[PDF][PDF] Studies on biopolymer-Based Nanocomposites reinforced with metallic Nanoparticles
Advancements in biopolymer-metallic nanocomposites have led to diverse applications,
including drug delivery, biosensing, bone regeneration, solar cells, and supercapacitors …
including drug delivery, biosensing, bone regeneration, solar cells, and supercapacitors …
Systematic Investigation of the Optical Characteristics of GaAs Solar Cells with Antireflection Coatings and Metallic Nanoparticles Using Finite Element Analysis
For energy-efficient thin-film solar cells, photovoltaic researchers are investigating
alternative strategies like metallic nanostructures supporting plasmon resonance and …
alternative strategies like metallic nanostructures supporting plasmon resonance and …
Biosynthesis of copper nanoparticles using Alstonia scholaris leaves and its antimicrobial studies
The utilization of plants for the production of metallic nanoparticles is gaining significant
attention in research. In this study, we conducted phytochemical screening of Alstonia …
attention in research. In this study, we conducted phytochemical screening of Alstonia …
Design perspectives of a thin film GaAs solar cell integrated with Carrier Selective contacts and anti-reflection coatings: Optical and device analysis
III-V thin-film solar cells (SCs) have shown exceptional optoelectronic properties and
remarkable power conversion efficiency (PCE), attributed to their outstanding charge …
remarkable power conversion efficiency (PCE), attributed to their outstanding charge …
Analysis of plasmonic nanoparticles effects on the performance of perovskite solar cells through surface recombination and short-circuiting behaviors
Plasmonic photovoltaics integrate nanoparticles into the active layer to enhance power
absorption. However a gap exists between simulated and experimental IV characteristics …
absorption. However a gap exists between simulated and experimental IV characteristics …
Design of Graphene-Coated Silver Nanoparticle Based on Numerical Solution to Enhance the Absorption of the Thin-Film Solar Cell
In recent years, thin-film silicon solar cells have garnered significant attention due to their
low manufacturing costs, yet their efficiency remains relatively low owing to their limited …
low manufacturing costs, yet their efficiency remains relatively low owing to their limited …
Photovoltaic functionality assessment of InPBi-based solar cells using a combination of density functional theory and finite element method analysis
This work reports the theoretical investigation of the effect of incorporation of dilute Bismuth
(Bi) on the optical and electronic properties of zinc blende (ZB) phase Indium Phosphide …
(Bi) on the optical and electronic properties of zinc blende (ZB) phase Indium Phosphide …
Inclusion of metal nanoparticles at the core-shell interface of GaAs0. 99Bi0. 01/ZnO/ITO core-shell nanowire solar cell for photovoltaic performance enhancement
Optoelectronic performance analysis of perpendicularly aligned conformally coated GaAs
0.99 Bi 0.01/ZnO/ITO core–shell nanowire solar cell having a core length of 1 μm, core …
0.99 Bi 0.01/ZnO/ITO core–shell nanowire solar cell having a core length of 1 μm, core …
Comparative optical analysis of GaAs nanostructures for photovoltaic applications using finite element method
In this manuscript, a thorough comparative analysis of six GaAs based nanostructures
(hollow and solid) is performed on the basis of their optical performance. These …
(hollow and solid) is performed on the basis of their optical performance. These …
High-efficiency ultra-thin GaAs solar cells based on ITO/Ag/ITO transparent electrodes and photonic crystals
J Zhu, S Lin, J Tang - Physica Scripta, 2024 - iopscience.iop.org
Ultrathin photovoltaic technology has great potential to improve efficiency and reduce costs.
However, achieving optical thickness requires an effective light capture strategy. In this …
However, achieving optical thickness requires an effective light capture strategy. In this …