A Study and Characterization of Photophysical Properties of Fluorene Derivative Thin Film

Wattanaruk Sirijarutus; Sittan Charoensuwan; Pawonwan Thanakit; Sirapat Pratontep; Darinee Sae-Tang Phromyothin

doi:10.4028/www.scientific.net/KEM.675-676.201

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Physical Properties of Copper Films Deposited by Compact-Size Magnetron Sputtering Source with Changing Magnetic Field Strength
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Spectroscopic Ellipsometry Analyses on Plasma Treatment of Aluminium Oxide Thin Film
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A Study and Characterization of Photophysical Properties of Fluorene Derivative Thin Film
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HomeKey Engineering MaterialsKey Engineering Materials Vols. 675-676A Study and Characterization of Photophysical...

A Study and Characterization of Photophysical Properties of Fluorene Derivative Thin Film

Abstract:

An emissive layer, fluorene derivative, was performed for organic light-emitting device properties. The preparation of fluorene derivative thin film by spin coating and convective technique was studied the band diagram of thin films which its properties out as the energy gap (E_g). UV-Visible spectrophotometer has been used to investigate the thin film properties. The results indicates spectacular property which occurs the optical properties, fluorescence in thin film and luminescence as a green light in device that it could be applied as emissive layer for organic light-emitting diodes (OLEDs) since the appropriate work function with cathode and anode, aluminum metal and indium tin oxide layer (ITO), respectively.

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Periodical:

Key Engineering Materials (Volumes 675-676)

Pages:

201-204

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.675-676.201

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Online since:

January 2016

Authors:

Wattanaruk Sirijarutus, Sittan Charoensuwan, Pawonwan Thanakit, Sirapat Pratontep, Darinee Sae-Tang Phromyothin*

Keywords:

Convective Technique, Fluorene Thin Film, Spin Coating

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References

[1] Mahidol University, Color and Light Absorption measurement. May, 21, 2015. From Intitute for Innovative Learning.

Google Scholar

[2] Jayant Dharma, Aniruddha Pisal. Simple Method of Meaturing the Band Gap Energy Value of TiO2 in the Powder Form using a UV/Vis/NIR Spectrometer. May 21, 2015. From PerkinElmer, lnc. Shelton, CT USA.

Google Scholar

[3] Zhen Yuan, D. Bruce Burckel, Plamen Atanassov and Hongyou Fan. Convective self-assembly to deposit supported ultra-thin mesoporous silica films. October, 9, 2006. From Journal of Materials Chemistry.

DOI: 10.1039/b612091a

Google Scholar

[4] Brian G. Prevo and Orlin D. Velev. Controlled, Rapid deposition of structured Coatings from Micro- and a Nanoparticle Suspensions. December, 16, 2003. Langmuir 2004, 20, 2099-2107.

DOI: 10.1021/la035295j

Google Scholar

[5] Pisist Kumnorkaew and James F. Gilchrist. Effect of Nanoparticle Concentration on the Convective Deposition of Binary Suspensions. April, 27, 2009. Langmuir, Article ASAP.

DOI: 10.1021/la804209m

Google Scholar

[6] Pisist Kumnorkaew, Alexander L. Weldon, and James F. Gilchrist. Matching Constituent Fluxes for Convective Deposition of Binary Suspensions. August 21, 2009. Langmuir Ariticle 2010, 26(4), 2401-2405.

DOI: 10.1021/la902856x

Google Scholar

[7] C. David Müller , Aurélie Falcou, Nina Reckefuss , Markus Rojahn, Valèrie Wiederhirn, Paula Rudati , Holger Frohne , Oskar Nuyken, Heinrich Becker3 & Klaus Meerholz. Multi-colour organic light-emitting displays by solution processing. February 20, 2003. Nature 421, 829-833.

DOI: 10.1038/nature01390

Google Scholar

[8] Nina Rehmann, Dirk Hertel, Klaus Meerholz, and Susanne Heun. Highly efficient solution- processed phosphorescent multilayer organic light-emitting diodes based on small-molecule hosts. September 4, 2007. Appl. Phys. Let. 91, 102507.

DOI: 10.1063/1.2775323

Google Scholar