One-Dimensional Oxide Nanomaterials through Rheological Self-Assembling

Author:

Chen Wen1,Mai Li Qiang1,Qi Yan Yuan1,Jin Wei1,Hu T.1,Guo W.L.1,Dai Y.1,Gu E.D.1

Affiliation:

1. Wuhan University of Technology

Abstract

This article introduces a process for the growth of one-dimensional oxide nanomaterials that combines rheological phase reaction and hydrothermal self-assembling process. Fundamentals and practical approaches of hydrothermal self-assembling process and rheological phase reaction are briefly described. Particular attention is devoted to the rheological self-assembling for the growth of low dimensional oxide nanomaterials. Many examples are shown that the rheological self-assembling is an effective method to prepare one-dimensional nanomaterials, organic-inorganic hybrids and 1-D nanomaterial array for optical-electronic and electrochemical devices and catalysis. Morphologies, microstructures, properties, and application of one-dimensional oxide nanomaterials are reviewed.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

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