Plasmon-enhanced parabolic nanostructures for broadband absorption in ultra-thin crystalline Si solar cells
Sub-wavelength plasmonic light trapping nanostructures are promising candidates for
achieving enhanced broadband absorption in ultra-thin silicon (Si) solar cells. In this work …
achieving enhanced broadband absorption in ultra-thin silicon (Si) solar cells. In this work …
Regulating the Phase and Optical Properties of Mixed‐Halide Perovskites via Hot‐Electron Engineering
The rapid development of mixed‐halide perovskites has established a versatile
optoelectronic platform owing to their extraordinary physical properties, but there remain …
optoelectronic platform owing to their extraordinary physical properties, but there remain …
Cone-shaped resonator-based highly efficient broadband metamaterial absorber
We propose a highly efficient, low-cost metamaterial absorber of nickel (Ni) metal-based
cone-shaped resonators with a silicon dioxide dielectric layer (SiO2). The proposed …
cone-shaped resonators with a silicon dioxide dielectric layer (SiO2). The proposed …
Enhanced near-infrared absorption in Au-hyperdoped Si: interplay between mid-gap states and plasmon resonance
S Peng, T Wang, MS Shaikh, R Hübner, M Tian… - Optics …, 2024 - opg.optica.org
Detecting near-infrared (NIR) light with high efficiency is crucial for photodetectors that are
applied in optical communication systems. Si hyperdoped with deep-level impurities …
applied in optical communication systems. Si hyperdoped with deep-level impurities …
Cone-shaped resonator-based highly efficient broadband polarization-independent metamaterial absorber for solar energy harvesting
We propose a highly efficient, low-cost metamaterial absorber of nickel (Ni) metal-based
cone-shaped resonators with a silicon dioxide dielectric layer (SiO 2). The proposed …
cone-shaped resonators with a silicon dioxide dielectric layer (SiO 2). The proposed …
A thin-film sis solar cell based on distributed silicon nanoparticles
MA Shameli, SR Mirnaziry… - 2021 29th Iranian …, 2021 - ieeexplore.ieee.org
In this paper, a thin solar cell based on silicon nanospheres is proposed to trap and confine
sunlight. The silicon nanospheres are distributed periodically and randomly inside the active …
sunlight. The silicon nanospheres are distributed periodically and randomly inside the active …