姓名:孙莹(副教授,博导)

职称: 副教授

邮箱: sunying@buaa.edu.cn

姓名:孙莹

职称:副教授

办公电话:

Email:sunying@buaa.edu.cn

办公地点:主楼415

研究方向:

零膨胀、零电阻温度系数、固态制冷、压磁等新型功能材料探索与物性研究

 

个人简介:

近几年在Adv. Mater., Chem. Mater., Physical. Review B,Acta Mater., Appl. Phys. Lett.等期刊上发表SCI论文80余篇,SCI引用1000余次。目前主持国家自然基金面上、北京市自然基金面上、航空科学基金等多项课题。

 

教育背景:

于2005年、2010年分别在中国地质大学(北京)、北京航空航天大学获学士、博士学位

 

工作经历:

2013.06-至今

澳门新葡亰1495app-平台游戏官网下载, 副教授

2010.09-2013.05

日本国立材料研究所(NIMS),博士后研究员

 

课题组主页(或个人主页):

http://phy-congw.buaa.edu.cn/

 

承担项目:

国家自然基金面上项目1项(主持)

国家自然基金重点项目1项(参与)

北京市自然基金面上项目1项(主持)

航空科学基金1项(主持)

北航青年拔尖人才支持计划项目1项(主持)

 

代表性学术成果:

[1] Kewen Shi,YingSun*, Claire V. Colin, et. al.,Investigation of the spin-lattice coupling in Mn3Ga1?xSnxNantiperovskites, Physical Review B, 2018, 97, 054110.

[2] Kewen Shi, Cong Wang,YingSun*, et al.,Rectifying Characteristics and Semiconductor-Metal Transition Induced byInterfacial Potential in the Mn3CuN/n-Si IntermetallicHeterojunction,ACS AppliedMaterials & Interfaces, 2017,9, 12592-12600.

[3] Sihao Deng,Ying Sun*, Hui Wu,et al.,Phase separation and zerothermal expansion in antiperovskite Mn3Zn0.77Mn0.19N0.94:An in situ neutron diffraction investigation,ScriptaMaterialia, 2017, 146, 18-21.

[4] Huiqing Lu,Ying Sun*, Sihao Deng,et al.,Tunable negative thermalexpansion and structural evolution in antiperovskite Mn3Ga1?xGexN(0 ≤ x ≤ 1.0),Journal of American CeramicSociety,2017, 100(12), 5739–5745.

[5] Kewen Shi,Ying Sun, Jun Yan, etal., Baromagnetic Effect in Antiperovskite Mn3Ga0.95N0.94by Neutron Powder Diffraction Analysis,Advanced Materials, 2016,28, 3761–3767.

[6] Sihao Deng,Ying Sun*, Hui Wu, etal., Invar-like Behavior of Antiperovskite Mn3+xNi1?xNCompounds,Chemistry of Materials,2015, 27, 2495?2501.

[7] Sihao Deng,Ying Sun*, Lei Wang, etal., Frustrated Triangular Magnetic Structures of Mn3ZnN:Applications in Thermal Expansion,Journal of Physical Chemistry C,2015, 119, 24983?24990.

[8] Jun Yan,Ying Sun*, Hui Wu, et al., Phasetransitions and magnetocaloric effect in Mn3Cu0.89N0.96,ActaMaterialia, 2014, 74, 58–65.

[9] Ying Sun*, Yanfeng Guo, YoshihiroTsujimoto, et al., Carbon-Induced Ferromagnetism in the AntiferromagneticMetallic Host Material Mn3ZnN,Inorganic chemistry,2013, 52(2), 800.

[10]YingSun, Cong Wang, Qingzhen Huang, et al., Neutron diffractionstudy of unusual phase separation in the antiperovskite nitride Mn3ZnN.InorganicChemistry,2012, 51(13), 7232.

[11]Y. S.Sun*, Y. F. Guo, and X. X. Wang et al, Resistive switching phenomenondriven by antiferromagnetic phase separation in an antiperovskite nitride Mn3ZnN.AppliedPhysics Letters,2012, 100, 161907.

[12]SihaoDeng,Ying Sun, Lei Wang, et al., Near-zero temperaturecoefficient of resistivity associated with magnetic ordering in antiperovskiteMn3+xNi1?xN,Applied Physics Letters, 2016,108, 041908.

[13]JunYan,Ying Sun, Yongchun Wen, et al., Relationship betweenSpin Ordering, Entropy, and Anomalous Lattice Variation in Mn3Sn1?εSiεC1?δCompounds,Inorg.Chem.2014, 53, 2317?2324.

[14]Jun Yan,Ying Sun*, Cong Wang, et al., Studyof structure of Mn3Cu0.5Ge0.5N/Cu compositewith nearly zero thermal expansion behavior around room temperature,ScriptaMaterialia, 2014, 84–85, 19–22.

[15]YingSun*, Yanfeng Guo, Jun Li, et al., The Unusual ResistivityBehavior and Correlated Magnetic Properties of Antiperovskite Mn3Ag1-xMxN(M = Sn, Zn) Compounds,Science of Advanced Materials, 2014, 6,1394-1398.

[16]YingSun*, Yanfeng Guo, Yoshihiro Tsujimoto, et al., Unusualmagnetic hysteresis and the weakened transition behavior induced by Snsubstitution in Mn3SbN,Journal of Applied Physics,2014,115, 043509.

[17]Ying Sun, Cong Wang, Yongchun Wen,et al. Low temperature coefficient of resistivity induced by magnetictransition and lattice contraction in Mn3NiN compound.ScriptaMaterialia, 2010, 62, 686-689.

[18]Ying Sun, Cong Wang, Lihua Chu,et al. Negative Thermal Expansion and Correlated Magnetic and ElectricalProperties of Si-Doped Mn3GaN Compounds.Journal of AmericanCeramic Society, 2010, 93 [3], 650–653.

[19]Ying Sun, Cong Wang, Yongchun Wen,et al. Negative thermal expansion and magnetic transition inanti-perovskite structured Mn3Zn1-xSnxNcompounds.Journal of American Ceramic society, 2010, 93 [3],2178–2181.

[20]Ying Sun, Cong Wang, YongchunWen, et al. Lattice contraction and magnetic and electronic transportproperties of Mn3Zn1?xGexN.AppliedPhysics Letters, 2007, 91, 231913.

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