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NCUEIR > College of Science > Graduate Institute of Photonics Technologies > Proceedings > Item 987654321/17786

Please use this identifier to cite or link to this item: http://ir.ncue.edu.tw/ir/handle/987654321/17786

Title:	N-channel Fluorinated Copper Phthalocyanine Thin-Film Transistors Utilizing Oxygen-Plasma-Treatment ITO Source and Drain Electrodes
Authors:	Wang, Yu-Wu;Yen, Chen-Hsiang;Chou, Wei-Yang;Cheng, Horng-Long;Liu, Shyh-Jiun
Contributors:	光電科技研究所
Date:	2008
Issue Date:	2013-12-30T09:46:53Z
Publisher:	The International Society for Optical Engineering
Abstract:	In this study, device characterization and carrier transport properties of n-type fluorinated copper phthalocyanine (F16CuPc) organic thin-film transistors (OTFTs) were investigated using bottom gate device configuration with oxygen-plasma-treatment indium-tin-oxide (ITO) bottom source and drain (S/D) contact. We fabricated F16CuPc-based OTFTs having comb-shaped channels with a series of channel lengths of 5∼100 μm at a fixed channel width. The electrical characteristics of OTFTs were measured by a Keithley 4200-SCS semiconductor parameter analyzer in a dark glove box in a nitrogen atmosphere to avoid the influence of measuring environments. The device characteristics were analyzed using the charge-sheet metal-oxide-semiconductor field-effect transistor model equation. We found that both the linear and saturation field-effect mobilities and threshold voltages of F16CuPc-based OTFTs increased with increasing channel length. The linear and saturated field-effect mobilities were gate-bias dependent in all devices with different channel dimensions. Moreover, the contact resistance between ITO S/D electrodes and F16CuPc and channel resistance of F16CuPc were investigated using the gated-transfer length method. The results of our experiments suggest that the contact resistance between ITO electrodes and F16CuPc plays an important role in current-voltage characteristics. Additionally, abnormal increases in saturated field-effect mobility at channel lengths below 10 μm were observed in our experimental devices and were attributed to short channel effects. Such non-ideal effects of the present F16CuPc-based OTFT devices were investigated in detail. In summary, we found that the oxygen-plasma-treatment ITO bottom contact S/D electrode-based F16CuPc OTFT devices were very durable and suitable to make large area transistor arrays with complicated integrated circuits by photolithography techniques.
Relation:	Proceedings of SPIE, 7054: 705416
Appears in Collections:	[Graduate Institute of Photonics Technologies] Proceedings

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