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On the mechanism of hydrophilicity of graphene

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arxiv 1608.06628 v1 pith:7FIDNW7E submitted 2016-08-23 cond-mat.mtrl-sci

On the mechanism of hydrophilicity of graphene

classification cond-mat.mtrl-sci
keywords graphenefermihydrophilicitylevelsubstrateintrinsicshiftingunderlying
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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It is generally accepted that the hydrophilic property of graphene can be affected by the underlying substrate. However, the role of intrinsic vs. substrate contributions and the related mechanisms are vividly debated. Here we show that the intrinsic hydrophilicity of graphene can be intimately connected to the position of its Fermi level, which affects the interaction between graphene and water molecules. The underlying substrate, or dopants, can tune hydrophilicity by modulating the Fermi level of graphene. By shifting the Fermi level of graphene away from its Dirac point, via either chemical or electrical voltage doping, we show enhanced hydrophilicity with experiments and first principle simulations. Increased vapor condensation on graphene, induced by a simple shifting of its Fermi level, exemplifies applications in the area of interfacial transport phenomena.

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