异质结
材料科学
光伏
纳米结构
密度泛函理论
碳纤维
无定形碳
纳米技术
兴奋剂
富勒烯
太阳能电池
无定形固体
碳纳米管
从头算
化学物理
光电子学
光伏系统
计算化学
化学
复合数
结晶学
复合材料
生态学
有机化学
生物
作者
Francesca Risplendi,Giancarlo Cicero,Jeffrey C. Grossman
出处
期刊:ACS energy letters
[American Chemical Society]
日期:2017-03-16
卷期号:2 (4): 882-888
被引量:3
标识
DOI:10.1021/acsenergylett.7b00166
摘要
Amorphous carbon (a-C) has the potential to provide properties important to solar photovoltaics that are comparable to those of silicon-based materials with further advantages such as low cost, solution processing, air stability, and higher thermal resistance. We employ accurate computational approaches to explore and understand active layers based on bulk heterojunctions containing a-C. Our results show that interfaces with a-C and other carbon nanostructures could enable successful electron and hole extraction as well as reduced sources for carrier recombination. Ab initio molecular dynamics and density functional theory calculations are carried out for a large statistical set of interfaces between a-C structures of different densities and either carbon nanotubes or fullerenes. We show that the energy alignment at such interfaces can be widely tuned as a function of a-C density, doping chemistry, or nanostructure size to obtain type-II heterostructures and that the optical properties of such interfaces would be highly favorable for sunlight harvesting.
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