个人简介

2014.11 西安交通大学材料学院 副教授 2013.02 美国堪萨斯大学物理系 博士后 科研项目 无铅钛酸钡基多层薄膜的结构设计与宽温储能特性研究 界面微观结构在宽温谱电容器高性能化中的作用机制 高性能钛酸钡基超晶格的制备与微波介电性能研究 界面应力调控铅镧镐钛氧薄膜的储能密度 应力调控外延铁电薄膜及其在集成多功能电容器的应用

研究领域

界面调控功能氧化物薄膜性质 宽温高性能储能材料的制备与性能研究 石墨烯及相关二维材料纳米器件

1. 界面调控功能氧化物薄膜性质 表面和界面是材料中普遍存在的结构组成单元，对材料物理性能（电、磁、光学特性）、化学性能（氧化、偏聚）及力学性能（强度、塑性、蠕变、断裂……）有着重要影响。界面的形态、原子构型对材料的性能及服役能力影响很大。通过界面的裁剪和优化控制，设计并制备出具有性能优异的功能（铁电、铁磁、介电等）材料。 2. 石墨烯及相关二维材料纳米器件 石墨烯作为二维材料的一种，具有高的电子迁移率、热导率和透光率，它已经成为纳米电子器件的宠儿。制备和开发光电、气体、生物等各种新型纳米传感器，使在微小电压下能够调控石墨烯性能，推动石墨烯纳米电子元器件的实际应用。 3. 宽温高性能储能材料的制备与研究 随着电子器件向着小型化、集成化、轻量化的方向发展，亟需提高电容器在高温的储能密度和热稳定性，尤其是在航天航空、石油钻井、电动汽车等领域。通过组分比、结构以及膜厚调控提高钛酸钡基材料在-200oC~300oC温度区间的储能特性和热稳定性，为开发和研究宽温高储能密度电容器提供必要的实验基础和理论依据。

近期论文

查看导师新发文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Yang, Y., Ma, C.(共同第一作者), Liu, M., Zhao, H. J., Lin, Y., Chen, C. & Bellaiche, L. Creating a low-symmetry insulating, ferroelectric, and antiferromagnetic material from a high-symmetrical metallic ferromagnet via defect engineering: The case of LaBaCo2O5+d compounds. Physical Review B 95, 165132, 2017 Hu, G., Pandey, G. P., Liu, Q., Anaredy, R. S., Ma, C. *, Liu, M., Li, J., Shaw, S. K. & Wu,J.* Self-Organization of Ions at the Interface between Graphene and Ionic Liquid DEME-TFSI. ACS Applied Materials & Interfaces 9, 35437-35443, 2017. L .K. Shen, L. Wu, Q. Sheng, C. R. Ma,* Y. Zhang, S. Cheng, L. Lu, J. Ma, J. Ma, J. H. Bian, Y. D. Yang, A. P. Chen, X. L. Lu, M.Liu*, H. Wang, C. L. Jia, Epitaxial Lift-Off of Centimeter-Scaled Spinel Ferrite Oxide Thin Films for Flexible Electronics Advanced Materials 29, 1702411, 2017 受邀以Video Abstract和Advanced Science News进行重点报道 https://v.qq.com/x/page/s0546qkmnp5.html?ptag=qqbrowser Chunrui Ma*, Rongtao Lu, Guangliang Hu, Jinsheng Han, Ming Liu, Jun Li and Judy Wu* Detecting electric dipoles interaction at the interface of ferroelectric and electrolyte using graphene field effect transistors ACS Applied Materials & Interfaces 9, 4244, 2017 Z. X. Sun,^ C. R. Ma^ (共同第一), M. Liu*, J. Cui, L. Lu, J. B. Lu, X. J. Lou, L. Jin, H. Wang*, C. L. Jia. Ultrahigh Energy Storage Performance of Lead-Free Multilayer Film Capacitors via Interface Engineering, Advanced Materials, 29, 1604427, 2017 C. R. Ma, D. Han, M. Liu, G. Collins, H. B. Wang, X. Xu, Y. Lin, J. C. Jiang, S. B. Zhang*, C. L. Chen*, Anisotropic Strain Induced Directional Metallicity in Highly Epitaxial LaBaCo2O5.5+δThin Films on (110) NdGaO3, Scientific Reports, 6, 37337, 2016 Lvkang Shen,Chunrui Ma*,Shaodong Cheng, Shengping Ren, Sheng Cheng,Shaobo Mi, and Ming Liu Enhanced Magnetic Properties in Epitaxial Self-Assembled Vertically Aligned Nanocomposite (Pr0.5Ba0.5MnO3)0.5: (CeO2)0.5 thin film Journal of Materials Chemistry C, 4,10955, 2016 Guangliang Hu, Chunrui Ma*,Wei Wei, Zixiong Sun, Lu Lu, Shao-Bo Mi, Ming Liu* , Beihai Ma,Judy Wu, and Chun-lin Jia Enhanced Energy Density with Wide Thermal Stability in EpitaxialPb0.92La0.08Zr0.52Ti0.48O3 Thin Films Applied Physics Letter, 109, 193904 2016 S. Cheng, J. B. Lu, D. Han, M. Liu*, X. L. Lu, C. R. Ma, S. B. Zhang, C. L. Chen. Manipulation of Optical Transmittance by Ordered-Oxygen-Vacancy in Epitaxial LaBaCo2O5.5+d Thin Films, Scientific Reports, 6, 37496 2016. Ma, C.*, Gong, Y., Lu, R., Brown, E., Ma, B., Li, J. & Wu, J.* Detangling Extrinsic and Intrinsic Hysteresis for Detecting Dynamic Switch of Electric Dipoles using Graphene Field-Effect Transistors on Ferroelectric Gates. Nanoscale 7, 18489 2015. it is selected as back cover. Pal, M.*, Liu, M., Ma, C. R., Chen, C. L., Guo, R. & Bhalla, A. Ferroelectric-relaxor behavior of highly epitaxial Barium Zirconium Titanate thin films. Journal of Nano Research 34, 67-72, 2015. Liu, M.*, Ren, S. P., Zhang, R. Y., Xue, Z. Y., Ma, C. R., Yin, M. L., Xu, X., Bao, S. Y. & Chen, C. L.* Gas Sensing Properties of Epitaxial LaBaCo2O5.5+d Thin Films. Scientific Reports 5, 10784, 2015.