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001 ocn640093151;

003 OCoLC;

005 20141212054348.0;

006 m d f ;

007 cr bn|||||||||;

008 100504s2010 mdua ot f000 0 eng d;

029 0 a| DTICEb| ADA517899;

035 a| (Sirsi) o640093151;

035 a| (OCoLC)640093151;

040 a| DTICEc| DTICEd| GPOd| UtOrBLW;

049 a| ERE#;

074 a| 0324-A-01 (online);

086 0 a| D 101.133:5151;

100 1 a| Kilpatrick, Stephen.=| ^A1173166;

245 10 a| Differential amplifier circuits based on carbon nanotube field effect transistors (CNTFETs) /c| Stephen Kilpatrick and Matthew Chin.;

260 a| Adelphi, MD :b| Army Research Laboratory,c| [2010];

300 a| 1 online resource (iv, 16 pages) :b| illustrations.;

336 a| text2| rdacontent;

337 a| computer2| rdamedia;

338 a| online resource2| rdacarrier;

490 1 a| ARL-TR ;v| 5151;

500 a| Title from title screen (viewed on Oct. 15, 2010).;

500 a| "April 2010.";

506 a| APPROVED FOR PUBLIC RELEASE.;

513 a| Progress;b| June-August 2008.;

520 a| Carbon nanotube-based field effect transistors (CNTFETs) show potential in the area of integrated amperometric sensors due to their high sensitivity (<ppm) to analytes, fast response times (seconds to minutes), and large surface area-to-volume ratios. This research demonstrates the design, fabrication, and testing of a CNTFET-based differential amplifier with the goal of achieving a nominal gain of 20 dB. Differential amplifiers possess the benefits of low noise, low distortion, and small signal amplification making them ideal for sensor applications. Building upon early results, methods for improving circuit design and device fabrication are explored.;

536 f| TO-SE-04/05;

650 0 a| Field-effect transistors.=| ^A86561;

650 0 a| Low noise amplifiers.=| ^A1032447;

650 17 a| Electrical and electronic equipment.2| scgdst;

650 27 a| Refractory fibers.2| scgdst;

650 17 a| Carbon nanotubes.2| dtict;

650 17 a| Field effect transistors.2| dtict;

650 17 a| Amplifiers.2| dtict;

650 27 a| Signal to noise ratio.2| scgdst;

650 27 a| Fabrication.2| scgdst;

650 27 a| Circuits.2| scgdst;

650 27 a| Distortion.2| scgdst;

650 27 a| Low noise.2| scgdst;

650 27 a| High sensitivity.2| scgdst;

650 27 a| Detectors.2| scgdst;

650 27 a| Volume.2| scgdst;

650 27 a| Signal processing.2| scgdst;

650 27 a| Sensitivity.2| scgdst;

653 2 a| AMPEROMETRIC SENSORS;

653 2 a| DIFFERENTIAL AMPLIFIERS;

653 2 a| CNTFET(CARBON NANOTUBE-BASED FIELD EFFECT TRANSISTOR);

700 1 a| Chin, Matthew.=| ^A1020847;

710 2 a| U.S. Army Research Laboratory.=| ^A367731;

830 0 a| ARL-TR (Aberdeen Proving Ground, Md.) ;v| 5151.=| ^A566074;

856 40 u| http://purl.fdlp.gov/GPO/gpo468;

949 a| Click on web addressw| ASISh| JOYNER94;

596 a| 1;

998 a| 2379766;

999 a| CLICK ON WEB ADDRESSw| ASISc| 1i| 2379766-1001l| JNETm| JOYNERr| Ys| Yt| JNE1DOu| 12/13/2010x| EDOCUMENTz| JERESOURCE;

Differential amplifier circuits based on carbon nanotube field effect transistors (CNTFETs) / Stephen Kilpatrick and Matthew Chin.

Author/creator	Kilpatrick, Stephen
Other author	Chin, Matthew.
Other author	U.S. Army Research Laboratory.
Format	Electronic
Publication Info	Adelphi, MD : Army Research Laboratory, [2010]
Description	1 online resource (iv, 16 pages) : illustrations.
Supplemental Content	http://purl.fdlp.gov/GPO/gpo468
Subjects	Field-effect transistors. Low noise amplifiers.

Series	ARL-TR ; 5151 ARL-TR (Aberdeen Proving Ground, Md.) ; 5151. ^A566074
Abstract	Carbon nanotube-based field effect transistors (CNTFETs) show potential in the area of integrated amperometric sensors due to their high sensitivity (<ppm) to analytes, fast response times (seconds to minutes), and large surface area-to-volume ratios. This research demonstrates the design, fabrication, and testing of a CNTFET-based differential amplifier with the goal of achieving a nominal gain of 20 dB. Differential amplifiers possess the benefits of low noise, low distortion, and small signal amplification making them ideal for sensor applications. Building upon early results, methods for improving circuit design and device fabrication are explored.
General note	Title from title screen (viewed on Oct. 15, 2010).
General note	"April 2010."
Access restriction	APPROVED FOR PUBLIC RELEASE.
Report note	Progress; June-August 2008.
Funding information	TO-SE-04/05
Issued in other form	Print version: Kilpatrick, Stephen. Differential amplifier circuits based on carbon nanotube field effect transistors (CNTFETs) iv, 16 p.
GPO item number	0324-A-01 (online)
Govt. docs number	D 101.133:5151

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Differential amplifier circuits based on carbon nanotube field effect transistors (CNTFETs) / Stephen Kilpatrick and Matthew Chin.

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