Journal Article10.1021/AM500618G
High-performance organic complementary inverters using monolayer graphene electrodes.
Yong Jin Jeong,Jaeyoung Jang,Sooji Nam,Kyunghun Kim,Lae Ho Kim,Seonuk Park,Tae Kyu An,Chan Eon Park +7 more
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TL;DR: High-performance organic complementary inverters using graphene as source/drain electrodes and N, N'-ditridecyl-3,4,9,10-perylenetetracarboxylic diimide and pentacene as n- and p-type organic semiconductors are reported.
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Abstract: Chemical vapor deposition-grown graphene has been an attractive electrode material for organic electronic devices, such as organic field-effect transistors (OFETs), because it is highly conductive and provides good oxidation and thermal stability properties. However, it still remains a challenge to demonstrate organic complementary circuits using graphene electrodes because of the relatively poor performance of n-type OFETs. Here, we report the development of high-performance organic complementary inverters using graphene as source/drain electrodes and N, N'-ditridecyl-3,4,9,10-perylenetetracarboxylic diimide (PTCDI-C13) and pentacene as n- and p-type organic semiconductors, respectively. Graphene electrodes were n-doped via the formation of NH2-terminated self-assembled monolayers that lowered the work function and the electron injection barrier between the graphene and PTCDI-C13. Thermal annealing improved the molecular packing among PTCDI-C13 groups on the graphene surface, thereby increasing the crystallinity and grain size. The thermally annealed PTCDI-C13 OFETs prepared using n-doped graphene electrodes exhibited a good field-effect mobility of up to 0.43 cm2/(V s), which was comparable to the values obtained from other p-type pentacene OFETs. By integrating p- and n-type OFETs, we successfully fabricated organic complementary inverters that exhibited highly symmetric operation with an excellent voltage gain of up to 124 and good noise margin.
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Materials for Flexible, Stretchable Electronics: Graphene and 2D Materials
TL;DR: In this paper, the synthesis, transfer, and characterization methods of graphene and 2D materials and their application to flexible devices as well as comparison with other competing materials are discussed. And a review of the application of graphene in flexible electronics is presented.
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Alkyl chain length dependence of the field-effect mobility in novel anthracene derivatives.
Jang Yeol Back,Tae Kyu An,Ye Rim Cheon,Hyojung Cha,Jaeyoung Jang,Yebyeol Kim,Yonghwa Baek,Dae Sung Chung,Soon-Ki Kwon,Chan Eon Park,Yun-Hi Kim +10 more
TL;DR: The moderate side chain length appeared to be optimal for promoting self-organization among asymmetric anthracene derivatives in OFETs, and was certainly better than the short or long alkyl side chain lengths, as confirmed by X-ray diffraction measurements.
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Direct patterning of conductive carbon nanotube/polystyrene sulfonate composites: Via electrohydrodynamic jet printing for use in organic field-effect transistors
Yong Jin Jeong,Xinlin Lee,Jaehyun Bae,Jaeyoung Jang,Sang Woo Joo,Sooman Lim,Se Hyun Kim,Chan Eon Park +7 more
TL;DR: In this paper, multiwalled carbon nanotubes (MWCNTs) were used as source/drain (S/D) electrodes in organic field-effect transistors (OFETs).
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Photo-Patternable ZnO Thin Films Based on Cross-Linked Zinc Acrylate for Organic/Inorganic Hybrid Complementary Inverters
Yong Jin Jeong,Tae Kyu An,Dong Jin Yun,Lae Ho Kim,Seonuk Park,Yebyeol Kim,Sooji Nam,Keun Hyung Lee,Se Hyun Kim,Jaeyoung Jang,Chan Eon Park +10 more
TL;DR: A photocurable polymer precursor, zinc acrylate (or zinc diacrylate, ZDA), is used to conveniently fabricate photopatternable ZnNO thin films for use as the active layers of n-type ZnO TFTs.
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Adhesion improvement of graphene/copper interface using UV/ozone treatments
TL;DR: In this article, the authors reported the adhesion improvement of the graphene/copper interface using a UV/ozone treatment, which was measured directly using double cantilever beam fracture mechanics testing.
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