用于有机电子学的呼吸图案衍生多孔半导体薄膜。

Breath figure-derived porous semiconducting films for organic electronics.

作者信息

Zhang Xinan, Wang Binghao, Huang Lizhen, Huang Wei, Wang Zhi, Zhu Weigang, Chen Yao, Mao YanLi, Facchetti Antonio, Marks Tobin J

机构信息

Department of Chemistry and Materials Research Center, Northwestern University, 2145 Sheridan Road, Evanston, IL 60208, USA.

School of Physics and Electronics, Henan University, Kaifeng 475004, P. R. China.

出版信息

Sci Adv. 2020 Mar 25;6(13):eaaz1042. doi: 10.1126/sciadv.aaz1042. eCollection 2020 Mar.

DOI:10.1126/sciadv.aaz1042

PMID:32232157

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7096165/

Abstract

Porous semiconductor film morphologies facilitate fluid diffusion and mass transport into the charge-carrying layers of diverse electronic devices. Here, we report the nature-inspired fabrication of several porous organic semiconductor-insulator blend films [semiconductor: P3HT (p-type polymer), C8BTBT (p-type small-molecule), and N2200 (n-type polymer); insulator: PS] by a breath figure patterning method and their broad and general applicability in organic thin-film transistors (OTFTs), gas sensors, organic electrochemical transistors (OECTs), and chemically doped conducting films. Detailed morphological analysis of these films demonstrates formation of textured layers with uniform nanopores reaching the bottom substrate with an unchanged solid-state packing structure. Device data gathered with both porous and dense control semiconductor films demonstrate that the former films are efficient TFT semiconductors but with added advantage of enhanced sensitivity to gases (e.g., 48.2%/ppm for NO using P3HT/PS), faster switching speeds (4.7 s for P3HT/PS OECTs), and more efficient molecular doping (conductivity, 0.13 S/m for N2200/PS).

摘要

多孔半导体薄膜形态有助于流体扩散和物质传输到各种电子器件的载流层中。在此，我们报告了通过呼吸图案化方法仿生制备几种多孔有机半导体-绝缘体混合薄膜[半导体：P3HT（p型聚合物）、C8BTBT（p型小分子）和N2200（n型聚合物）；绝缘体：PS]，以及它们在有机薄膜晶体管（OTFT）、气体传感器、有机电化学晶体管（OECT）和化学掺杂导电薄膜中的广泛适用性。对这些薄膜的详细形态分析表明，形成了具有均匀纳米孔的纹理层，这些纳米孔一直延伸到底部基板，且固态堆积结构不变。使用多孔和致密对照半导体薄膜收集的器件数据表明，前者是高效的TFT半导体，而且具有对气体的灵敏度增强（例如，使用P3HT/PS时对NO的灵敏度为48.2%/ppm）、开关速度更快（P3HT/PS OECT为4.7秒）以及分子掺杂更高效（N2200/PS的电导率为0.13 S/m）等额外优势。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/81e7/7096165/acb265e2f573/aaz1042-F1.jpg

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用于有机电子学的呼吸图案衍生多孔半导体薄膜。

Breath figure-derived porous semiconducting films for organic electronics.

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