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Biologically Enabled Syntheses of Nanostructured 3-D Sensor Materials:the Potential for 3-D Genetically Engineered Microdevices (3-D GEMs)
被引:0
|作者:
Kenneth H.Sandhage
Samuel Shian
Christopher S.Gaddis
Michael R.Weatherspoon
Sehoon Yoo
Michael S.Haluska
Robert L.Snyder
Nicholas Ferrell
Derek J.Hansford
Mark Hildebrand
Brian Palenik
机构:
[1] Biomedical Engineering Department
[2] CA
[3] Columbus
[4] GA
[5] La Jolla
[6] Microbiology Department
[7] OH
[8] School of Materials Science and Engineering Georgia Institute of Technology Atlanta
[9] Scripps Institution of Oceanography University of California at San Diego
[10] USA
[11] the Ohio State University
来源:
关键词:
D GEMs;
Biologically Enabled Syntheses of Nanostructured 3-D Sensor Materials;
D O I:
暂无
中图分类号:
TB383.1 [];
学科分类号:
070205 ;
080501 ;
1406 ;
摘要:
Three-dimensional (3-D)self-assembly of nanos- tructures and nanodevices on a large scale remains a grand quest for mankind.Freestanding nanostructured assemblies with controlled 3-D shapes can exhibit attractive properties for sensor and other applications. Protocols for 3-D self-assembly that can be scaled up for mass production on a large up to tonnage)scale, while preserving morphological features on a small (down to nanometer)scale,are needed to allow for widespread use of 3-D nanostructures in advanced devices.However,these often conflicting requirements of scalability and precision pose a difficult challenge for synthetic (man-made)processing routes.
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页码:13 / 14
页数:2
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