Development status and application of optoelectronic technology-OAJRC Applied Physics-Pubscie

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Development status and application of optoelectronic technology

DOI: 10.26855/oajrcap.2019.12.001
Year, volume (issue): 2019, 1(1)
pp. 1-4
Published in: OAJRC Applied Physics
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S. Kumar

Optoelectronic technology, development, application

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Abstract

At present, with the rapid development of the economy and the continuous im-provement of the level of science and technology, optoelectronic technology has made great progress, and the scope of application is not limited to a certain in-dustry, such as medicine, weapons and economics and other fields. In recent years, countries all over the world have achieved a certain degree of development in optoelectronic technology. From the perspective of national politics, optoelectronic technology has become one of the standards to measure the comprehensive strength of the country. From an economic point of view, the application of optoelectronic technology in the economy makes economic development find another way. In recent years, in order to seek sustained and stable economic development, my country has made some achievements in the development of optoelectronic technology.

Keywords: Optoelectronic technology, development, application

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[1] Chih Y K, Wang J C, Yang R T, et al. NiOx electrode interlayer and CH3NH2/CH3NH3PbBr3 Interface treatment to markedly advance hybrid perovskite‐based light‐emitting diodes[J]. Advanced materials, 2016, 28(39): 8687-8694.

[2] Lee H B, Jin W Y, Ovhal M M, et al. Flexible transparent conducting electrodes based on metal meshes for organic optoelectronic device applications: a review[J]. Journal of Materials Chemistry C, 2019, 7(5): 1087-1110.

[3] Advances in Optoelectronic Technology and Industry Development: Proceedings of the 12th International Symposium on Pho-tonics and Optoelectronics (SOPO 2019), August 17-19, 2019, Xi'an, China[M]. CRC Press, 2019.

[4] Miller D A B. Attojoule optoelectronics for low-energy information processing and communications[J]. Journal of Lightwave Technology, 2017, 35(3): 346-396.

[5] Manser J S, Christians J A, Kamat P V. Intriguing optoelectronic properties of metal halide perovskites[J]. Chemical reviews, 2016, 116(21): 12956-13008.

[6] Moustakas T D, Paiella R. Optoelectronic device physics and technology of nitride semiconductors from the UV to the tera-hertz[J]. Reports on Progress in Physics, 2017, 80(10): 106501.

[7] Moustakas T D, Paiella R. Optoelectronic device physics and technology of nitride semiconductors from the UV to the tera-hertz[J]. Reports on Progress in Physics, 2017, 80(10): 106501.

[8] Srivastava A K, Zhang W, Schneider J, et al. Photoaligned nanorod enhancement films with polarized emission for liquid‐crystal‐display applications[J]. Advanced Materials, 2017, 29(33): 1701091.

[9] Nekrylov I S, Korotaev V V, Denisov V M, et al. Modern approaches for a design and development of optoelectronic measuring systems[C]//Optical Modelling and Design IV. SPIE, 2016, 9889: 425-432.

[10] Bettis Homan S, Sangwan V K, Balla I, et al. Ultrafast exciton dissociation and long-lived charge separation in a photovoltaic pentacene–MoS2 van der Waals heterojunction[J]. Nano letters, 2017, 17(1): 164-169.

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