J. Skubiszewska–Zięba scite author profile

The extensive oxygen-group functionality of single-layer graphene oxide proffers useful anchor sites for chemical functionalization in the controlled formation of graphene architecture and composites. However, the physicochemical environment of graphene oxide and its single-atom thickness facilitate its ability to undergo conformational changes due to responses to its environment, whether pH, salinity, or temperature. Here, we report experimental and molecular simulations confirming the conformational changes of single-layer graphene oxide sheets from the wet or dry state. MD, PM6, and ab initio simulations of dry SLG and dry and wetted SLGO and electron microscopy imaging show marked differences in the properties of the materials that can explain variations in previously observed results for the pH dependent behavior of SLGO and electrical conductivity of chemically modified graphene-polymer composites. Understanding the physicochemical responses of graphene and graphene oxide architecture and performing selected chemistry will ultimately facilitate greater tunability of their performance.

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Interaction of poly(ethylene oxide) with fumed silica

Воронин

Gun'ko

Guzenko

et al. 2004

Journal of Colloid and Interface Science

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pH-driven physicochemical conformational changes of single-layer graphene oxide

et al. 2011

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Impact of Some Organics on Structural and Adsorptive Characteristics of Fumed Silica in Different Media

et al. 2002

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Fumed Silicas Possessing Different Morphology and Hydrophilicity

Gun'ko

Mironyuk

Zarko

et al. 2001

Journal of Colloid and Interface Science

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