Charge transport in high-performance ink-jet printed single-droplet organic transistors based on a silylethynyl substituted pentacene/insulating polymer blend

Xiaoran Li; Wiljan T.T. Smaal; Charlotte Kjellander; Bas van der Putten; Kevin Gualandris; Edsger C.P. Smits; John Anthony; DirkJ. Broer; Paul W.M. Blom; Jan Genoe; Gerwin Gelinck

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Charge transport in high-performance ink-jet printed single-droplet organic transistors based on a silylethynyl substituted pentacene/insulating polymer blend

机译：基于甲硅烷基乙炔基取代并五苯/绝缘聚合物共混物的高性能喷墨印刷单滴有机晶体管中的电荷传输

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We present a systematic study of the influence of material composition and ink-jet processing conditions on the charge transport in bottom-gate field-effect transistors based on blends of 6,13-bis(triisopropyl-silylethynyl) pentacene (TIPS-PEN) and polystyrene. After careful process optimizations of blending ratio and printing temperature we routinely can make transistors with an average mobility of 1 cm2/Vs (maximum value 1.5 cm2/Vs), on/off ratio exceeding 107, and sharp turn-on in current (sub-threshold slopes approaching 60 mV/decade). These characteristics are superior to the TIPS-PEN only transistors. Using channel scaling measurements and scanning Kelvin probe microscopy, the sharp turn-on in current in the blends is attributed to a contact resistance that originates from a thin insulating layer between the injecting contacts and the semiconductor channel.

机译：我们目前对基于6,13-双（三异丙基-甲硅烷基乙炔基）并五苯（TIPS-PEN）和共混物的底栅场效应晶体管中电荷传输的影响对材料成分和喷墨处理条件的影响进行系统研究聚苯乙烯。经过精心的工艺优化，优化了混合比和印刷温度，我们通常可以制造出平均迁移率为1 cm2 / Vs（最大值为1.5 cm2 / Vs），开/关比超过107，电流急剧导通的晶体管（低于阈值斜率接近60 mV /十倍）。这些特性优于仅TIPS-PEN的晶体管。使用通道缩放测量和扫描开尔文探针显微镜，混合物中电流的急剧导通归因于接触电阻，该接触电阻源自注入触点和半导体通道之间的薄绝缘层。

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来源
《Organic Electronics 》 |2011年第8期| p.1319-1327| 共9页
作者
Xiaoran Li; Wiljan T.T. Smaal; Charlotte Kjellander; Bas van der Putten; Kevin Gualandris; Edsger C.P. Smits; John Anthony; DirkJ. Broer; Paul W.M. Blom; Jan Genoe; Gerwin Gelinck;
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作者单位

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands,Department of Chemical Engineering and Chemistry, Eindhoven University of Technology, P.O. Box 513, Eindhoven 5600 MB, The Netherlands;

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands;

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands;

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands;

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands;

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands;

Department of Chemistry, University of Kentucky, Lexington, KY 40506, USA;

Department of Chemical Engineering and Chemistry, Eindhoven University of Technology, P.O. Box 513, Eindhoven 5600 MB, The Netherlands;

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands;

Department of Large Area Electronics, imec vzw, Kapeldreef 75, Leuven B3001, Belgium;

Hoist Cemre/TNO, High Tech Campus 31, Eindhoven 5656 AE, The Netherlands;

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正文语种 eng
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关键词
blend; organic transistor; substituted pentacene; single-droplet ink-jet printing; contact barrier;

机译：共混;有机晶体管;并五苯;单滴喷墨印刷;接触屏障;

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专利

1. Thin-film morphology of inkjet-printed single-droplet organic transistors using polarized Raman spectroscopy: Effect of blending TIPS-pentacene with insulating polymer [J] . James D.T., Kjellander B.K.C., Smaal W.T.T., ACS nano . 2011 ,第12期

机译：偏振拉曼光谱法研究喷墨印刷的单滴有机晶体管的薄膜形态：TIPS-并五苯与绝缘聚合物共混的影响
2. High-performance organic charge trap ﬂash memory devices based on ink-jet printed 6,13-bis„triisopropylsilylethynyl… pentacene transistors [J] . Young-Su Park Seungjun Chung Soo-Jin Kim Si-Hoon Lyu Jae-Wan Jang Applied Physics Letters . 2010 ,第21期

机译：基于喷墨印刷的6,13-双„三异丙基甲硅烷基乙炔基...并五苯晶体管的高性能有机电荷陷阱闪存存储设备
3. High-performance organic charge trap flash memory devices based on ink-jet printed 6,13-bis(triisopropylsilylethynyl) pentacene transistors [J] . Young-Su Park, Seungjun Chung, Soo-Jin Kim, Applied Physicsletters . 2010 ,第21期

机译：基于喷墨印刷的6,13-双（三异丙基甲硅烷基乙炔基）并五苯晶体管的高性能有机电荷陷阱闪存设备
4. High-performance of Ink-jet Printed Organic Thin-film Transistors on Flexible Substrate using a Small Molecule-polymer Blend [C] . Sung Hoon Kim, Min Hee Choi, Byung Soon Kim, Annual SID symposium, seminar, and exhibition;Display Week 2011 . 2012

机译：使用小分子聚合物共混物在柔性基板上的高性能喷墨印刷有机薄膜晶体管
5. Polymer-based capacitors, junction field-effect transistors, and a follower circuit by lithography, self-assembly, and ink-jet printing techniques. [D] . Liu, Yuxin. 2003

机译：通过光刻，自组装和喷墨打印技术的基于聚合物的电容器，结型场效应晶体管和跟随器电路。
6. Inkjet-Printed Organic Transistors Based on Organic Semiconductor/Insulating Polymer Blends [O] . Yoon-Jung Kwon, Yeong Don Park, Wi Hyoung Lee 2016

机译：基于有机半导体/绝缘聚合物共混物的喷墨印刷有机晶体管
7. Charge transport in high-performance ink-jet printed single-droplet organic transistors based on a silylethynyl substituted pentacene/insulating polymer blend [O] . Xiaoran Li, Smaal Wiljan T. T, Kjellander Charlotte, 2011

机译：基于甲硅烷基乙炔基取代并五苯/绝缘聚合物共混物的高性能喷墨印刷单滴有机晶体管中的电荷传输

Charge transport in high-performance ink-jet printed single-droplet organic transistors based on a silylethynyl substituted pentacene/insulating polymer blend

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