姓名:马扬洲
|
|
所在系所:材料物理与化学系
|
职称:讲师(博士)
|
邮箱:yangzhou.ma@outlook.com
|
|
教育背景
2012.12 –2016.03 法国贝尔福-蒙贝利亚技术大学 (UTBM) (博士学位)2009.09 –2012.06 西安交通大学,微电子与固体电子学专业 (硕士学位)2005.09 –2009.06 西安交通大学,电子科学与技术专业 (学士学位)
工作履历
2016.8~至今: 新葡的京集团350vip8888
课程教学
《能源材料》,《光催化材料及应用》,《计算材料学》等专业课程
研究领域
锂离子电池;超级电容器;光催化;燃料电池等
学术成果
参与国家自然科学基金面上项目2项、
主持安徽省自然科学基金面上项目1项,
安徽省高校自然科学研究重点项目1项,
海洋新材料重点实验室开放课题1项,
安徽工业大学教改重点项目1项等
发表论文SCI/EI收录十余篇,
国家发明专利2项,
2017年度获批安徽省引才平台资助奖励等。
代表性论文:
l Y. Xu*, Z. Zhang, S. Mao, Y. Ma, Corrosion behavior of different tantalum crystal faces in NH4Br–ethanol solution and DFT calculation, Applied Surface Science, 280 (2013)247–255
l Y. Ma*, N. Fenineche, O. Elkedim, Ab initio study of La10−xSrx(Si,Ge)6O27−0.5x apatite for SOFC electrolyte, Computational Materials Science, 109 (2015) 25–33
l Y. Ma*, N. Fenineche, O. Elkedim et al. Synthesis of Pure La10-x SrxSi6O27-0.5x Apatites Using an Optimized Sol-Gel Process. ECS Transactions, 2015, 68(1) 509-522.
l Y. Ma*, N. Fenineche, O. Elkedim et al. Synthesis of apatite type La10-xSrxSi6O27-0.5x powders for IT-SOFC using sol-gel process. International Journal of Hydrogen Energy, 2016,41(23) 9993-10000.
l Z. Zhang*, O. Elkedim, Y. Ma et al. The phase transformation and electrochemical properties of TiNi alloys with Cu substitution: Experiments and first-principle calculations. International Journal of Hydrogen Energy, 42.2 (2017) 1444-1450.
l Z. Yu, Y. Ma*, Y. Zhao et al. Effect of precursor solutions on ZnO film via solution precursor plasma spray and corresponding gas sensing performances. Applied Surface Science. 412 (2017) 683-689.
l Y. Ma*, N. Fenineche, O. Elkedim et al, Sr-doping effect on apatite type La10Si6O27 electrolyte: experiments and ab-initio calculation. Materials Physics and Mechanics, 32.1 (2017) 1-7.
l Y. Ma*, M. Moliere, N. Fenineche et al. Novel chemical reaction co-precipitation method for the synthesis of apatite-type lanthanum silicate as an electrolyte in SOFC. Journal of Alloys and compounds, 723 (2017) 418-424.
l Z. Yu, H. Moussa, Y Ma et al. Oxygen-defective ZnO films with various nanostructures prepared via a rapid one-step process and corresponding photocatalytic degradation applications. Journal of Colloid and Interface Science, 534 (2019) 637-648.
l Y. Ma, Z. Yu, M. Liu et al. Deposition of binder-free oxygen-vacancies NiCo2O4 based films with hollow microspheres via solution precursor thermal spray for supercapacitors. Ceramics International 45 (2019) 10722–10732.