有机半导体
苝
载流子
半导体
电子迁移率
二亚胺
极化子
化学物理
凝聚态物理
材料科学
电子结构
电子能带结构
化学
电子
光电子学
计算化学
物理
分子
有机化学
量子力学
作者
Jaseela Palassery Ithikkal,Keisuke Fukutani,Fumi Nishino,Taketoshi Minato,Hiroyuki Ishii,Seiichiro Izawa,Kiyohisa Tanaka,Masahiro Hiramoto,Satoshi Kera
摘要
Despite the rapid progresses in the field of organic semiconductors, aided by the development of high-mobility organic materials, their high carrier mobilities are often unipolar, being sufficiently high only for either electrons or holes. Yet, the basic mechanisms underlying such significant mobility asymmetry largely remains elusive. We perform angle-resolved photoelectron spectroscopy to reveal the occupied band structures and the many-body interactions for low-mobility hole carriers in a typical n-type semiconductor perylene diimide derivative. The band dispersion exhibits strong renormalization to the calculated non-interacting electronic structure. The analysis including many-body interactions elucidate that the significant mass enhancement can be understood in terms of strong charge–phonon coupling, leading to an important mechanism of polaron band transport of low intrinsic carrier mobility in organic semiconductors.
科研通智能强力驱动
Strongly Powered by AbleSci AI