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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.

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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

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1.         The Manufacturing   Technology of Two-Dimensional Materials (Like Graphene etc.)

We developed a set of   synthetic and production techniques to obtain large-area, high quality   graphene and its derivative films (graphane, Fluorographene, N-doped   graphene) with composition and structure control. Our present interests are   in the engineering of continuous production of graphene and other   two-dimensional materials.

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.