Научная статья на тему 'Laser nanotechnologies for perovskite photonics and optoelectronics'

Laser nanotechnologies for perovskite photonics and optoelectronics Текст научной статьи по специальности «Нанотехнологии»

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Текст научной работы на тему «Laser nanotechnologies for perovskite photonics and optoelectronics»

Laser nanotechnologies for perovskite photonics and

optoelectronics

Sergey Makarov1'2

1-ITMO University, 49 Kronverkskypr., 197101, St. Petersburg, Russia 2- Qingdao Innovation and Development Center, Harbin Engineering University, Qingdao 266000, Shandong,

China

[email protected]

Recently, nanostructured halide perovskites [1] have attracted enormous attention due to their exceptional optical and electrical properties being useful various optoelectronic devices [2] as shown in Fig.1. As a result, this family of materials can provide a prospective platform for modern nanophotonics and meta-optics [3,4], allowing us to overcome many obstacles associated with the use of conventional semiconductor materials. Here, we review the recent progress on laser ablation for application in halide perovskite nanophotonics starting from single-particle light-emitting nanoantennas [5,6] and nano/micro-lasers [7] to the large-scale designs working for surface coloration, anti-reflection, optical information encoding [8]. Moreover, we discuss high potential of the femtosecond laser ablation for improvement of perovskite solar cells [9,10], creation of microscale light-emitting devices [11] and photodetectors.

Figure 1. Schematic illustrations of methods for patterning and integration (left side) as well as applications of perovskite nanostructures in nanophotonics and optoelectronics (right side).

[1] C. Soci, G. Adamo, D. Cortecchia, et al, Roadmap on perovskite nanophotonics, Optical Materials: X, 17, 100214 (2023).

[2] A. Berestennikov, P. Voroshilov, S. Makarov, Y. Kivshar, Active meta-optics and nanophotonics with halide perovskites, Applied Physics Reviews, vol. 6, pp. 3 (2019).

[3] P. Tonkaev, I. Sinev, M. Rybin, S. Makarov, Y. Kivshar, Multifunctional and transformative metaphotonics with emerging materials, Chemical Reviews, vol. 122(19), pp. 15414-15449 (2022).

[4] E. Tiguntseva, G. Zograf, P., Komissarenko, et al, Light-emitting halide perovskite nanoantennas, Nano Letters 18(2), pp.1185-1190 (2018).

[5] E. Tiguntseva, D. Baranov, A. Pushkarev, et al, Tunable hybrid Fano resonances in halide perovskite nanoparticles, Nano Letters, vol.18(9), pp.5522-5529 (2018).

[6] A. Zhizhchenko, S. Syubaev, A. Berestennikov, Single-mode lasing from imprinted halide-perovskite microdisks, ACS Nano, vol.13(4), pp.4140-4147 (2019).

[7] A. Zhizhchenko, P. Tonkaev, D. Gets, et al, Light-emitting nanophotonic designs enabled by ultrafast laser processing of halide perovskites, Small, p.2000410 (2020).

[8] A. Furasova, E. Calabro, E. Lamanna, et al, Resonant silicon nanoparticles for enhanced light harvesting in halide perovskite solar cells, Advanced Optical Materials, vol.6(21), pp.1800576 (2018).

[9] A. Furasova, M. Krassas, M. Tountas, et al, Photovoltaic parameters improvement via size control of monodisperse Mie-resonant nanoparticles in perovskite solar cells, Chemical Engineering Journal, pp.152771 (2024).

[10] A. Marunchenko, V. Kondratiev, A. Pushkarev, et al, Mixed Ionic-Electronic Conduction Enables Halide-Perovskite Electroluminescent Photodetector, Laser & Photonics Reviews, vol.17(9), pp.2300141 (2023).

[11] A. Marunchenko, M. Baranov, E. Ushakova, et al, Single-Walled Carbon Nanotube Thin Film for Flexible and Highly Responsive Perovskite Photodetector, Advanced Functional Materials, vol.32(12), pp.2109834 (2022).

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