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W9446711 startingPage "479" @default.
W9446711 abstract "This chapter focuses on the synthetic chemistry in the field of nanomaterials. The ability to engineer materials at a nanometer length scale has sparked interest across many scientific disciplines. It has enabled direct investigation into the fundamental size-dependent properties of matter. The success in synthesis of nanomaterials has provided opportunities to tune their mechanical, optical, electrical, chemical, and other properties. Recently, considerable progress has been made in synthesis and applications of nanomaterials. The synthetic strategies for nanomaterials can be broadly categorized into two groups: the top–down approach and the bottom–up technique. The latter is by far the more common and effective for morphology controlled nanomaterials. A basic understanding of the mechanism and recent progress in these processes has enabled the fabrication and preparation of various nanomaterials with novel functionalities, compositions, and architectures. Many of the bottom–up methods for synthesis of nanomaterials are based on solution synthesis, in which the concentration of precursors is usually very low, typically in the millimolar range. Scaling-up these syntheses to produce commercial-scale quantities for applications is expected to introduce significant challenges for the control of size, morphology, and structure. This aspect of nanomaterials synthesis offers exciting opportunities for newcomers to the field. New frontiers will involve higher levels of complexity in the form of hierarchical architectures. This is a “global” way of thinking about nanomaterials, where nanomaterials with a particular form such as clusters, colloids, wires, rods, spirals, rings, and sheets can be self-assembled to hierarchical structures through specific chemical bonding and interfacial interactions to create purposeful constructs, and then to investigate the structure-function relationship." @default.
W9446711 created "2016-06-24" @default.
W9446711 creator A5032628543 @default.
W9446711 creator A5085658894 @default.
W9446711 creator A5087724445 @default.
W9446711 date "2011-01-01" @default.
W9446711 modified "2023-09-28" @default.
W9446711 title "Synthetic Chemistry of Nanomaterials" @default.
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