| Document Date: 2014-03-17 13:28:59
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City Greytak / Pal / Cambridge / Chen / New York / Mineola / / Company Bojarczuk N. A. / Transene Inc. / Kotov N. A. / Academic Press / Cambridge Nanotechnology Inc. / Microchem Inc. / Ge / ASSOCIATED CONTENT / / Country United States / / / Event FDA Phase / / Facility The reactor / Harvard University / / IndustryTerm metal / protein adsorption24 and/ anoelectronic devices / real-time in vitro detection / printing / nanoelectronic devices / physiological solutions / Darkfield imaging / biomedical applications / nanowire nanoelectronic devices / implantable devices / chemical stability / physiological model solutions / chemical / straightforward core/shell nanowire nanoelectronic devices / nanowire devices / ultrathin metal oxide shells / / Organization Harvard University / School of Engineering and Applied Science / Department of Chemistry and Chemical Biology / Bank of England / / Person Jia Liu / Si / Hayden / Ted Pella / Charles M. Lieber / / Position AUTHOR / Director / representative / / Product Al2O3 / / ProvinceOrState S. K. / New York / Y. T. / A. B. / Massachusetts / / Technology semiconductor / epitaxial silicon / Biomaterials / dielectric / crystallization / photolithography / Bioelectronics / / URL http /
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Letter pubs.acs.org/NanoLett Long Term Stability of Nanowire Nanoelectronics in Physiological Environments Wei Zhou,†,§ Xiaochuan Dai,†,§ Tian-Ming Fu,† Chong Xie,† Jia Liu,† and Charles M. Lieber*,†,‡