结合结构预测与实验探索含碱土金属的类黄铜矿红外非线性光学材料

The Combination of Structure Prediction and Experiment for the Exploration of Alkali-Earth Metal-Contained Chalcopyrite-Like IR Nonlinear Optical Material.

作者信息

Wang Peng, Chu Yu, Tudi Abudukadi, Xie Congwei, Yang Zhihua, Pan Shilie, Li Junjie

机构信息

CAS Key Laboratory of Functional Materials and Devices for Special Environments, Xinjiang Technical Institute of Physics & Chemistry CAS, Xinjiang Key Laboratory of Electronic Information Materials and Devices, Urumqi, 830011, P. R. China.

Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing, 100049, P. R. China.

出版信息

Adv Sci (Weinh). 2022 May;9(15):e2106120. doi: 10.1002/advs.202106120. Epub 2022 Apr 11.

DOI:10.1002/advs.202106120

PMID:35404514

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9130896/

Abstract

Design and fabrication of new infrared (IR) nonlinear optical (NLO) materials with balanced properties are urgently needed since commercial chalcopyrite-like (CL) NLO crystals are suffering from their intrinsic drawbacks. Herein, the first defect-CL (DCL) alkali-earth metal (AEM) selenide IR NLO material, DCL-MgGa Se , has been rationally designed and fabricated by a structure prediction and experiment combined strategy. The introduction of AEM tetrahedral unit MgSe effectively widens the band gap of DCL compounds. The title compound exhibits a wide band gap of 2.96 eV, resulting in a high laser induced damage threshold (LIDT) of ≈3.0 × AgGaS (AGS). Furthermore, the compound shows a suitable second harmonic generation (SHG) response (≈0.9 × AGS) with a type-I phase-matching (PM) behavior and a wide IR transparent range. The results indicate that DCL-MgGa Se is a promising mid-to-far IR NLO material and give some insights into the design of new CL compound with outstanding IR NLO properties based on the AEM tetrahedra and the structure predication and experiment combined strategy.

摘要

由于商业化的类黄铜矿（CL）非线性光学（NLO）晶体存在固有缺陷，因此迫切需要设计和制备具有平衡性能的新型红外（IR）非线性光学材料。在此，通过结构预测与实验相结合的策略，合理设计并制备了首例缺陷型CL（DCL）碱土金属（AEM）硒化物红外NLO材料DCL-MgGa₂Se₄。AEM四面体单元MgSe的引入有效地拓宽了DCL化合物的带隙。标题化合物表现出2.96 eV的宽带隙，导致其激光诱导损伤阈值（LIDT）高达≈3.0×AgGaS₂（AGS）。此外，该化合物表现出合适的二次谐波产生（SHG）响应（≈0.9×AGS），具有I型相位匹配（PM）行为和较宽的红外透明范围。结果表明，DCL-MgGa₂Se₄是一种有前途的中红外至远红外NLO材料，并基于AEM四面体以及结构预测与实验相结合的策略，为设计具有优异红外NLO性能的新型CL化合物提供了一些见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4164/9130896/4493de3169f1/ADVS-9-2106120-g005.jpg

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结合结构预测与实验探索含碱土金属的类黄铜矿红外非线性光学材料

The Combination of Structure Prediction and Experiment for the Exploration of Alkali-Earth Metal-Contained Chalcopyrite-Like IR Nonlinear Optical Material.

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