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Ultrathin conformal devices for precise and continuous thermal characterization of human skin.用于人体皮肤精确实时热特性研究的超薄贴合式设备。
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User-interactive electronic skin for instantaneous pressure visualization.用于即时压力可视化的用户交互电子皮肤。
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Fast process to decorate silver nanoparticles on carbon nanomaterials for preparing high-performance flexible transparent conductive films.快速在碳纳米材料上修饰银纳米粒子以制备高性能柔性透明导电薄膜。
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用于可自愈、可印刷且柔性的有机场效应晶体管和化学传感器的高电容无盐电介质。

A High-Capacitance Salt-Free Dielectric for Self-Healable, Printable, and Flexible Organic Field Effect Transistors and Chemical Sensor.

作者信息

Huang Weiguo, Besar Kalpana, Zhang Yong, Yang Shyuan, Wiedman Gregory, Liu Yu, Guo Wenmin, Song Jian, Hemker Kevin, Hristova Kalina, Kymissis Ionnis J, Katz Howard E

机构信息

Department of Materials Science and Engineering The Johns Hopkins University 3400 North Charles Street, Baltimore, MD 21218, USA.

Department of Mechanical Engineering, The Johns Hopkins University 3400 North Charles Street, Baltimore, MD 21218, USA.

出版信息

Adv Funct Mater. 2015 Jun 24;25(24):3745-3755. doi: 10.1002/adfm.201404228. Epub 2015 May 12.

DOI:10.1002/adfm.201404228
PMID:29238288
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5724795/
Abstract

Printable and flexible electronics attract sustained attention for their low cost, easy scale up, and potential application in wearable and implantable sensors. However, they are susceptible to scratching, rupture, or other damage from bending or stretching due to their "soft" nature compared to their rigid counterparts (Si-based electronics), leading to loss of functionality. Self-healing capability is highly desirable for these "soft" electronic devices. Here, a versatile self-healing polymer blend dielectric is developed with no added salts and it is integrated into organic field transistors (OFETs) as a gate insulator material. This polymer blend exhibits an unusually high thin film capacitance (1400 nF cm at 120 nm thickness and 20-100 Hz). Furthermore, it shows pronounced electrical and mechanical self-healing behavior, can serve as the gate dielectric for organic semiconductors, and can even induce healing of the conductivity of a layer coated above it together with the process of healing itself. Based on these attractive properties, we developed a self-healable, low-voltage operable, printed, and flexible OFET for the first time, showing promise for vapor sensing as well as conventional OFET applications.

摘要

可印刷且灵活的电子产品因其低成本、易于扩大规模以及在可穿戴和可植入传感器中的潜在应用而持续受到关注。然而,与刚性同类产品(硅基电子产品)相比,由于其“柔软”的特性,它们容易受到刮擦、破裂或因弯曲或拉伸而造成的其他损坏,从而导致功能丧失。对于这些“柔软”的电子设备来说,自愈能力是非常可取的。在此,我们开发了一种无需添加盐的通用自愈聚合物共混电介质,并将其作为栅极绝缘材料集成到有机场效应晶体管(OFET)中。这种聚合物共混物表现出异常高的薄膜电容(在120纳米厚度和20 - 100赫兹时为1400纳法/平方厘米)。此外,它还表现出显著的电气和机械自愈行为,可作为有机半导体的栅极电介质,甚至在自身愈合过程中还能诱导其上方涂层的导电性愈合。基于这些吸引人的特性,我们首次开发出了一种可自愈、低电压可操作、可印刷且灵活的OFET,在气相传感以及传统OFET应用方面显示出前景。