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Evaporative self-assembly of ordered...

Lin, Zhiqun.

Evaporative self-assembly of ordered complex structures

Record Type:	Electronic resources : Monograph/item
Title/Author:	Evaporative self-assembly of ordered complex structureseditor, Zhiqun Lin.
other author:	Lin, Zhiqun.
Published:	Singapore ;World Scientific Pub. Co.,c2012.
Description:	xiv, 380 p. :ill. (some col.)
Subject:	Self-assembly (Chemistry)
Online resource:	http://www.worldscientific.com/worldscibooks/10.1142/7729#t=toc
ISBN:	9789814304696 (electronic bk.)

Evaporative self-assembly of ordered complex structures
Evaporative self-assembly of ordered complex structures[electronic resource] /editor, Zhiqun Lin. - Singapore ;World Scientific Pub. Co.,c2012. - xiv, 380 p. :ill. (some col.)

Includes bibliographical references and index.

The use of spontaneous self-assembly, as a lithographic tool and as an external field-free means to construct well-ordered and intriguing patterns, has received much attention due to its ease of producing complex, large-scale structures with small feature sizes. An extremely simple route to highly-ordered, complex structures is the evaporative self-assembly of nonvolatile solutes (e.g., polymers, nanoparticles, carbon nanotubes, and DNA) from a sessile droplet on a solid substrate. To date, a few studies have elegantly demonstrated that self-organized nanoscale, microscale, and hierarchically structured patterns have been readily obtained from sophisticated control of droplet evaporation. These include convective assembly in evaporating menisci, the alignment of nanomaterials by programmed dip coating and controlled anisotrophic wetting/dewetting processes, facile microstructuring of functional polymers by the "Breath Figure" method, controlled evaporative self-assembly in confined geometries, etc. This book is unique in this regard in providing a wide spectrum of recent experimental and theoretical advances in evaporative self-assembly techniques. The ability to engineer an evaporative self-assembly process that yields a broad range of complex, well-ordered and intriguing structures with small feature sizes composed of polymers of nanocrystals of different size and shapes as well as DNA over large areas offers tremendous potential for applications in electronics, optoelectronics, photonics, sensors, information processing and data storage devices, nanotechnology, high-throughput drug discovery, chemical detection, combinatorical chemistry and biotechnology.

Electronic reproduction.
Singapore :
World Scientific Publishing Co.,
2012.

System requirements: Adobe Acrobat Reader.

ISBN: 9789814304696 (electronic bk.)Subjects--Topical Terms:

237679
Self-assembly (Chemistry)

LC Class. No.: QD543 / .E93 2012eb

Dewey Class. No.: 541.39

Evaporative self-assembly of ordered complex structures
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245 0 0 $a Evaporative self-assembly of ordered complex structures $h [electronic resource] / $c editor, Zhiqun Lin.
260 $a Singapore ; $a Hackensack, N.J. : $b World Scientific Pub. Co., $c c2012.
300 $a xiv, 380 p. : $b ill. (some col.)
504 $a Includes bibliographical references and index.
520 $a The use of spontaneous self-assembly, as a lithographic tool and as an external field-free means to construct well-ordered and intriguing patterns, has received much attention due to its ease of producing complex, large-scale structures with small feature sizes. An extremely simple route to highly-ordered, complex structures is the evaporative self-assembly of nonvolatile solutes (e.g., polymers, nanoparticles, carbon nanotubes, and DNA) from a sessile droplet on a solid substrate. To date, a few studies have elegantly demonstrated that self-organized nanoscale, microscale, and hierarchically structured patterns have been readily obtained from sophisticated control of droplet evaporation. These include convective assembly in evaporating menisci, the alignment of nanomaterials by programmed dip coating and controlled anisotrophic wetting/dewetting processes, facile microstructuring of functional polymers by the "Breath Figure" method, controlled evaporative self-assembly in confined geometries, etc. This book is unique in this regard in providing a wide spectrum of recent experimental and theoretical advances in evaporative self-assembly techniques. The ability to engineer an evaporative self-assembly process that yields a broad range of complex, well-ordered and intriguing structures with small feature sizes composed of polymers of nanocrystals of different size and shapes as well as DNA over large areas offers tremendous potential for applications in electronics, optoelectronics, photonics, sensors, information processing and data storage devices, nanotechnology, high-throughput drug discovery, chemical detection, combinatorical chemistry and biotechnology.
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