Design and Development of Ultra-Broadband Hexagonal-shaped MXene-based Metamaterial Solar Absorber Optimized by Machine Learning for Renewable Energy Applications DOI

Raj Agravat,

Shobhit K. Patel,

Taoufik Saidani

и другие.

Research Square (Research Square), Год журнала: 2025, Номер unknown

Опубликована: Апрель 29, 2025

Abstract To optimise the production of energy and minimise loss concerning availability green energy, especially solar a number sun light absorber prototypes composed various materials were examined. Tungsten MXene serve as components in Hexagonal with Square-shaped Resonator Metamaterial MXene-based Solar Absorber (HWSRMMSA), resonator hexagonal square form. The substrate recommended HWSRMMSA was SiO2, contrast to bottom layer Fe. Polarization is important for this ultra-wideband HWSRMMSA, which has wide bandwidth 2020 1140 nm 91% 96% absorptance at 200–4000 wavelength. Permittivity characteristics, refractive index, permeability among negative metamaterial consequences that expanded reliability absorptance. According calculation, maximum possible R2 value 0.999551 parameter modification ML (machine learning) model, using liner regression aims reduce simulation duration by quarter within comparison previous techniques while lowering other requirements. Finally, previously described used observe compare, Electric intensity studied described. Because its outstanding absorptance, surface plasmon resonance ultra-broadband, been utilized water heaters.

Язык: Английский

A temperature-insensitive graphene-water-based ultra-wideband terahertz metamaterials absorber designed using deep neural networks DOI
Jing Li, Huanyang Chen, S. L. Yap

и другие.

Optics & Laser Technology, Год журнала: 2025, Номер 185, С. 112591 - 112591

Опубликована: Фев. 17, 2025

Язык: Английский

Процитировано

1
Design and Development of Ultra-Broadband Hexagonal-shaped MXene-based Metamaterial Solar Absorber Optimized by Machine Learning for Renewable Energy Applications DOI

Raj Agravat,

Shobhit K. Patel,

Taoufik Saidani

и другие.

Research Square (Research Square), Год журнала: 2025, Номер unknown

Опубликована: Апрель 29, 2025

Abstract To optimise the production of energy and minimise loss concerning availability green energy, especially solar a number sun light absorber prototypes composed various materials were examined. Tungsten MXene serve as components in Hexagonal with Square-shaped Resonator Metamaterial MXene-based Solar Absorber (HWSRMMSA), resonator hexagonal square form. The substrate recommended HWSRMMSA was SiO2, contrast to bottom layer Fe. Polarization is important for this ultra-wideband HWSRMMSA, which has wide bandwidth 2020 1140 nm 91% 96% absorptance at 200–4000 wavelength. Permittivity characteristics, refractive index, permeability among negative metamaterial consequences that expanded reliability absorptance. According calculation, maximum possible R2 value 0.999551 parameter modification ML (machine learning) model, using liner regression aims reduce simulation duration by quarter within comparison previous techniques while lowering other requirements. Finally, previously described used observe compare, Electric intensity studied described. Because its outstanding absorptance, surface plasmon resonance ultra-broadband, been utilized water heaters.

Язык: Английский

Процитировано

1