Evgeny Galunin

TL;DR: Detailed information and review on the adsorption of noxious heavy metal ions from wastewater effluents using various adsorbents - i.e., conventional (activated carbons, zeolites, clays, biosorbents, and industrial by-products) and nanostructured (fullerenes, carbon nanotubes, graphenes) is presented.

TL;DR: The present paper is focused on the remediation of noxious wastes from wastewater using graphene based materials as adsorbents, and it contains all the details on materials - i.e., from their synthesis to application in the field of wastewater treatment (removal of hazardous contaminants of different chemical nature - heavy and rare-earth metal ions, and organic compounds - from wastewater effluents).

TL;DR: A critical evaluation of the contribution of graphene nanomaterials in water treatment and suggestions are given to explore the full potential of these materials along with precautions of nanotoxicity and its hazards.

TL;DR: In this article, a method of carbon nanotubes synthesis on a nickel magnesium oxide (Ni-MgO) catalyst using microwave radiation at the production stage was developed and presented and the effect of this radiation on the catalyst characteristics (specific surface area, catalytic activity, etc.) was experimentally considered.

TL;DR: In this article, the application of carbon nanostructures such as carbon nanotubes and graphene, as nano-additives to lubricants in order to improve their tribological characteristics i.e. to decrease friction and wear.