Activated carbon immersed in water-the origin of linear correlation between enthalpy of immersion and oxygen content studied by molecular dynamics simulation

Artur P. Terzyk; Piotr A. Gauden; Sylwester Furmaniak; Radoslaw P. Wesolowski; Piotr Kowalczyk

doi:10.1039/c003894f

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Activated carbon immersed in water-the origin of linear correlation between enthalpy of immersion and oxygen content studied by molecular dynamics simulation

Journal article

Peer reviewed

Activated carbon immersed in water-the origin of linear correlation between enthalpy of immersion and oxygen content studied by molecular dynamics simulation

Artur P. Terzyk, Piotr A. Gauden, Sylwester Furmaniak, Radoslaw P. Wesolowski and Piotr Kowalczyk

Physical Chemistry Chemical Physics : PCCP, Vol.12(36), pp.10701-10713

2010

DOI: https://doi.org/10.1039/c003894f

PMID: 20668768

Abstract

First Molecular Dynamics simulation results of activated carbon immersion in water are reported. Using a Virtual Porous Carbon Model of "soft'' carbon the influence of surface oxygen content, distribution of groups and micropore diameter on the enthalpy of immersion is studied. The empirical relation between enthalpy and concentration of surface groups (as well as polar surface area) is reproduced by molecular simulation results. It is shown that for strongly hydrophobic carbons immersed in water, the water-vapour interface inside pores appears. This interface vanishes with the rise in content of surface oxygen. We discuss some nuances of the interfacial region using proximal distribution functions and hydrogen bonds statistics. Finally we conclude that the mechanism of immersion process is in accordance with Pratt-Chandler theory of hydrophobic interactions.

Details

Title: Activated carbon immersed in water-the origin of linear correlation between enthalpy of immersion and oxygen content studied by molecular dynamics simulation
Authors/Creators: Artur P. Terzyk - Materials Research Group (United States)
Piotr A. Gauden - Materials Research Group (United States)
Sylwester Furmaniak - Materials Research Group (United States)
Radoslaw P. Wesolowski - N Copernicus Univ, Dept Chem, Physicochem Carbon Mat Res Grp, PL-87100 Torun, Poland
Piotr Kowalczyk - RMIT University
Publication Details: Physical Chemistry Chemical Physics : PCCP, Vol.12(36), pp.10701-10713
Publisher: Royal Society of Chemistry
Number of pages: 13
Identifiers: 991005560366007891
Copyright: © the Owner Societies 2010
Murdoch Affiliation: Centre for Water, Energy and Waste
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 2 Chemistry; 2.90 Water Treatment; 2.90.27 Adsorption
Web Of Science research areas: Chemistry, Physical; Physics, Atomic, Molecular & Chemical
ESI research areas: Chemistry