mo-Al₂O₃金属陶瓷颗粒膜的光学常数研究[J].稀有金属材料与工程,2007(05):825-829.

[39]胡亚兰,刁训刚,郝维昌,王聪,王金良,王天民.基底温度对ITO薄膜红外发射特性的影响[J].红外,2004(01):21-24.

[40]王明松,张跃,宋强,王聪.负热膨胀材料立方ZrMo₂O₈合成研究[J].中国稀土学报,2003(S1):94-97.

[41]沈容,王聪,王天民,董成.A₂(MO₄)₃型化合物的晶体结构与热膨胀性质的研究[J].功能材料与器件学报,2003(02):213-218.

[42]沈容,王聪,王天民,熊常健.Zr_(1-x)Hf_xW₂O₈的合成及负热膨胀特性的研究[J].稀有金属,2003(03):324-327+338.

[43]张洪涛,王天民,王聪,王文军,韩宝玺,颜莎,赵渭江,韩雅芳.强脉冲离子束辐照对Ni_3Al基超合金IC6相变的影响[J].稀有金属材料与工程,2003(03):216-219.

[44]沈容,王聪,王天民.“负热膨胀”氧化物材料ZrW₂O₈的研究现状[J].无机材料学报,2002(06):1089-1094.

[45]张洪涛,王天民,王聪.物理气相沉积技术制备的硬质涂层耐腐蚀的研究进展[J].材料导报,2002(08):15-16+23.

[46]向钢,王聪,郑树凯,王天民.离子注入改善纳米二氧化钛薄膜光催化性能[J].功能材料与器件学报,2002(01):23-26.

[47]韦文生,王天民,王聪.氢化纳米硅薄膜光电性质及其应用研究进展[J].材料导报,2002(02):37-39.

[48]王聪,王天民,沈容,梁敬魁.新型负热膨胀氧化物材料的研究[J].物理,2001(12):772-777.

[49]沈容,王聪,王天民.新型“负热膨胀”氧化物材料[J].材料导报,2001(08):35-38.

发表会议论文：

[1]王聪. 太阳能热发电光热转换材料:光谱选择性吸收涂层的研究[C]. 2017储能材料与能量转换技术专题会议摘要集. 2017:27.

[2]孙莹.王聪. 反钙钛矿Mn₃XN化合物反常热膨胀与压磁效应研究[C]. 中国晶体学会第六届学术年会暨会员代表大会论文摘要集——多晶（粉晶）衍射分会. 2016:35.

[3]张云; 张跃; 王聪.制备耐高温ZrC包裹ZrO₂纳米多孔隔热陶瓷粉末.第十八届全国高技术陶瓷学术年会.

[4]Wang Cong*; Zhang Fangfang; Cheng Jiushan; Cui Yinfang; Wu Sujuan.Synthesis and Photocatalytic Properties of Cu2O/BiOCl semiconductor films.International Conference on Materials for Renewable Energy and Environment (ICMREE), 2014-08-19 to 2014-08-21.

[5]Wang, Cong*; Liu, Yilong; Jiang, Penglong; Zhang, Qingzhen; Tao, Fei; Zhang, Lin.Multiple Faults Detection with SoC Dynamic Reconfiguration System Based on FPGA.4th International Conference on Manufacturing Science and Engineering (ICMSE 2013), 2013-03-30 to 2013-03-31.

[6]Zhang, Qingzhen*; Jiang, Penglong; Liu, Zhun; Wang, Cong; Tao, Fei.The Implementation and Validation of Multidimensional Kalman Filter In SoC system.4th International Conference on Manufacturing Science and Engineering (ICMSE 2013), 2013-03-30 to 2013-03-31.

[7]Wang, Chaolei*; Wang, Tianmiao; Liang, Jianhong; Chen, Yang; Zhang, Yicheng; Wang, Cong.Monocular Visual SLAM for Small UAVs in GPS-denied Environments.IEEE International Conference on Robotics and Biomimetics (ROBIO), 2012-12-11 to 2012-12-14.

[8]王聪. 反钙钛矿结构Mn₃ZnN系列化合物相变与反常晶格变化的研究[C]. 中国物理学会相图专业委员会.第十六届全国相图学术会议暨相图与材料设计国际研讨会论文集.中国物理学会相图专业委员会:中国物理学会相图专业委员会,2012:50-51.

[9]王聪. 中子衍射技术对反钙钛矿Mn₃ZnN系列化合物磁结构与反常晶格变化的关联性研究[C]. 中国晶体学会第五届全国会员代表大会暨学术大会（粉末衍射分会场）论文摘要集. 2012:29.

[10]闫君.王聪. 中子衍射对Mn₃Sn_1-εSi_εC_1-δ反钙钛矿化合物磁性与反常晶格变化的关联性研究[C]. 第十一届全国X射线衍射学术大会暨国际衍射数据中心（ICDD）研讨会论文摘要集. 2012:384-387.

[11]褚立华.王聪. 反钙钛矿结构Mn₃NiN的磁性与反常晶格变化[C]. 第十届全国X射线衍射学术大会暨国际衍射数据中心（ICDD）研讨会论文摘要集. 2009:50-51.

[12]Huang, Qingzhen; Wang, Cong; Chu, Lihua; Yao, Qingrong; Wu, M. M.; Sun, Ying; Lynn, J. W.; Neumann, D. A..Control of thermal expansion behavior by zn deficiency in Mn3Zn1-xN

[13]Wang, Cong; Sun, Ying; Wen, Yongchun; Chu, Lihua; Nie, Man.Investigation of lattice contraction in Mn3XN(X=Zn, Cu, Sn).6th International Conference on Processing and Manufacturing of Advanced Materials, 2009-08-25 to 2009-08-29.

[14]C.Wang*; Y. Sun; Y.C. Wen; L. H. Chu; M. Nie.Lattice Contraction, magnetic transition and electronic transport in Mn3XN with anti-perovskite structure.The 1 ST International Workshop on Advanced Materials, 2009-02-22 to 2009-02-24.

[15]Yang H G; Wang C*; Cui Y; Zhu K G; Diao X G; Wang H Y; Wang T M.A novel inorganic ion conductor electrochromic device: MoO 3/LiAIO2/NiOx.MRS International Materials Research Conference, IMRC 2008, 2008-06-09 to 2008-06-12.

[16]Yang, H. G.; Wang, C.; Cui, Y.; Zhu, K. G.; Diao, X. G.; Wang, H. Y.; Wang, T. M..A Novel Inorganic Ion Conductor Electrochromic Device: MoO3/LiAlO2/NiOx.International Materials Research Conference, 2008-06-09 to 2008-06-12.

[17]C. Wang*; Y.C. Wen; Y. Sun.Magnetic Transition and Negative Thermal Expansion in Mn 3A 1-xBXC(N).The 14th National Conference and Multilateral Symposium On Phase Diagrams and Materials Design, 2008-11-03 to 2008-11-05.

[18]Y. Sun; C. Wang*; Y. C. Wen; K. G. Zhu; J. T. Zha.Negative Thermal Expansion, Magnetic and Electronic Transport Properties of Mn3Zn1-xGexN.The 2nd International Symposium on Innovations in Advanced Materials for Optics & Electronics, 2008-07-06 to 2008-07-09.

[19]刘宇.王聪. SiON薄膜的结构表征[C]. 中国晶体学会.中国晶体学会第四届全国会员代表大会暨学术会议学术论文摘要集.中国晶体学会:中国晶体学会,2008:258.

[20]Wang, Cong; Du, Xinkang; Wang, Tianmin.Nb-NbN Cermet Film as Solar Selective Coating.6th Pacific Rim International Conference on Advanced Materials and Processing, 2007-11-05 to 2007-11-09.

[21]Sun, Ying; Wang, Cong; Wen, Yongchun.Negative thermal expansion in Mn3Ga(Ge,Si)N anti-perovskite materials.6th Pacific Rim International Conference on Advanced Materials and Processing, 2007-11-05 to 2007-11-09.

[22]Du, Xinkang; Wang, Cong; Wang, Tianmin; Chen, Buliang; Zhou, Long; Ru, Ning.

[23]Wang Cong; Du Xinkang; Wang Tianmin; Zhou Long; Ru Ning; Chen Buliang.Preparation and optical properties of Nb-NbN multilayer films as solar selective absorptive coatings.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[24]聪. “反钙钛矿”结构材料Mn₃XN的磁相变与反常热膨胀性质[C]. 第十三届全国相图学术会议暨中日双边相图、材料设计及其应用研讨会论文集. 2006:755-757.

[25]孟慧.王聪. Zn掺杂的SnO₂纳米线的制备与结构表征[C]. 第九届全国X-射线衍射学术大会暨国际衍射数据中心（ICDD）研讨会论文摘要集. 2006:243-246.

[26]孙莹.王聪. “反钙钛矿”结构Mn₃GaN的磁相变与负膨胀性质[C]. 第九届全国X-射线衍射学术大会暨国际衍射数据中心（ICDD）研讨会论文摘要集. 2006:271-274.

[27]娄艳芳.王聪. Li₂O-TiO₂-B₂O₃体系固相线下的相关系[C]. 第九届全国X-射线衍射学术大会暨国际衍射数据中心（ICDD）研讨会论文摘要集. 2006:214-215.

[28]牛存刚.王聪. Al_（2-x）In_xW₃O₍₁₂₎的合成与热膨胀特性的研究[C]. 第九届全国X-射线衍射学术大会暨国际衍射数据中心（ICDD）研讨会论文摘要集. 2006:251-254.

[29]周珑.王聪. 溅射工艺对金属Nb薄膜微结构及红外反射特性的影响[C]. 第九届全国X-射线衍射学术大会暨国际衍射数据中心（ICDD）研讨会论文摘要集. 2006:455-458.

[30]牛存刚.王聪. 负热膨胀材料ZrMo₂O₈立方相的水热合成及表征[C]. 2006年材料科学与工程新进展——“2006北京国际材料周”论文集. 2006:143-147.

[31]周珑.王聪. Nb-NbN金属陶瓷复合膜的微观结构与光学性能[C]. 2006年材料科学与工程新进展——“2006北京国际材料周”论文集. 2006:311-315.

[32]茹宁.王聪. W-Al₂O₃金属陶瓷复合膜的制备与退火工艺对涂层吸收率影响的研究[C]. 2006年材料科学与工程新进展——“2006北京国际材料周”论文集. 2006:405-409.

[33]Xu, Lihai; Xu, Yuxing; Wang, Cong; Wang, Tianmin.Preparation and properties of Ce0.9Sm0.1O1.95 as the electrolytes of IT-SOFC.4th China International Conference on High-Performance Ceramics (CICC-4), 2005-10-23 to 2005-10-26.

[34]郝维昌.王聪. 慢正电子谱在功能薄膜研究中的应用[C]. 中国科学院核分析技术重点实验室、绍兴文理学院应用化学研究所.第九届全国正电子谱学会议论文集.中国科学院核分析技术重点实验室、绍兴文理学院应用化学研究所:中国核物理学会,2005:14.

[35]杨炜.王聪. NiNb₂O₆薄膜的制备及光催化降解性能的研究[C]. 中国材料研究学会.2004年中国材料研讨会论文摘要集.中国材料研究学会:中国材料研究学会,2004:132-133.

[36]杨炜.王聪. NiNb₂O₆薄膜的制备及光催化降解性能的研究[C]. 2004年材料科学与工程新进展. 2004:252-258.

[37]徐立海.王聪. 射频磁控溅射技术制备IT-SOFC电解质材料GDC的研究[C]. 第十二届中国固态离子学学术会议论文集. 2004:340-342.

[38]胡亚兰.王聪. Ag掺杂对纳米CeO₂拉曼活性的影啊[C]. 2002年材料科学与工程新进展（上）——2002年中国材料研讨会论文集. 2002:200-203.

[39]郑树凯.王聪. 射频磁控溅射制备TiO₂薄膜的研究[C]. 2002年材料科学与工程新进展（上）——2002年中国材料研讨会论文集. 2002:933-937.

[40]韦文生.王聪. nc-Si:H薄膜中硅自然量子点生长机制的研究[C]. 第四届中国功能材料及其应用学术会议论文集. 2001:806-809.

[41]王聪. 氧化物材料Zr_(1-x)Hf_xW₂O₈各向同性负热膨胀性能的研究[C]. 第四届中国功能材料及其应用学术会议论文集. 2001:996-998.

[42]郑树凯.王聪. TiO₂光催化薄膜的结构及性能研究[C]. 2000年材料科学与工程新进展（上）——2000年中国材料研讨会论文集. 2000:578-580.

荣誉奖励：

1、2012年,获得教育部自然科学二等奖（第四作者）。

2、1998年获国家冶金工业局科学技术进步二等奖。

3、1998年获第四届北京青年优秀科技论文一等奖。

4、德国洪堡学者，2006年教育部新世纪优秀人才。

社会任职：

1、中国晶体学会理事。

2、中国物理学会理事。

3、中国物理学会粉末衍射专业委员会副主任。

4、中国材料学会环境材料委员会副主任。

5、中国物理学会相图专业委员会委员。

6、中国晶体学会粉末衍射专业委员会委员。

7、国家能源太阳能热发电技术研发中心技术委员会委员。

8、国际衍射数据中心(ICDD)委员。

9、成都新能源产业技术研究院特聘咨询专家。

10、北京海淀区科委新能源项目特聘评审专家。

11、《硅酸盐学报》编委委员，《Journal of Materiomics》编委委员；《北京航空航天大学学报》编委委员，《中国材料进展》编委委员，《热能动力工程》编委委员，国际中文期刊《纳米技术》(Hans J. of Nanotechnology)编委委员，国际中文期刊《凝聚态物理学进展》编委委员，国际期刊《NAT》编委委员，Journal of Solar Energy ResearchUpdates主编。

CURRICULUM VITAE：

CURRICULUM  VITAE

Prof. Dr. Cong Wang: male, born in Sept. 1966, a Professor in Dept. of Physics, Beihang University in Beijing, China. His research interests are in the fields of condensed matter and materials physics, including ①structure, magnetic and electronic transport of antiperovskite structured A3XN materials; ②solar selective absorbing coatings for concentrated solar thermal power. He got his Ph. D in 1995 from Institute of Physics, Chinese Academy of Science (CAS), China. He was also an Alexander von Humboldt (AvH) research fellow, due to his working in Institute of Physical Chemistry, University of Karlsruhe in Germany from 2,1998-5,1999. He had ever worked in Laboratory GREMI (CNRS), University of Orleans in France (7,2002 – 10,2003), and Queen Mary, University of London (2-3, 2006) as a visiting scholar. He had also visited in National Institute of Standard and Technology (NIST) in USA for 3 months (9-12, 2009), and visits University of Blazer Pascal in Clermont Ferrand, France very often.

He is board member of Chinese Physical Society and Chinese Crystal Society, vice-director of Powder X-ray Diffraction Committee in Chinese Physical Society, vice-director of Ecomaterial Committee in Chinese Material Society, member of Phase Diagram and Phase Transition Committee in Chinese Physics Society, member of International Center for Diffraction Data (ICDD, USA). He is Editor –in-chief of Journal of Solar Energy Research Updates, and member in Editorial Board of the Journals: Journal of Materiomics, Materials China, J. Chinese Ceramic Society, J. of Beijing University of Aeronautics and Astronautics, Hans J. of Nanotechnology, NAT.

Up to now, he has published about 230 papers with the total citation index above 3000, 12 national patents and got his honor as New Century Excellent Talents in University from Ministry of Education in China in 2005, and an Award of Natural Science Achievement in University from Ministry of Education in China in 2012, due to his great contribution in the field of functional materials. He has given more than 30 invited speaks in International Conferences and organized 1^st National Workshop of Abnormal Thermal Expansion and Antiperovskite Materials and 4^th Chinese-French Symposium on Advanced Materials （CFSAM-4）as chairman of the organizing committee. Now he is carrying out research projects about high temperature stable solar selective absorbing coatings for solar thermal absorber, and structure, magnetic and electrical properties in antiperovskite structured materials Mn₃XN(C) from NSFC, MOST and some industrial companies. Prof. Cong Wang has guided 21 Ph.D. students and 24 M. Phil students and 10 are under progress.

Contact address:

Center for Condensed Matter and Materials Physics

Lab. of Solar Energy Physics

Dept. of Physics, Beihang University

100191, Beijing, P. R. China

Tel/Fax: 0086-10-82338346, 13691281903

E-mail：congwang@buaa.edu.cn

Representative publication：

Translation book: (sixth edition) written by Hans Luth, translated by Wang Cong, Sun Ying and Wang Lei. 

1. Kewen Shi, Ying Sun, Jun Yan, Sihao Deng, Lei Wang, Pengwei Hu, Huiqing Lu, Muhammad Imran Malik, Hui Wu, Qingzhen Huang, Cong Wang* Advanced Materials 28(2016)3761–3767 “Baromagnetic Effect in Antiperovskite Mn₃Ga_0.95N_0.94 by Neutron Powder Diffraction Analysis”

2. Sihao Deng*, Gerda Fischer, Marc Uhlarz, Joachim Wosnitza, Klaus-Peter Bohnen, Rolf Heid, Cong Wang, and Christoph Sürgers+, Advanced Functional Materials (2019) 1900947 “Controlling chiral spin states of a triangular-lattice magnet by cooling in a magnetic field”

3. Sihao Deng, Ying Sun,* Hui Wu, Qingzhen Huang, Jun Yan, Kewen Shi, Muhammad Imran Malik, Huiqing Lu, Lei Wang, Rongjin Huang, Laifeng Li, and Cong Wang*, Chem. Mater. 27(2015) 2495−2501, “Invar-like Behavior of Antiperovskite Mn_3+xNi_1-xN Compounds”

4. Kewen Shi, Cong Wang, Ying Sun,*, Lei Wang,*, Sihao Deng, Pengwei Hu, Huiqing Lu, Weichang Hao, Tianmin Wang, and Weihua Tang, ACS Appl. Mater. Interfaces 9(2017) 12592−12600 “Rectifying Characteristics and Semiconductor−Metal Transition Induced by Interfacial Potential in the Mn₃CuN/n-Si Intermetallic Heterojunction”

5. Kewen Shi, Ying Sun*, Claire V. Colin, Lei Wang, Jun Yan, Sihao Deng, Huiqing Lu, Wenjun Zhao,Yamaura Kazunari, Pierre Bordet, and Cong Wang*, Phys. Rev. B 97 (2018) 054110 “Investigation of the spin-lattice coupling in Mn₃Ga_1-xSn_xN antiperovskites”

6. Cong Wang*, Lihua Chu, Qingrong Yao, Ying Sun, Meimei Wu, Lei Ding, Jun Yan, Yuanyuan Na, Weihua Tang, Guannan Li, Qingzhen Huang, Jeffrey W. Lynn, Phys. Rev. B ( rapid comm.) 85 (2012) 220103(R) “Tuning the range, magnitude, and sign of the thermal expansion in intermetallic Mn3(Zn, M)x N(M = Ag, Ge)”

7. Ying Sun, Pengwei Hu, Kewen Shi, Hui Wu, Sihao Deng, Qingzhen Huang, Zhiyong Mao, Ping Song, Lei Wang, Weichang Hao, Shenghua Deng, and Cong Wang*, Phys. Rev. Mater. 3, 024409 (2019) 024409:1-7, “Giant zero-field cooling exchange-bias-like behavior in antiperovskite Mn₃Co_0.61Mn_0.39N compound”

8. P. Song, L. Ma,* G.K. Li, C.M. Zhen, C. Wang, E.K. Liu, W.H. Wang, J.L. Chen, G.H. Wu,Y.H. Xia, J. Zhang, C.M. Xie, H. Li, and D.L. Hou， Phys. Rev. Applied 11(2019) 054018 “Dynamic Magnetic-Transformation-Induced Exchange Bias in [α-Fe₂O₃]_0.1[FeTiO₃]_0.9”

9. Ying Sun, Cong Wang*, Qingzhen Huang, Yanfeng Guo, Lihua Chu, Masao Arai, Kazunari Yamaura Inorganic Chemistry 51(13)(2012)7232 “ Neutron diffraction study of unusual phase separation in the antiperovskite nitride Mn₃ZnN”

10. Yongxin Wu, Cong Wang*, Ying Sun, Yafei Xue, Yuping Ning, Wenwen Wang, Shuxi Zhao, Eric Tomasella, Angélique Bousquet Solar Energy Materials & Solar Cells 134(2015)373-380, “Optical simulation and experimental optimization of Al/NbMoN/NbMoON/SiO₂ solar selective absorbing coatings”

11. Yu Liu, Zhifeng Wang, Dongqiang Lei, Cong Wang*，Solar Energy Materials & Solar Cells 127(2014)143–146, “A new solar spectral selective absorbing coating of SS–(Fe₃O₄)/Mo/ TiZrN/TiZrON/SiON for high temperature application”

12. Lei Wang*, Cong Wang*, Hubin Luo and Ying Sun , J. Phys. Chem. C, 121(2017) 333−341“Correlation between Uniaxial Negative Thermal Expansion and Negative Linear Compressibility in Ag₃[Co(CN)₆]”

13. Jun Yan, Ying Sun*, Hui Wu, Qingzhen Huang , Cong Wang* , Zaixing Shi，Sihao Deng , Kewen Shi, Huiqing Lu, Lihua Chu, Acta Materialia 74 (2014) 58–65 “Phase transitions and Magnetocaloric effect in Mn₃Cu_0.89N_0.96".

14. Lei Ding, Cong Wang*, Lihua Chu, Jun Yan, Yuanyuan Na, Qingzhen Huang, Xiaolong Chen, Appl. Phys. Lett. 99 (2011) 251905 “Near zero temperature coefficient of resistivity in antiperovskite Mn₃Ni_1-xCu_xN”.

15. Ying Sun, Cong Wang*, Yongchun Wen, Kaigui Zhu，Jingtai Zhao， Appl. Phys. Lett. 91（2007）231913 “Lattice contraction and magnetic and electronic transport properties of Mn₃Zn_1-xGe_xN”.  

16. C. Wang, C. Dong, et al., Phys. Rev. B 55(1997)3935-3942. " The Relationship between Lattice Parameter and Superconductivity in the 2-1-4 Series Cuprates

17. Jian-Wang Cai, Cong Wang, Bao-Gen Shen, Jian-Gao Zhao, Wen-Shan Zhan, Appl. Phys. Lett. 71(12)(1997)1727-1729 “Colossal Magnetoresistance of Spin-Glass Perovskite La_0.67Ca_0.33Mn_0.9Fe_0.1O₃"

(END)