Bandgaps in the deep ultraviolet borate crystals: Prediction and improvement

He Ran; Huang Hongwei; Kang Lei; Yao Wenjiao

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Bandgaps in the deep ultraviolet borate crystals: Prediction and improvement

机译：深紫外硼酸盐晶体中的带隙：预测和改进

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We identify the microscopic structural origins determining the bandgaps in the deep-ultraviolet borates, and propose an efficient method for the prediction of their bandgaps. This method considers only the chemical bond lengths around oxygen atoms and achieves the very high precision with the relative error <5% typically. Its validity is verified by the first-principles studies, which reveal the strong dependence of bandgaps on the coordination environment around oxygen atoms. Our studies have great implications on the search and design of optoelectronic functional materials with large bandgap.

机译：我们确定了决定深紫外硼酸盐中带隙的微观结构起源，并提出了一种预测其带隙的有效方法。该方法仅考虑了氧原子周围的化学键长度，并获得了非常高的精度，相对误差通常小于5％。第一性原理研究证实了其有效性，该研究揭示了带隙对氧原子周围配位环境的强烈依赖性。我们的研究对具有较大带隙的光电功能材料的搜索和设计具有重大意义。

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来源
《Applied Physics Letters》 |2013年第23期|1-4|共4页
作者
He Ran; Huang Hongwei; Kang Lei; Yao Wenjiao;
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作者单位

Beijing Center for Crystal R&D, Key Lab of Functional Crystals and Laser Technology of Chinese Academy of Sciences, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, People's Republic of China|c|;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Bandgaps in the deep ultraviolet borate crystals: Prediction and improvement [J] . Ran He, Hongwei Huang, Lei Kang, Applied Physics Letters . 2013,第23期

机译：深紫外硼酸盐晶体中的带隙：预测和改进
2. Borate-Based Ultraviolet and Deep-Ultraviolet Nonlinear Optical Crystals [J] . Yi Yang, Xingxing Jiang, Zheshuai Lin, Crystals . 2017,第4期

机译：硼酸盐基紫外和深紫外非线性光学晶体
3. Two Deep Ultraviolet Hydrated Borate Crystals: Centrosymmetric LiRbB5O8(OH)center dot H2O and Non-Centrosymmetric K2B5O8(OH)center dot 2H(2)O [J] . Shi Yutong, Luo Min, Lin Chensheng, Crystal growth & design . 2019,第5期

机译：两个深紫色水合硼酸盐晶体：亚邻rirbb5088（OH）中心点H2O和非亚里索对称K2B5O8（OH）中心点2H（2）O.
4. Deep Ultraviolet Out-of-Band Contribution in Extreme Ultraviolet Lithography: Predictions and Experiments [C] . Gian F. Lorusso, Natalia Davydova, Mark Eurlings, Conference on extreme ultraviolet (EUV) lithography II . 2011

机译：极紫外光刻中的深紫外带外贡献：预测和实验
5. Molecular Beam Epitaxy of Wide Bandgap Al(Ga)N and h-BN for Deep-Ultraviolet Optoelectronics [D] . Laleyan, David. 2020

机译：用于深紫外光电子的宽带隙Al（Ga）N和H-Bn的分子束外延
6. Bandgap-Tuned 2D Boron Nitride/Tungsten Nitride Nanocomposites for Development of High-Performance Deep Ultraviolet Selective Photodetectors [O] . Ali Aldalbahi, Rafael Velázquez, Andrew F. Zhou, 2020

机译：带隙调谐的2D氮化硼/钨纳米核复合材料用于开发高性能深紫色选择性光电探测器
7. Borate-Based Ultraviolet and Deep-Ultraviolet Nonlinear Optical Crystals [O] . Yi Yang, Xingxing Jiang, Zheshuai Lin, 2017

机译：基于硼酸硼和深紫外线非线性光学晶体
8. Growth and Evaluation of Nonlinear Optical Crystals for Laser Applications:Lithium Borate, Barium Borate and Silver Gallium Selenide [R] . Feigelson, R. S., Route, R. K. 1994

机译：用于激光应用的非线性光学晶体的生长和评价：硼酸锂，硼酸钡和硒化银镓

Bandgaps in the deep ultraviolet borate crystals: Prediction and improvement

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