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Berger, C., Song, Z., Li, T., Li, X., Ogbazghi, A.Y., Feng, R., Dai, Z., Marchenkov, A.N., Conrad, E.H., First, P.N. and De Heer, W.A. (2004) Ultrathin Epitaxial Graphite:? 2D Electron Gas Properties and a Route toward Graphene-Based Nanoelectronics. The Journal of Physical Chemistry B, 108, 19912-19916. http://dx.doi.org/10.1021/jp040650f�
has been cited by the following article:
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TITLE:
Heteroatom Doped Multi-Layered Graphene Material for Hydrogen Storage Application
AUTHORS:
Arjunan Ariharan, Balasubramanian Viswanathan, Vaiyapuri Nandhakumar
KEYWORDS:
Hydrogen Storage, Carbon Materials, Graphene Materials, Heteroatom Doped Graphene, Phosphorous Doped Graphene, Hydrogen Storage Capacity
JOURNAL NAME:
Graphene,
Vol.5 No.2,
March
23,
2016
ABSTRACT: A variety of distinctive techniques have been developed to produce graphene sheets and their
functionalized subsidiaries or composites. The production of graphene sheets by oxidative exfoliation
of graphite can be a suitable route for the preparation of high volumes of graphene derivatives.
P-substituted graphene material is developed for its application in hydrogen sorption in
room temperature. Phosphorous doped graphene material with multi-layers of graphene shows a
nearly ~2.2 wt% hydrogen sorption capacity at 298 K and 100 bar. This value is higher than that
for reduced graphene oxide (RGO without phosphorous).
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