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Printed, Low‐Voltage, All‐Organic Transistors and Complementary Circuits on Paper Substrate
Advanced Electronic Materials ( IF 5.3 ) Pub Date : 2020-03-09 , DOI: 10.1002/aelm.201901027
Giulia Casula 1 , Stefano Lai 1 , Laura Matino 2, 3 , Francesca Santoro 3 , Annalisa Bonfiglio 1 , Piero Cosseddu 1
Affiliation  

Paper is drawing considerable attention as a possible alternative to plastic for the development of flexible electronics. Indeed, in order to reduce excessive plastic consumption and waste, paper is attractive thanks to its renewable nature, low cost, ubiquity, and flexibility. A simple, cost‐effective, and low‐temperature approach, based on inkjet‐printing, is presented for the development of low‐voltage, all‐organic field‐effect transistors on commercial paper. Both n‐ and p‐type transistors are developed with reproducible electrical performances, such as low operating voltages (not exceeding 5 V) and quasi‐zero threshold voltages. Moreover, the fabricated devices are characterized by a remarkable mechanical stability, as they can be deformed even at small bending radii without any significant degradation of their performances. Finally, as a proof‐of‐concept for this technology, complementary electronic circuits are fabricated and tested as basic building blocks for future development of complex flexible electronics on paper.

中文翻译:

纸质基板上的印刷低压全有机晶体管和互补电路

纸作为塑料在柔性电子产品开发中的一种可能替代品正在引起人们的广泛关注。实际上,为了减少过多的塑料消耗和浪费,纸张具有可再生性,低成本,普遍性和灵活性,因此具有吸引力。提出了一种基于喷墨打印的简单,经济高效的低温方法,用于开发商用纸上的低压全有机场效应晶体管。n型和p型晶体管均具有可再现的电气性能,例如低工作电压(不超过5 V)和准零阈值电压。而且,所制造的装置的特征在于显着的机械稳定性,因为即使在较小的弯曲半径下它们也可以变形而不会显着降低其性能。最后,
更新日期:2020-03-09
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