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Evidence of Unprecedented High Electronic Conductivity in Mammalian Pigment Based Eumelanin Thin Films After Thermal Annealing in Vacuum

机译：真空热退火后基于哺乳动物颜料的Eumelanin薄膜前所未有的高电导率证据

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摘要

Melanin denotes a variety of mammalian pigments, including the dark electrically conductive eumelanin and the reddish, sulfur-containing, pheomelanin. Organic (bio)electronics is showing increasing interests in eumelanin exploitation, e.g., for bio-interfaces, but the low conductivity of the material is limiting the development of eumelanin-based devices. Here, for the first time, we report an abrupt increase of the eumelanin electrical conductivity, revealing the highest value presented to date of 318 S/cm. This result, obtained via simple thermal annealing in vacuum of the material, designed on the base of the knowledge of the eumelanin chemical properties, also discloses the actual electronic nature of this material's conduction.

机译：黑色素表示多种哺乳动物色素，包括深色导电的全棉素和带红色，含硫的苯丙氨酸。有机（生物）电子学对例如在生物界面中的Eumelanin开发中显示出越来越大的兴趣，但是材料的低电导率限制了基于Eumelanin的装置的开发。在这里，我们首次报告了Eumelanin电导率的突然增加，揭示了迄今为止呈现的最高值318 S / cm。根据对真木聚糖化学性质的了解而设计的，通过在材料中进行简单的真空热退火获得的结果也揭示了该材料导电的实际电子性质。

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期刊名称 Frontiers in Chemistry
作者
Ludovico Migliaccio; Paola Manini; Davide Altamura; Cinzia Giannini; Paolo Tassini; Maria Grazia Maglione; Carla Minarini; Alessandro Pezzella;
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作者单位

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年(卷),期 1970(7),
年度 1970
页码 162
总页数 8
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
charge transport, vacuum thermal treatment, electrical conductivity, organic (bio)electronics, eumelanin, melanins, molecular orientation;

机译：电荷传输;真空热处理;电导率;有机（生物）电子;双美金;黑色素;分子取向;

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1. Protonic and Electronic Transport in Hydrated Thin Films of the Pigment Eumelanin [J] . Wuensche Julia, Deng Yingxin, Kumar Prajwal, Chemistry of Materials: A Publication of the American Chemistry Society . 2015,第2期

机译：色素Eumelanin的水合薄膜中的质子和电子传输
2. Influence of thermal annealing in vacuum on opto-electronic characteristics of solution grown AgInSe_2 thin films [J] . R P Sharma Indian Journal of Pure & Applied Physics . 1995,第11期

机译：真空热退火对溶液生长AgInSe_2薄膜光电特性的影响
3. Influence of vacuum annealing on the photoresponse of thermally evaporated cadmium telluride thin films [J] . Al-Kuhaili M. F., Mekki M. B., Abdalla S. A. Thin Solid Films . 2019,第Sepa30期

机译：真空退火对热蒸发碲化镉薄膜光响应的影响
4. Toward enhancing thermal conductivity of polymer-based thin films for microelectronics cooling [C] . Hao Ma, Zhiting Tian IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems . 2017

机译：致力于提高用于微电子冷却的聚合物基薄膜的导热性
5. Pulsed laser annealing and rapid thermal annealing of copper-indium-gallium-diselenide-based thin film solar cells. [D] . Wang, Xuege. 2005

机译：基于铜-铟-镓-二硒化物的薄膜太阳能电池的脉冲激光退火和快速热退火。
6. Eumelanin Precursor 2-Carboxy-56-Dihydroxyindole (DHICA) as Doping Factor in Ternary (PEDOT:PSS/Eumelanin) Thin Films for Conductivity Enhancement [O] . Ludovico Migliaccio, Felice Gesuele, Paola Manini, 2020

机译：Eumelanin前体2-羧基-56-二羟基吲哚（DHICA）作为三元（PEDOT：PSS / Eumelanin）薄膜中的掺杂因子以增强电导率
7. Enlarged Lateral Grain Size and Reduced Surface Roughness in Metallic Thin Films Obtained by Thermal Annealing under Ultra-high Vacuum [O] . K. Imakita, M. Tsunoda, M. Takahashi 2004

机译：通过超高真空下热退火获得的金属薄膜中的横向晶粒尺寸和表面粗糙度降低

Evidence of Unprecedented High Electronic Conductivity in Mammalian Pigment Based Eumelanin Thin Films After Thermal Annealing in Vacuum

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