Nonlinear Optical Properties of Mono and Multilayer MoWSe2 Alloys

IF 7.2 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Advanced Optical Materials Pub Date : 2025-08-30 DOI:10.1002/adom.202501000

Muhammad Hussain, Omid Ghaebi, Mohammad Monfared, Marco Gruenewald, Umer Ahsan, Fedor Lipilin, Jan Luxa, Zdeněk Sofer, Ulf Peschel, Giancarlo Soavi

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Abstract

Transition metal dichalcogenide (TMD) alloys provide a stable and reliable platform for broadband tuning of excitonic resonances. Here, the nonlinear optical response of Mo_{(1 − x)}W_xSe₂, focusing in particular on second harmonic generation (SHG) and two-photon photoluminescence (TP-PL), is studied. It is found that alloys always display stronger nonlinearities compared to pristine TMDs. In addition, by comparing the resonant energies of SHG and TP-PL, a non-monotonic change of the energy difference between the 1s and 2p states of the A exciton, pointing toward the possibility of tuning the exciton binding energy by alloying and material composition, is found. Finally, layer-dependent SHG and TP-PL, which show an alternate broken/preserved space inversion symmetry for odd/even number of layers and a transition from indirect to direct bandgap when thinning down the layered samples to the monolayer limit, is reported. This work provides useful insights for a better understanding of the optical and electronic properties of TMD alloys, and thus for their use in future photonic and opto-electronic devices.

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单层和多层MoWSe2合金的非线性光学性质

过渡金属二硫化物（TMD）合金为激子共振的宽带调谐提供了一个稳定可靠的平台。本文研究了Mo(1−x)WxSe2的非线性光学响应，重点研究了二次谐波产生（SHG）和双光子光致发光（TP-PL）。结果表明，合金与原始合金相比，具有更强的非线性。此外，通过比较SHG和TP-PL的共振能量，发现a激子的1s态和2p态之间的能量差发生了非单调变化，这表明可以通过合金和材料成分来调节激子结合能。最后，报道了层相关的SHG和TP-PL，它们显示了奇数/偶数层的交替破碎/保留空间反演对称性，当层状样品变薄到单层极限时，从间接带隙到直接带隙的转变。这项工作为更好地理解TMD合金的光学和电子特性提供了有用的见解，从而为其在未来的光子和光电器件中的应用提供了有用的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Optical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-OPTICS

CiteScore

13.70

自引率

6.70%

发文量

883

审稿时长

1.5 months

期刊介绍： Advanced Optical Materials, part of the esteemed Advanced portfolio, is a unique materials science journal concentrating on all facets of light-matter interactions. For over a decade, it has been the preferred optical materials journal for significant discoveries in photonics, plasmonics, metamaterials, and more. The Advanced portfolio from Wiley is a collection of globally respected, high-impact journals that disseminate the best science from established and emerging researchers, aiding them in fulfilling their mission and amplifying the reach of their scientific discoveries.