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Results 1 - 10
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17,623
Molecular Electronic Devices
, 2006
"... Decoherence and dephasing in molecular electronic devices ..."
FOR ELECTRONIC DEVICES AND BIOSENSORS
, 2014
"... Electroactive polymeric materials for electronic devices and biosensors ..."
and Electronic Devices.
, 2010
"... Modelling, theory and the use of sophisticated computational tools have the potential to represent a substantial cost and time saving for R&D. The development of high speed computer architectures is finally allowing the ordinary use of accurate methods for calculating the structural, thermodynam ..."
Abstract
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, thermodynamic, vibrational and electronic properties of semiconductors and their heterostructures. This IOP sponsored workshop, cosponsored by scientific software companies Accelrys and Silvaco, will run for two days, with the objective of bringing together UK and international leading experts in the field
Electronic Devices
"... A copy can be downloaded for personal non-commercial research or study, without prior permission or charge Content must not be changed in any way or reproduced in any format or medium without the formal permission of the copyright holder(s) When referring to this work, full bibliographic details mus ..."
Abstract
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A copy can be downloaded for personal non-commercial research or study, without prior permission or charge Content must not be changed in any way or reproduced in any format or medium without the formal permission of the copyright holder(s) When referring to this work, full bibliographic details must be given
Electronic Devices
"... Cover image A low-accuracy and color quantized image, by Mikael Sundström, illustrating the printed circuit board of the 1.0 GS/s, 7.5 ENOB, 73 mW pipeline ADC. ..."
Abstract
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Cover image A low-accuracy and color quantized image, by Mikael Sundström, illustrating the printed circuit board of the 1.0 GS/s, 7.5 ENOB, 73 mW pipeline ADC.
Electronic Devices
, 2009
"... About the cover: Top left picture: illustration of a highly linear, wideband RF front-end for multi-standard receivers that can withstand large blockers. 90nm CMOS chip micrograph on right. 0.2µm GaAs chip micrograph (left) and illustration of PROMFA concept with its three key functions. Cover desig ..."
Abstract
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About the cover: Top left picture: illustration of a highly linear, wideband RF front-end for multi-standard receivers that can withstand large blockers. 90nm CMOS chip micrograph on right. 0.2µm GaAs chip micrograph (left) and illustration of PROMFA concept with its three key functions. Cover designed by author.
IN ELECTRONIC DEVICES
"... " l No. M m A 'NT x IApproved ja, publi,eesI" B7 6 23 065 O RD-''R-87 ' 0, ..."
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" l No. M m A 'NT x IApproved ja, publi,eesI" B7 6 23 065 O RD-''R-87 ' 0,
Electronic Devices
"... Picture by the author illustrating an RF-sampling receiver on block level. The chip microphotograph represents a multiband direct RF-sampling receiver front-end for WLAN fabricated in 0.13 µm CMOS. Printed by LiU-Tryck, Linköping University ..."
Abstract
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Picture by the author illustrating an RF-sampling receiver on block level. The chip microphotograph represents a multiband direct RF-sampling receiver front-end for WLAN fabricated in 0.13 µm CMOS. Printed by LiU-Tryck, Linköping University
Results 1 - 10
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