利用光热拉曼技术揭示碲化钼薄膜的热输运特性

Unraveling Thermal Transport Properties of MoTe Thin Films Using the Optothermal Raman Technique.

作者信息

Rodriguez-Fernandez Carlos, Nieminen Arttu, Ahmed Faisal, Pietila Jesse, Lipsanen Harri, Caglayan Humeyra

机构信息

Faculty of Engineering and Natural Sciences, Photonics, Tampere University, 33720 Tampere, Finland.

Department of Electronics and Nanoengineering, Aalto University, P.O. Box 13500, FI-00076 Aalto, Finland.

出版信息

ACS Appl Mater Interfaces. 2023 Jul 26;15(29):35692-35700. doi: 10.1021/acsami.3c06134. Epub 2023 Jul 12.

DOI:10.1021/acsami.3c06134

PMID:37435778

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10375478/

Abstract

Understanding phonon transport and thermal conductivity of layered materials is not only critical for thermal management and thermoelectric energy conversion but also essential for developing future optoelectronic devices. Optothermal Raman characterization has been a key method to identify the properties of layered materials, especially transition-metal dichalcogenides. This work investigates the thermal properties of suspended and supported MoTe thin films using the optothermal Raman technique. We also report the investigation of the interfacial thermal conductance between the MoTe crystal and the silicon substrate. To extract the thermal conductivity of the samples, temperature- and power-dependent measurements of the in-plane E and out-of-plane A optical phonon modes were performed. The results show remarkably low in-plane thermal conductivities at room temperature, at around 5.16 ± 0.24 W/m·K and 3.72 ± 0.26 W/m·K for the E and the A modes, respectively, for the 17 nm thick sample. These results provide valuable input for the design of electronic and thermal MoTe-based devices where thermal management is vital.

摘要

理解层状材料中的声子输运和热导率不仅对热管理和热电能量转换至关重要，而且对未来光电器件的开发也必不可少。光热拉曼表征一直是识别层状材料特性的关键方法，特别是对于过渡金属二硫属化物。这项工作使用光热拉曼技术研究了悬浮和支撑的MoTe薄膜的热性能。我们还报告了对MoTe晶体与硅衬底之间界面热导的研究。为了提取样品的热导率，对平面内E和面外A光学声子模式进行了温度和功率相关的测量。结果表明，对于17nm厚的样品，室温下平面内热导率极低，E模式和约为5.16±0.24W/m·K，A模式约为3.72±0.26W/m·K。这些结果为热管理至关重要的基于MoTe的电子和热器件的设计提供了有价值的参考。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9da3/10375478/420610fddc27/am3c06134_0002.jpg

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利用光热拉曼技术揭示碲化钼薄膜的热输运特性

Unraveling Thermal Transport Properties of MoTe Thin Films Using the Optothermal Raman Technique.

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