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Organic transistor

Klauk, H., Hahk, M., Zschieschang, U., Eder, F., Schmid, G. and Dehm, Ch. (2003) Pentacene organic transistors and ring oscillators on glass and on flexible polymeric substrates. Appl Phys. Lett., 82, 4175-4177. [Pg.201]

Dimitrakopoulos, C. D. Purushothaman, S. Kymissis, J. Callegari, A. Shaw, J. M. 1999. Low-voltage organic transistors on plastic comprising high-dielectric constant gate insulators. Science 283 822-824. [Pg.106]

The development of solution processing for semiconductor materials has mostly focused on organic semiconductors.3 5 Organic transistors can be... [Pg.131]

Gelinck, G. H. et al. 2004. Flexible active-matrix displays and shift registers based on solution-processed organic transistors. Nature Mater. 3 106-110. [Pg.154]

Rogers, J. Bao, Z. Makhija, A. Braun, P. 1999. Printing process suitable for reel-to-reel production of high-performance organic transistors and circuits. Adv. Mater 11 741-745. [Pg.402]

All-in dyeing method, 9 177 Allinger force fields, 26 744, 745 All-in paste, 9 216 Allocation methods, in life cycle assessment, 24 815 Allomone, 24 473 Allo-ocimene, 24 490, 495 oxidation of, 24 491 Allo-ocimene diepoxide, 24 491 Allo-ocimene epoxide, 24 491 Allo-ocimenols, isomeric, 24 490 All-organic transistors, 22 222-223 D-Allose, 4 698... [Pg.35]

Project (by Sarnoff Corp with DuPont de Nemours and Co Central Research and Development) to print organic transistors on plastic for electronic displays and circuits. The goal is to develop materials, thin flexible plastic substrates, and methods for continuous high-resolution printing. [Pg.851]

Cao Y, Steigerwald ML, Nuckolls C et al (2010) Current trends in shrinking the channel length of organic transistors down to the nanoscale. Adv Mater 22 20-32... [Pg.174]

Dodabalapur A, Torsi L, Katz HE (1995) Organic transistors - 2-dimensional transport and improved electrical characteristics. Science 268 270-271... [Pg.234]

Collet J, Tharaud O, Chapoton A, Vuillaume D (2000) Low-voltage, 30 nm channel length, organic transistors with a self-assembled monolayer as gate insulating films. Appl Phys Lett 76 1941-1943... [Pg.236]

Mottaghi M, Lang P, Rodriguez F, Rumyantseva A, Yassar A, Horowitz G, Lenfant S, Tondelier D, Vuillaume D (2007) Low-operating-voltage organic transistors made of bifimc-tional self-assembled monolayers. Adv Funct Mater 17 597-604... [Pg.236]

Yang RD, Gredig T, Colesniuc CN, Park J, Schuller IK, Trogler WC, Kummel AC (2007) Ultrathin organic transistors for chemical sensing. Appl Phys Lett 90 263506... [Pg.237]

Present interest in disc-like aromatic molecules results mainly from their application as ID charge carrier materials for use in photoconductors, light emitting devices, organic transistors, and photovoltaic applications [265]. [Pg.54]

Although the anthracene units are coplanar, there is no electronic interaction between the chromophores in the crystal. Although such an arrangement makes this class of anthracene derivatives unusable for use in applications requiring efficient charge transport (organic transistors or solar cells), the insulation of the fluorescent chromophore induced by this method may make these materials useful as emitters in OLEDs. [Pg.521]

See other pages where Organic transistor is mentioned: [Pg.245]    [Pg.313]    [Pg.228]    [Pg.25]    [Pg.429]    [Pg.165]    [Pg.154]    [Pg.245]    [Pg.330]    [Pg.82]    [Pg.237]    [Pg.154]    [Pg.529]    [Pg.3]    [Pg.4]    [Pg.6]    [Pg.8]    [Pg.10]    [Pg.12]    [Pg.14]    [Pg.16]    [Pg.18]    [Pg.20]    [Pg.21]    [Pg.22]    [Pg.24]    [Pg.26]    [Pg.28]    [Pg.30]    [Pg.32]    [Pg.35]    [Pg.53]    [Pg.53]    [Pg.111]    [Pg.132]    [Pg.136]   
See also in sourсe #XX -- [ Pg.5 , Pg.254 ]

See also in sourсe #XX -- [ Pg.46 ]



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All-organic field effect transistor

Bottom gate organic thin-film transistor

Contact effects in organic field-effect transistors

Dielectric materials organic transistors

Electroactive oligothiophenes and polythiophenes for organic field effect transistors

Field-effect transistor solution-processed organic semiconductor

Flat-panel displays, organic thin-film transistors

Flat-panel displays, organic thin-film transistors display technologies

Flexible Sensor Array for a Robotic Fingertip Using Organic Thin Film Transistors (OTFT) with Minimum Interconnects and Improved Noise Tolerance

Flexible organic transistor

Flexible organic transistor electronic devices

Gas-Sensing Characteristics of Organic Thin-Film Transistors

Gate Dielectrics and Surface Passivation Layers for Organic Field Effect Transistors

Inkjet printed organic thin film transistors

Ion Sensitive Organic Field-Effect Transistors (ISOFETs)

Light-emitting organic field-effect transistors

Manufacturing of Organic Transistor Circuits by Solution-based Printing

Organic Field Effect Transistors (FETs)

Organic Field Effect Transistors principles

Organic Field-Effect Transistors for Spin-Polarised Transport

Organic Field-Effect Transistors ionic

Organic Field-Effect Transistors liquid

Organic Field-Effect Transistors molecular, example

Organic Field-Effect Transistors schematic

Organic Field-Effect Transistors semiconductors

Organic Field-Effect Transistors sexithiophene

Organic Field-Effect Transistors solids

Organic Semiconductor Transistor Sensors

Organic Thin-film Transistors by OVPD

Organic Transistor-based Integrated Circuits

Organic Transistors Utilising Highly Soluble Swivel-Cruciform Oligothiophenes

Organic electrochemical transistors

Organic electrochemical transistors OECTs)

Organic field effect transistors OFET electrodes

Organic field effect transistors OFET)

Organic field effect transistors device architectures

Organic field effect transistors device configurations

Organic field effect transistors device geometries

Organic field effect transistors material requirements

Organic field effect transistors oligomers

Organic field effect transistors performance characterization

Organic field effect transistors selenophenes

Organic field effect transistors solution-processable materials

Organic field-effect transistor ambipolar

Organic field-effect transistor bottom-contact

Organic field-effect transistor carrier density

Organic field-effect transistor charge transport

Organic field-effect transistor contact resistance

Organic field-effect transistor development

Organic field-effect transistor device

Organic field-effect transistor fabrication

Organic field-effect transistor ideal

Organic field-effect transistor integrated circuits based

Organic field-effect transistor mobile charges

Organic field-effect transistor ohmic contacts

Organic field-effect transistor patterning

Organic field-effect transistor pentacene

Organic field-effect transistor performance

Organic field-effect transistor potential

Organic field-effect transistor rubrene

Organic field-effect transistor shift

Organic field-effect transistor single-crystal

Organic field-effect transistor transport

Organic field-effect transistor vacuum-gap

Organic field-effect transistors

Organic field-effect transistors (OFETs

Organic field-effect transistors device fabrication process

Organic field-effect transistors drain

Organic field-effect transistors drain current

Organic field-effect transistors electronic characterization

Organic field-effect transistors frequency

Organic field-effect transistors high mobility

Organic field-effect transistors saturation mobility

Organic field-effect transistors source

Organic field-effect transistors source-drain current

Organic field-effect transistors source-drain voltage

Organic field-effect transistors source-gate voltage

Organic field-effect transistors structure

Organic field-effect transistors threshold voltage

Organic light-emitting transistors

Organic light-emitting transistors OLETs)

Organic molecule-based transistor

Organic polymer field-effect transistor

Organic thin film transistors, molecular

Organic thin film transistors, molecular self-assembly

Organic thin-film transistor blend

Organic thin-film transistor bottom-contact

Organic thin-film transistor channels

Organic thin-film transistor charge transport

Organic thin-film transistor devices

Organic thin-film transistor doping effects

Organic thin-film transistor electrical performance

Organic thin-film transistor high mobility

Organic thin-film transistor insulating layers

Organic thin-film transistor mechanical flexibility

Organic thin-film transistor pentacene

Organic thin-film transistor structure

Organic thin-film transistors

Organic thin-film transistors configurations

Organic thin-film transistors hole mobilities

Organic thin-film transistors measurements

Organic thin-film transistors performance

Organic transistor chemical sensors

Organic transistor chemical sensors applications

Organic transistor chemical sensors device structure

Organic-based thin film transistors

Physics of Organic Field-Effect Transistors

Sensitive Organic Field-effect Transistors

Single-crystal organic field-effect transistors OFETs

Single-crystal organic field-effect transistors charge carrier transport

Soft lithography for fabricating organic thin-film transistors

The Future of High-performance Organic Transistors

Transistors organic electronic

Vertical-type organic transistor

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