Soluble Dithienothiophene (Dtt) Derived Small Molecules For Organic Thin Film Transistor (Otft) Application

Agustin, RachmawatiDwi (2016) Soluble Dithienothiophene (Dtt) Derived Small Molecules For Organic Thin Film Transistor (Otft) Application. Magister thesis, Universitas Brawijaya.

Abstract

Penelitian ini berfokus pada pengembangan derivatif Doienothiophene (DTT) larut untuk aplikasi Organik Tipis Film Transistor (OTFT). Dua derivatif dithienothiophene baru yang sangat larut, DDTT-SBT14 dan DDTT-SBT18 SYN berukuran kopling Stille. Peningkatan Thiophene (Bithiophene) yang menyatu dengan konjugasi molekuler P-P dengan kelompok Dithienothiophene (DDT) dan perbandingan kelarutan dengan penambahan rantai sisi alkil diselidiki. Karakterisasi kimia dan fisik yang termasuk karakterisasi sifat optik, elektrokimia dan rmal menunjukkan bahwa DDTT-SBT14 memiliki hasil yang serupa dengan DDTT-SBT18 untuk aplikasi OTFT, tetapi mobilitas DDTT-SBT14 adalah μ = 1,7 cm2 / vs lebih tinggi dari DDTT-SBT18 adalah μ = 0,3 cm2 / vs.

English Abstract

This research focused on development of soluble dithienothiophene (DTT) derivatives for organic thin film transistor (OTFT) application. Two new highly soluble dithienothiophene derivatives, DDTT-SBT14 and DDTT-SBT18 were syn sized by Stille Coupling. fused thiophene (Bithiophene) enhancement of - molecular conjugation with Dithienothiophene (DDT) group and comparison of solubility by addition of alkyl side chains were investigated. chemical and physical characterization which included characterizing irs optical, electrochemical and rmal properties shows that DDTT-SBT14 have similar results to DDTT-SBT18 for OTFT applications, but mobility of DDTT-SBT14 is μ = 1.7 cm2/Vs more higher than than DDTT-SBT18 is μ = 0.3 cm2/Vs.

Item Type: Thesis (Magister)
Identification Number: TES/621.381 528/AGU/s/2016/041612184
Subjects: 600 Technology (Applied sciences) > 621 Applied physics > 621.3 Electrical, magnetic, optical, communications, computer engineering; electronics, lighting
Divisions: S2/S3 > Magister Kimia, Fakultas MIPA
Depositing User: Nur Cholis
Date Deposited: 08 Feb 2017 08:25
Last Modified: 08 Feb 2017 08:25
URI: http://repository.ub.ac.id/id/eprint/158672
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