Nanostructured Thin Films Enhancing the Performance of New Organic Electronic Devices: Does It Make Sense?

IF 5.7 Q2 CHEMISTRY, PHYSICAL ACS Materials Au Pub Date : 2024-10-31 DOI:10.1021/acsmaterialsau.4c0010310.1021/acsmaterialsau.4c00103

Priscila Alessio*, Milene K. C. da Silva, Vitoria Barossi and Celina M. Miyazaki,

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Abstract

Electronics have evolved significantly with the development of semiconductor materials and devices, with emerging areas such as organic and flexible electronics showing great promise, particularly in applications such as wearable devices and environmental sensors. Since the discovery of conducting polymers in the late 1970s, organic electronics have paved the way for innovations such as organic field-effect transistors (OFETs), organic light-emitting diodes (OLEDs), and organic solar cells (OPVs). Recent advances have focused on nanostructuring techniques to enhance device properties, such as charge mobility and luminescence efficiency. The growing concern for sustainability has also led to the exploration of biodegradable organic electronics as a potential solution to electronic waste. This perspective briefly discusses the impact of nanostructuring on the performance of both conventional and biodegradable organic devices, exploring the challenges and opportunities associated with using alternative substrates like paper. This perspective emphasizes the importance of understanding molecular organization at the nanoscale to optimize device performance and ensure stability under practical conditions.

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增强新型有机电子器件性能的纳米结构薄膜：有意义吗？

随着半导体材料和器件的发展，电子技术也有了长足的进步，有机电子和柔性电子等新兴领域前景广阔，尤其是在可穿戴设备和环境传感器等应用领域。自 20 世纪 70 年代末发现导电聚合物以来，有机电子技术为有机场效应晶体管 (OFET)、有机发光二极管 (OLED) 和有机太阳能电池 (OPV) 等创新铺平了道路。最近的进展主要集中在纳米结构技术上，以提高器件性能，如电荷迁移率和发光效率。对可持续发展的日益关注也促使人们探索可生物降解的有机电子产品，以此作为解决电子垃圾的潜在方案。本视角简要讨论了纳米结构对传统和可生物降解有机器件性能的影响，探讨了与使用纸张等替代基底相关的挑战和机遇。本视角强调了了解纳米级分子结构对优化器件性能和确保实际条件下的稳定性的重要性。

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ACS Materials Au 材料科学-

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期刊介绍： ACS Materials Au is an open access journal publishing letters articles reviews and perspectives describing high-quality research at the forefront of fundamental and applied research and at the interface between materials and other disciplines such as chemistry engineering and biology. Papers that showcase multidisciplinary and innovative materials research addressing global challenges are especially welcome. Areas of interest include but are not limited to:Design synthesis characterization and evaluation of forefront and emerging materialsUnderstanding structure property performance relationships and their underlying mechanismsDevelopment of materials for energy environmental biomedical electronic and catalytic applications

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