单层 WSe2 在隙外激发下形成更多的三离子和带电双激子

IF 15.8 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY ACS Nano Pub Date : 2024-11-14 DOI:10.1021/acsnano.4c13208
Matthew C. Strasbourg, Emanuil S. Yanev, Sheikh Parvez, Sajia Afrin, Cory Johns, Zoe Noble, Thomas P. Darlington, Erik M. Grumstrup, James C. Hone, P. James Schuck, Nicholas J. Borys
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引用次数: 0

摘要

由于强烈的库仑相互作用,二维半导体表现出明显的多体效应和强烈的光学响应。因此,光激发条件的细微差别会强烈影响材料在热化过程中的能量耗散方式。在这里,我们利用多重激发光谱分析表明,在激发能量升高时会出现一种独特的热化途径,可使单层 WSe2 中的三离子和带电双激子的形成分别提高 2 倍和 5 倍。随功率和温度变化而变化的测量结果使人们对这种增强的起源有了更深入的了解。这些观察结果强调了单层半导体激发态弛豫的复杂性,为载流子热化模型的持续发展提供了启示,并凸显了在二维半导体中精确控制激子产率和探测非平衡动力学的潜力。
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Increased Formation of Trions and Charged Biexcitons by Above-Gap Excitation in Single-layer WSe2
Two-dimensional semiconductors exhibit pronounced many-body effects and intense optical responses due to strong Coulombic interactions. Consequently, subtle differences in photoexcitation conditions can strongly influence how the material dissipates energy during thermalization. Here, using multiple excitation spectroscopies, we show that a distinct thermalization pathway emerges at elevated excitation energies, enhancing the formation of trions and charged biexcitons in single-layer WSe2 by up to 2× and 5× , respectively. Power- and temperature-dependent measurements lend insights into the origin of the enhancement. These observations underscore the complexity of excited state relaxation in monolayer semiconductors, provide insights for the continued development of carrier thermalization models, and highlight the potential to precisely control excitonic yields and probe nonequilibrium dynamics in 2D semiconductors.
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来源期刊
ACS Nano
ACS Nano 工程技术-材料科学:综合
CiteScore
26.00
自引率
4.10%
发文量
1627
审稿时长
1.7 months
期刊介绍: ACS Nano, published monthly, serves as an international forum for comprehensive articles on nanoscience and nanotechnology research at the intersections of chemistry, biology, materials science, physics, and engineering. The journal fosters communication among scientists in these communities, facilitating collaboration, new research opportunities, and advancements through discoveries. ACS Nano covers synthesis, assembly, characterization, theory, and simulation of nanostructures, nanobiotechnology, nanofabrication, methods and tools for nanoscience and nanotechnology, and self- and directed-assembly. Alongside original research articles, it offers thorough reviews, perspectives on cutting-edge research, and discussions envisioning the future of nanoscience and nanotechnology.
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