Methodological, applied and thermodynamic aspects of hydrogen sorption by graphite and related carbon nanostructures
Literature Information
Yurii S. Nechaev, Ol'ga K. Alekseeva
Results of the experimental and theoretical investigations into hydrogen sorption by various carbon nanostructures, including fullerenes, single-walled and multi-walled nanotubes, nanofibres, nanographite and nanographite-based composites are surveyed. Results of a thermodynamic analysis of the most significant experimental data are presented. The emphasis is placed on the studies reporting the extremum sorption parameters. The thermodynamic and kinetic (diffusion) parameters and equations describing the sorption processes are refined. The prospects of the applications of new carbon nanomaterials for hydrogen storage in the automotive industry are discussed. The bibliography includes 206 references.
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Russian Chemical Reviews
Founded in 1932, Russian Chemical Reviews aims to publish timely and important review articles covering most aspects of modern chemistry, including: Chemical physics Physical chemistry Computational and theoretical chemistry Catalysis Coordination chemistry Analytical chemistry Organic, organometallic and organoelement chemistry Chemistry of macromolecules Applied chemistry Biochemistry, bio-organic chemistry and biomolecular chemistry Medicinal chemistry Materials chemistry, nanochemistry, nanostructures Environmental chemistry
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