ORGANIC PHOTOCONDUCTOR TTF-TCNQ (TETRATHIAFULVALENETETRACYANOQUINODIMETHANE): A POTENTIAL ROOM TEMPERATURE INFRARED DETECTOR AT 10 ?m H. R. Mohajeri Moghaddam* and N. Peyghambarian
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Abstract:
The absorption properties of charge transfer organic semiconductor TTF-TCNQ (tetrathiafulvalene-tetracyanoquhodimete ) filmsdeposited on KBr singlecrystal, quartz and glass substrates in far infrared have been investigated. An absorption edge at ?10 ??m was observed. Photoconductivity, photoconduction efficiency and gain and photocarrier's lifetime have been measured. The results show an electric field dependent photoconductivity.At an applied voltage of 14 V the photoconductivity reaches 1.2 (ohm-cm) which is almost the same as that of its DC dark conductivity, i.e. 1.8 (ohm-cm) . Low temperature results show that the performance of the detector does not improve, but the field dependency, which was shown at room temperature, did not occur at low temperatures. The laser power dependency of the photocarriers showed that a single photon absorption process is involved. Slight deviation from linear dependency could be attributed to trapping in the band gap. It was concluded that the material may potentially be used as a CO laser detector
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organic photoconductor ttf-tcnq (tetrathiafulvalenetetracyanoquinodimethane): a potential room temperature infrared detector at 10 ?m h. r. mohajeri moghaddam* and n. peyghambarian
the absorption properties of charge transfer organic semiconductor ttf-tcnq (tetrathiafulvalene-tetracyanoquhodimete ) filmsdeposited on kbr singlecrystal, quartz and glass substrates in far infrared have been investigated. an absorption edge at ?10 ??m was observed. photoconductivity, photoconduction efficiency and gain and photocarrier's lifetime have been measured. the results show an e...
full text2 Ttf Tcnq Ttf Tcnq Ttf Tcnq Ttf Tcnq
Laura Cano-Cortés, Andreas Dolfen, Jaime Merino, Jörg Behler, Bernard Delley, Karsten Reuter, and Erik Koch ∗ Departamento de Física Teórica de la Materia Condensada, Universidad Autónoma de Madrid, 28049 Madrid, Spain Institut für Festkörperforschung, Forschungzentrum Jülich, 52425 Jülich, Germany Fritz-Haber-Institut der Max-Planck-Gesellschaft, Faradayweg 4-6, 14195 Berlin, Germany Paul-Sche...
full textRealistic Description of TTF-TCNQ – a Strongly Correlated Organic Metal
c © 2008 by John von Neumann Institute for Computing Permission to make digital or hard copies of portions of this work for personal or classroom use is granted provided that the copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. To copy otherwise requires prior specific permission by the publisher ment...
full textWhen TTF Met TCNQ
Just as the boundary between land and water produces some of the most striking landscapes on earth, the boundary between two materials can give rise to outstanding phenomena in electronics. The pn-junction in semiconductors and two dimensional electron gases (2-DEG) causing the Quantum Hall Effects are but just two examples. On page xxx of this issue, Alves et al. show [1] that single interface...
full textAn opto-electro-mechanical infrared photon detector with high internal gain at room temperature.
Many applications require detectors with both high sensitivity and linearity, such as low light level imaging and quantum computing. Here we present an opto-electro-mechanical detector based on nano-injection and lateral charge compression that operates at the short infrared (SWIR) range. Electrical signal is generated by photo-induced changes in a nano-injector gap, and subsequent change of tu...
full textK Transition in Ttf — Tcnq Viewed
The d.c conductivity, static dielectric constant and thermopower of TTF—TCNQ have been calculated for temperatures below 54K within a self-consistent effective medium approximation. TTF—TCNQ is assumed to consist of small regions which are semiconducting and others which are highly conducting. The conducting regions have a large negative dielectric constant, a large d.c. conductivity and a nega...
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Journal title
volume 7 issue 2
pages -
publication date 1996-06-01
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