Title Dispersion stability, microstructure and phase transition of anisotropic nanodiscs / Ravi Kumar Pujala

Published Cham : Springer, 2014

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Description 1 online resource (xvi, 154 pages) : illustrations (some color) Series Springer Theses, 2190-5053 Springer theses, 2190-5053 Contents Introduction -- Materials and characterization techniques -- Phase diagram of Laponite dispersions -- Anisotropic ordering in nanoclay dispersions induced by water-air Interface -- Phase diagram of aging Montmorillonite dispersions -- Sol state and gelation kinetics in mixed nanoclay dispersions -- Aging dynamics in mixed nanoclay dispersions -- Thermal ordering in mixed nanoclay dispersions -- Aggregation and scaling behavior of nanoclays in alcohol solutions -- Summary Summary This thesis explores the dispersion stability, microstructure and phase transitions involved in the nanoclay system. It describes the recently discovered formation of colloidal gels via two routes: the first is through phase separation and second is by equilibrium gelation and includes the first reported experimental observation of a system with high aspect ratio nanodiscs. The phase behavior of anisotropic nanodiscs of different aspect ratio in their individual and mixed states in aqueous and hydrophobic mediais investigated. Distinct phase separation, equilibrium fluid and equilibrium gel phasesare observed in nanoclay dispersions with extensive aging. The work thenexplores solution behavior, gelation kinetics, aging dynamics and temperature-induced ordering in the individual and mixed states of these discotic colloids. Anisotropic ordering dynamics induced by a water-air interface, waiting time and temperature in these dispersions were studied in great detail along with aggregation behavior of nanoplatelets in hydrophobic environment of alcohol solutions Notes "Doctoral thesis accepted by Jawaharlal Nehru University, New Delhi, India." Bibliography Includes bibliographical references Notes English Online resource; title from PDF title page (SpringerLink, viewed June 18, 2014) Subject Colloids. Nanostructured materials. Anisotropy. anisotropy. SCIENCE -- Chemistry -- Physical & Theoretical. Anisotropy Colloids Nanostructured materials Form Electronic book ISBN 9783319045559 3319045555 3319045547 9783319045542

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