激子
声子
光致发光
材料科学
散射
凝聚态物理
二硒化钨
电介质
化学物理
分子物理学
光电子学
过渡金属
物理
化学
光学
催化作用
生物化学
作者
Eli R. Adler,Thy Doan Mai Le,Ibrahim Boulares,Robert K. Boyd,Yangchen He,Daniel Rhodes,Edward Van Keuren,Paola Barbara,Sina Najmaei
出处
期刊:Nanomaterials
[Multidisciplinary Digital Publishing Institute]
日期:2023-12-22
卷期号:14 (1): 37-37
被引量:1
摘要
Transition metal dichalcogenides (TMDs) have unique absorption and emission properties that stem from their large excitonic binding energies, reduced-dielectric screening, and strong spin–orbit coupling. However, the role of substrates, phonons, and material defects in the excitonic scattering processes remains elusive. In tungsten-based TMDs, it is known that the excitons formed from electrons in the lower-energy conduction bands are dark in nature, whereas low-energy emissions in the photoluminescence spectrum have been linked to the brightening of these transitions, either via defect scattering or via phonon scattering with first-order phonon replicas. Through temperature and incident-power-dependent studies of WS2 grown by CVD or exfoliated from high-purity bulk crystal on different substrates, we demonstrate that the strong exciton–phonon coupling yields brightening of dark transitions up to sixth-order phonon replicas. We discuss the critical role of defects in the brightening pathways of dark excitons and their phonon replicas, and we elucidate that these emissions are intrinsic to the material and independent of substrate, encapsulation, growth method, and transfer approach.
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