Article ID Journal Published Year Pages File Type
1403915 Journal of Molecular Structure 2011 7 Pages PDF
Abstract

The structure optimizations of all configurations of H2O and NH3 adsorbed on ZnO nanoclusters (ZnONCs), aromatic-like (AL-ZnONC), naphthalene-like (NLL-ZnONC), pyrene-like (PRL-ZnONC) and ZnO graphene-like nanosheets (ZnOGLNSs), coronene-like (CNL-ZnONS) and circumcoronene-like (CCL-ZnONS) were carried out using the B3LYP/LanL2DZ calculations. Adsorption energies of H2O and NH3 on AL-ZnONC, NLL-ZnONC, PRL-ZnONC, CNL-ZnONS and CCL-ZnONS are reported. It was found that the H2O adsorptions on the nanoclusters (ZnONCs) and nanosheets (ZnOGLNSs) are caused by interactions between (1) water oxygen and Zn surface atom, (2) water hydrogen and hydride hydrogen of the surface and (3) water hydrogen and oxygen surface atom. For the NH3 adsorptions occur by pointing its nitrogen toward Zn surface atom and this orientation is somewhat perpendicular to the surface planes of ZnONCs and ZnOGLNSs.

► The first study for adsorptions of H2O and NH3 on ZnO nanoclusters and graphene-like nanosheets. ► Aromatic-like, naphthalene-like and pyrene-like ZnO nanoclusters. ► Coronene-like and circumcoronene-like ZnO nanosheets. ► These nanoclusters and nanosheets used as H2O and NH3 storage materials have been expected. ► All the H2O and NH3 adsorptions on these nanoclusters and nanosheets are physical adsorption.

Related Topics
Physical Sciences and Engineering Chemistry Organic Chemistry
Authors
, ,