| 王岩,博士,副教授,硕士生导师
地址:中国.湖北.武汉.东湖新技术开发区光谷一路206号,tyc234cc 太阳成集团tyc234cc 太阳成集团
邮编:430205
Email:wylzrfd@163.com
电话:+86-27-87194980
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教育背景
2009 - 2014 华中科技大学光电国家实验室,博士
2005 - 2009 烟台大学光电学院,学士
工作履历
2019.12至今 tyc234cc 太阳成集团tyc234cc 太阳成集团,副教授
2018.7-2018.8 香港城市大学材料科学及工程学系,访问学者
2018.5-2018.7 国立清华大学动力机械工程学系,助理研究员
2016.7-2018.5 国立清华大学材料科学工程学系,博士后研究员
2015.3-2019.12 tyc234cc 太阳成集团tyc234cc 太阳成集团,讲师
学术兼职
Journal of Materials Chemistry A, Journal of Power Sources, Chemical Engineering Journal, ACS Sustainable Chemistry & Engineering, Environmental Science Nano, Electrochimica Acta等期刊审稿人
研究领域
电化学储能与动力电池:新能源汽车、工业电力系统的能源驱动;
新型薄膜制备技术:激光法、磁控法、蒸镀法等成膜技术;
全固态薄膜型微电池:微电子芯片的集成电源系统;
液流电池:太阳能、风能等绿色能源的储能系统。
奖励与荣誉
2019:“优秀青年标兵”
学术成果
代表性论文:
1. Peng Q., Wang Y.*, Yang G., High crystallinity, preferred orientation and superior reversible capacity P2-Na0.67Ni0.25Mn0.75O2 thin film as cathode material for wide voltage sodium-ion battery, Electrochimica Acta, 2020, 337, 135761.
2. Chen J., Liu S., Wang Y.*, Technological condition optimization and kinetic study on the electrochemical soluble manganese(III) production in H2SO4. Chemical Papers, 2019, 821-831.
3. Yang H., Duh J.G., Chen H.Y., Wang Y., Synthesis and in-situ investigation of olivine LiMnPO4 composites substituted with tetravalent vanadium in high-rate Li-ion batteries, ACS Applied Energy Materials, 2018, 1, 6208-6216.
4. Yang H., Wang Y.*, Duh J.G., Developing a Diamine-Assisted Polymerization Method To Synthesize Nano-LiMnPO4 with N‑Doped Carbon from Polyamides for High-Performance Li-Ion Batteries, ACS Sustainable Chemistry & Engineering, 2018, 6, 13302-13311.
5. Wang Y., Wu C.Y., Yang H., Duh J.G., Rational design of a synthetic strategy, carburizing approach and pore-forming pattern to unlock the cycle reversibility and rate capability of micro-agglomerated LiMn0.8Fe0.2PO4 cathode materials, Journal of Materials Chemistry A, 2018, 6, 10395-10403.
6. Wang Y., Yang H., Wu C.Y., Duh J.G., Facile and controllable one-pot synthesis of nickel-doped LiMn0.8Fe0.2PO4 nanosheets as high performance cathode materials for lithium-ion batteries, Journal of Materials Chemistry A, 2017, 5, 18674-18683.
7. Peng Q., Liu Y., Luo Y., Zhou Z., Wang Y.*, Long H., Lu P., Chen J., Yang G., Unlocking the electrochemistry abilities of nanoscaled Na2/3Ni1/4Mn3/4O2 thin films, Electrochimica Acta, 2016, 215, 550-555.
8. Wang Y., Yang G., Peng Q., Lu P., Excellent Electrochemical Performance and Thermal Stability of LiNi0.5Mn1.5O4 Thin-film Cathode Prepared by Pulsed Laser Deposition, Advanced Materials Research, 2014, 853, 83-89.
9. Wang Y., Peng Q., Yang G., Yang Z., Zhang L., Huang Y., Lu, P., High-stability 5V spinel LiNi0.5Mn1.5O4 sputtered thin film electrodes by modifying with aluminium oxide, Electrochimica Acta, 2014, 136, 450-456.
10. Wang Y., Yang G., Yang Z., Zhang L., Fu M., Long H., Li Z., Huang Y., Lu, P., High power and capacity of LiNi0.5Mn1.5O4 thin films cathodes prepared by pulsed laser deposition, Electrochimica Acta, 2013, 102, 416-422.
11. Zhang L., Yang G., Wang K., Fu M., Wang Y., Long H., Lu, P., Highly ordered ZnO nanohole arrays: Fabrication and enhanced two-photon absorption, Optics Communication, 2013, 291, 395-399.