The effects of adhesion layer on electrical characteristics performance in bottom-contact organic thin film transistors
- Authors
- Hyung, Gun Woo; Kim, Jun Ho; Hyun, Seo Ji; Hoon, Seo Ji; Il Houng, Park; Kim, Young Kwan
- Issue Date
- 2007
- Publisher
- EAST CHINA NORMAL UNIVERSITY
- Keywords
- organic thin-film transistor (OTFT); vapor deposition polymerization (VDP); adhesion layer
- Citation
- AD'07: PROCEEDINGS OF ASIA DISPLAY 2007, VOLS 1 AND 2, pp.849 - 853
- Journal Title
- AD'07: PROCEEDINGS OF ASIA DISPLAY 2007, VOLS 1 AND 2
- Start Page
- 849
- End Page
- 853
- URI
- https://scholarworks.bwise.kr/hongik/handle/2020.sw.hongik/29981
- Abstract
- We demonstrated that organic thin-film-transistors (OTFTs) can be fabricated by using organic gate insulators using a vapor deposition polymerization (VDP) process. The basic material properties of organic thin-film fabricated by VDP method were investigated and organic thin film was adopted as adhesion layer to investigate electrical characteristics. Thin-film-transistors based on organic semiconductor (OTFTs) have received considerable attention because of their potential application in a variety of industries, since the performance of silicon TFTs can be replaced by OTFTs. For the high-performance OTFTs, it is reported that the grown crystalline characteristics of pentacene are critically correlated with the surface energy for the gate-dielectrics. In this study, instead of polyimide which was well known gate insulators, 6FDA-ODA was used as a polymeric adhesion layer deposited on inorganic gate insulator such as silicon nitride (SiNx), which was formed by vapor deposition polymerization (VDP) instead of spin-coating process. We have investigated the effect of the adhesion layer on the interfacial characteristics between Pentacene and SiNx. And hence, the The electrical characteristics of OTFTs using 6FDA-ODA as an adhesion layer could be compared and analyzed. Also, bottom-contact structure adopting organic thin film fabricated by VDP method was investigated.
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Collections - College of Engineering > Department of Science > 1. Journal Articles
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