Prof. Yu WANG
State Key Laboratory of Multiphase Complex Systems
Institute of Process Engineering, Chinese Academy of Sciences
No.1 Zhongguancun North Second Street,
Beijing, P.R. China 100190
Email: wyu@ipe.ac.cn
Research Areas
Manufacturing Technology of Two-Dimensional Materials,
Solar Energy-Transfer Process,
Metal Anti-Corrosion Science,
Thermal Energy Dissipation Technology
Education
Ph.D., Institute of Chemistry, Chinese Academy of Sciences, 2008
Research Fellow, National University of Singapore, 2013,
Publications
Papers
1) Wang Y., Lee W.C., et al., Advanced Materials 24(31), 4285-4290, 2012. 2) Wang Y., Jaiswal M., et al., ACS Nano 6(2), 1018-1025, 2012. 3) Wang Y., Zheng Y., et al., ACS Nano 5(12), 9927-9933, 2011. 4) Wang Y., Tong S.W., et al., Advanced Materials 23(13), 1514-1518, 2011. 5) Wang Y., Xu X.F., et al., ACS Nano 4(10), 6146-6152, 2010. 6) Wang Y., Chen X.H., et al., Applied Physics Letters 95(6), 063302, 2009. 7) Wang Y., Huang L.P., et al., Nano Research 2(11), 865-871, 2009. 8) Wang Y., Di C.A., et al., Advanced Materials 20(23), 4442- 4449, 2008. 9) Xu X.F., Pereira L. F. C., Wang Y., et al., Nature Communications 5:3689, 2014 10) Bao Q.L., Zhang H., Wang B., Ni Z.H., Lim CHYX, Wang Y., et al., Nature Photonics 5(7), 411-415, 2011 11) Pachoud A., Jaiswal M., Wang Y., Hong B.H., et al., Scientific Reports 3, 3404, 2013. 12) Ng A.M.H., Wang Y., et al., Carbon 67, 390-397, 2014. 13) Liu Y.P., Jung E., Wang Y., et al., Small 10(5), 944-949, 2014. 14) Ang P.K., Li A., Jaiswal M., WangU Y., Hou, H.W., et al., Nano Letters 11(12), 5240-5246, 2011. 15) Tong S.W., Wang Y., Zheng Y., et al., Advanced Functional Materials 21(23), 4430-4435, 2011. 16) Wei D.C., Liu Y.Q., Wang Y., et al., Nano Letters 9(5), 1752-1758, 2009. |
Research Interests
1. The Manufacturing Technology of Two-Dimensional Materials (Like Graphene etc.) |
2. Towards Sustainable Materials for Solar Energy Conversion |
Natural photosynthesis has long motivated extensive research activity in chemistry, biology, physics, and materials science to understand solar energy-transfer processes using artificial materials and technologies to achieve photovoltaics, water splitting, and environmental purification through sunlight. Composite hybrid devices will be fabricated that use synthetic graphene as a working transparent conducting electrode and the organic/inorganic nanostructure as the active functional nanomaterial. |
3. Atomically-Thin Nanostructure Membranes for Environment Applications |
Two-dimensional atom coatings can be grown directly on a range of metal surfaces and is even able to cover step edges and small defects in metal surfaces in a carpet-like fashion. Building on the perfect molecule structure and excellent physical properties in electronics, phononics, etc, investigations are now focusing on the applications of graphene coating in anti-corrosion science, separation process, and thermal energy dissipation technology. |
Students
已指导学生
焦柯嘉 博士研究生 080502-材料学
李天艳 硕士研究生 085204-材料工程
王秦欢 硕士研究生 085216-化学工程
司鹏超 博士研究生 080502-材料学
现指导学生
孔昊然 博士研究生 080502-材料学
闫瑾 硕士研究生 080500-材料科学与工程
李昱廷 博士研究生 080502-材料学