Raman Analysis of Vanadyl Phthalocynine Layers for Plastic Electronic Applications

Anderson Dussan; Beynor Antonio Paez-Sierra; Fredy Mesa

doi:10.4028/www.scientific.net/AMM.789-790.170

Raman Analysis of Vanadyl Phthalocynine Layers for Plastic Electronic Applications

Anderson Dussan, Beynor Antonio Paez-Sierra, Fredy Mesa

Research output: Contribution to journal › Article › peer-review

Abstract

Engineering, stability and orientation of semiconducting molecules are necessary to achieve the high efficiency of multifunctional organic-based devices. Several conjugated molecules facilitate the use of external magnetic fields to tailor both their molecular orientation and electronic properties while being processed for bio or opto-electronic applications. In this work, molecular thin films of vanadyl phthalocynine (VOPc) layers forming conducting channels in organic field-effect transistors were investigated. Three systems based on 100 nm thick VOPc thin film were grown, one in absence of magnetic field, while the other two with parallel and perpendicular to the substrate plane, respectively. Devices were ex-situ investigated by electrical characterization and confocal scanning Raman spectroscopy (SRS). All molecular layers growth on Au electrodes presented enhancement of the Raman signal.

Translated title of the contribution	Análisis Raman de las capas de ftalocinina de vanadio para aplicaciones electrónicas de plástico
Original language	English (US)
Pages (from-to)	170-175
Number of pages	6
Journal	Applied Mechanics and Materials
Volume	789
DOIs	https://doi.org/10.4028/www.scientific.net/AMM.789-790.170
State	Published - Oct 1 2015

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title = "Raman Analysis of Vanadyl Phthalocynine Layers for Plastic Electronic Applications",

abstract = "Engineering, stability and orientation of semiconducting molecules are necessary to achieve the high efficiency of multifunctional organic-based devices. Several conjugated molecules facilitate the use of external magnetic fields to tailor both their molecular orientation and electronic properties while being processed for bio or opto-electronic applications. In this work, molecular thin films of vanadyl phthalocynine (VOPc) layers forming conducting channels in organic field-effect transistors were investigated. Three systems based on 100 nm thick VOPc thin film were grown, one in absence of magnetic field, while the other two with parallel and perpendicular to the substrate plane, respectively. Devices were ex-situ investigated by electrical characterization and confocal scanning Raman spectroscopy (SRS). All molecular layers growth on Au electrodes presented enhancement of the Raman signal.",

author = "Anderson Dussan and Paez-Sierra, {Beynor Antonio} and Fredy Mesa",

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AU - Paez-Sierra, Beynor Antonio

AU - Mesa, Fredy

PY - 2015/10/1

Y1 - 2015/10/1

N2 - Engineering, stability and orientation of semiconducting molecules are necessary to achieve the high efficiency of multifunctional organic-based devices. Several conjugated molecules facilitate the use of external magnetic fields to tailor both their molecular orientation and electronic properties while being processed for bio or opto-electronic applications. In this work, molecular thin films of vanadyl phthalocynine (VOPc) layers forming conducting channels in organic field-effect transistors were investigated. Three systems based on 100 nm thick VOPc thin film were grown, one in absence of magnetic field, while the other two with parallel and perpendicular to the substrate plane, respectively. Devices were ex-situ investigated by electrical characterization and confocal scanning Raman spectroscopy (SRS). All molecular layers growth on Au electrodes presented enhancement of the Raman signal.

AB - Engineering, stability and orientation of semiconducting molecules are necessary to achieve the high efficiency of multifunctional organic-based devices. Several conjugated molecules facilitate the use of external magnetic fields to tailor both their molecular orientation and electronic properties while being processed for bio or opto-electronic applications. In this work, molecular thin films of vanadyl phthalocynine (VOPc) layers forming conducting channels in organic field-effect transistors were investigated. Three systems based on 100 nm thick VOPc thin film were grown, one in absence of magnetic field, while the other two with parallel and perpendicular to the substrate plane, respectively. Devices were ex-situ investigated by electrical characterization and confocal scanning Raman spectroscopy (SRS). All molecular layers growth on Au electrodes presented enhancement of the Raman signal.

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DO - 10.4028/www.scientific.net/AMM.789-790.170

M3 - Article

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EP - 175

JO - Applied Mechanics and Materials

JF - Applied Mechanics and Materials

ER -

Raman Analysis of Vanadyl Phthalocynine Layers for Plastic Electronic Applications

Abstract

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