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Locating the bandgap edges of eumelanin thin films for applications in organic electronics
Journal of Chemical Technology and Biotechnology ( IF 3.4 ) Pub Date : 2021-12-10 , DOI: 10.1002/jctb.7011 Dieudonné Niyonkuru 1 , Alexandre Carrière 1 , Ryan Ambrose 2 , Abdelaziz Gouda 1 , Manuel Reali 1 , Anthony Camus 1 , Alessandro Pezzella 3 , Ian Hill 2 , Clara Santato 1
Journal of Chemical Technology and Biotechnology ( IF 3.4 ) Pub Date : 2021-12-10 , DOI: 10.1002/jctb.7011 Dieudonné Niyonkuru 1 , Alexandre Carrière 1 , Ryan Ambrose 2 , Abdelaziz Gouda 1 , Manuel Reali 1 , Anthony Camus 1 , Alessandro Pezzella 3 , Ian Hill 2 , Clara Santato 1
Affiliation
Bio-sourced (natural) organic materials are often chemically and structurally disordered, such that their structure-property relationships must be explored using model systems. Eumelanin is an interesting candidate among natural organic materials.
中文翻译:
定位真黑色素薄膜的带隙边缘以应用于有机电子学
生物源(天然)有机材料通常在化学和结构上是无序的,因此必须使用模型系统探索它们的结构-性质关系。真黑色素是天然有机材料中一个有趣的候选者。
更新日期:2021-12-10
中文翻译:
定位真黑色素薄膜的带隙边缘以应用于有机电子学
生物源(天然)有机材料通常在化学和结构上是无序的,因此必须使用模型系统探索它们的结构-性质关系。真黑色素是天然有机材料中一个有趣的候选者。
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