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Literature DB >> 28054398

Chemically Robust Ambipolar Organic Transistor Array Directly Patterned by Photolithography.

Eun Kwang Lee^1,2, Cheol Hee Park¹, Junghoon Lee^2,3, Hae Rang Lee¹, Changduk Yang², Joon Hak Oh¹.

Abstract

Organic ambipolar transistor arrays for chemical sensors are prepared on a flexible plastic substrate with a bottom-gate bottom-contact configuration to minimize the damage to the organic semiconductors, for the first time, using a photolithographically patternable polymer semiconductor. Well-balanced ambipolar charge transport is achieved by introducing graphene electrodes because of the reduced contact resistance and energetic barrier for electron transport.

Entities: Chemical

Keywords: ambipolar transistors; chemical sensors; graphene electrodes; organic semiconductors; photolithography

Year: 2017 PMID： 28054398 DOI： 10.1002/adma.201605282

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

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Cited

4 in total

4. Facile Fabrication of ZnO-ZnFe₂O₄ Hollow Nanostructure by a One-Needle Syringe Electrospinning Method for a High-Selective H₂S Gas Sensor.

Authors: Kee-Ryung Park; Ryun Na Kim; Yoseb Song; Jinhyeong Kwon; Hyeunseok Choi
Journal: Materials (Basel) Date: 2022-01-06 Impact factor: 3.623

4 in total

Chemically Robust Ambipolar Organic Transistor Array Directly Patterned by Photolithography.

1. Highly stacked 3D organic integrated circuits with via-hole-less multilevel metal interconnects.

2. High-Performance Full-Photolithographic Top-Contact Conformable Organic Transistors for Soft Electronics.

3. A comprehensive nano-interpenetrating semiconducting photoresist toward all-photolithography organic electronics.

4. Facile Fabrication of ZnO-ZnFe₂O₄ Hollow Nanostructure by a One-Needle Syringe Electrospinning Method for a High-Selective H₂S Gas Sensor.

Chemically Robust Ambipolar Organic Transistor Array Directly Patterned by Photolithography.

1. Highly stacked 3D organic integrated circuits with via-hole-less multilevel metal interconnects.

2. High-Performance Full-Photolithographic Top-Contact Conformable Organic Transistors for Soft Electronics.

3. A comprehensive nano-interpenetrating semiconducting photoresist toward all-photolithography organic electronics.

4. Facile Fabrication of ZnO-ZnFe2O4 Hollow Nanostructure by a One-Needle Syringe Electrospinning Method for a High-Selective H2S Gas Sensor.

4. Facile Fabrication of ZnO-ZnFe₂O₄ Hollow Nanostructure by a One-Needle Syringe Electrospinning Method for a High-Selective H₂S Gas Sensor.