Analysis of properties of krypton ion-implanted Zn-polar ZnO thin films*

Jiang, Qixia; Lian, Jie; Ying, Minju; Wei, Mingyang; Wang, Chenlin

doi:10.1088/1674-1056/abe92e

Cited by 2 publications

(1 citation statement)

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“…Different dopants and doping ratios can lead to other electronic structures and properties. [120,121] Li et al [122] predicted the optimal manganese doping concentration to optimize the performance of Mn-doped CMZTSSe solar cells. The authors used GPR to predict the optimal Mn doping concentration of 5% in CMZTSSe solar cells.…”

Section: Materials and Devices Optimizationmentioning

confidence: 99%

Applications and potentials of machine learning in optoelectronic materials research: An overview and perspectives

Zhang 张,

Fu 付

2023

Chinese Phys. B

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Optoelectronic materials are essential for today's scientific and technological development, and machine learning provides new ideas and tools for their research. In this paper, we first summarize the development history of optoelectronic materials and how materials informatics drives the innovation and progress of optoelectronic materials and devices. Then, we introduce the development of machine learning and its general process in optoelectronic materials and describe the specific implementation methods. We focus on the cases of machine learning in several application scenarios of optoelectronic materials and devices, including the methods related to crystal structure, properties (defects, electronic structure) research, materials and devices optimization, material characterization, and process optimization. In summarizing the algorithms and feature representations used in different studies, it is noted that prior knowledge can improve optoelectronic materials design, research, and decision-making processes. Finally, the prospect of machine learning applications in optoelectronic materials is discussed, along with current challenges and future directions. This paper comprehensively describes the application value of machine learning in optoelectronic materials research and aims to provide reference and guidance for the continuous development of this field.

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Section: Materials and Devices Optimizationmentioning

confidence: 99%