Current status and future prospects of copper oxide heterojunction solar cells
The current state of thin film heterojunction solar cells based on cuprous oxide (Cu2O),
cupric oxide (CuO) and copper (III) oxide (Cu4O3) is reviewed. These p-type …
cupric oxide (CuO) and copper (III) oxide (Cu4O3) is reviewed. These p-type …
[HTML][HTML] Design and numerical investigation of cadmium telluride (CdTe) and iron silicide (FeSi2) based double absorber solar cells to enhance power conversion …
Inorganic CdTe and FeSi 2-based solar cells have recently drawn a lot of attention because
they offer superior thermal stability and good optoelectronic properties compared to …
they offer superior thermal stability and good optoelectronic properties compared to …
Numerical analysis of FeSi2 based solar cell with PEDOT: PSS hole transport layer
Recently, most of the researchers are showing their interest on Iron di-silicide (FeSi 2) based
solar cell because, it is an excellent and promising light absorbing material for solar cell …
solar cell because, it is an excellent and promising light absorbing material for solar cell …
A novel design and optimization of Si based high performance double absorber heterojunction solar cell
Researchers are currently focusing on Silicon (Si)-based solar cells due to their outstanding
semiconductor properties. This study aims to enhance the performance of a new Si based …
semiconductor properties. This study aims to enhance the performance of a new Si based …
Design and Simulation of FeSi2‐Based Novel Heterojunction Solar Cells for Harnessing Visible and Near‐Infrared Light
Herein, three novel third‐generation (3G) solar cells: n‐Si/p‐FeSi2/p+‐Si, n‐Si/p‐FeSi2/p+‐
BaSi2, and n‐CdS/p‐FeSi2/p+‐BaSi2 based on the orthorhombic iron disilicide (β‐FeSi2) …
BaSi2, and n‐CdS/p‐FeSi2/p+‐BaSi2 based on the orthorhombic iron disilicide (β‐FeSi2) …
Titanium doped cupric oxide for photovoltaic application
The potential of titanium (Ti) incorporation into cupric oxide (CuO) is demonstrated. The
optical, electrical, microstructural, material quality, chemical composition, surface …
optical, electrical, microstructural, material quality, chemical composition, surface …
Numerical simulation of a highly efficient perovskite solar cell based on FeSi2 photoactive layer
The primary aim of this work is to investigate the use iron di‐silicide (FeSi2) as a photoactive
layer in order to achieve superior performance in the solar cell architecture …
layer in order to achieve superior performance in the solar cell architecture …
Semiconducting beta-phase FeSi2 for light emitting diode applications: Recent developments, challenges, and solutions
DZ Chi - Thin Solid Films, 2013 - Elsevier
This critical review surveys β-FeSi2 research over the years with focus on reviewing recent
development in β-FeSi2-based light emitting diodes (LEDs). Based on theoretical analyses …
development in β-FeSi2-based light emitting diodes (LEDs). Based on theoretical analyses …
p‐CuO/n‐Si heterojunction solar cells with high open circuit voltage and photocurrent through interfacial engineering
Heterojunction solar cells of p‐type cupric oxide (CuO) and n‐type silicon (Si), p‐CuO/n‐Si,
have been fabricated using conventional sputter and rapid thermal annealing techniques …
have been fabricated using conventional sputter and rapid thermal annealing techniques …
Design and optimization of 26.3% efficient perovskite/FeSi2 monolithic tandem solar cell
A multijunction or tandem technique comprising a wide bandgap top cell and a narrow
bandgap bottom cell may be a major step** stone in an attempt to obtain high-efficiency …
bandgap bottom cell may be a major step** stone in an attempt to obtain high-efficiency …