Experimental studies on solar multi-effect sea water desalination system
M Annamalai, T Kannappan - Solar Energy, 2023 - Elsevier
A multi-effect desalination (MED) system with a capacity of 10 m 3 has been designed,
fabricated, erected and experimented to convert sea water into potable water using solar …
fabricated, erected and experimented to convert sea water into potable water using solar …
Metal-assisted chemical etching beyond Si: applications to III–V compounds and wide-bandgap semiconductors
Metal-assisted chemical etching (MacEtch) has emerged as a versatile technique for
fabricating a variety of semiconductor nanostructures. Since early investigations in 2000 …
fabricating a variety of semiconductor nanostructures. Since early investigations in 2000 …
Suppressed narrowband reflectance of nanopatterned silicon photovoltaic cells
The increasing demand for efficient yet nonpolluting energy conversion technologies require
the photovoltaic (PV) systems to have fine-tuned optical responses and suppressed …
the photovoltaic (PV) systems to have fine-tuned optical responses and suppressed …
Diverse Texturing Characteristics Through Metal-Assisted Plasma Etching with Silver Nanowires
DG Lee, HS Ryu, MJ Jin, DS Um, CI Kim - Plasma Chemistry and Plasma …, 2024 - Springer
The process of texturing silicon surfaces is critical for enhancing the performance of
complementary metal–oxide–semiconductor image sensors that utilize silicon-based …
complementary metal–oxide–semiconductor image sensors that utilize silicon-based …
RF sputtered metal oxide layers as ARCs to improve photovoltaic performance of commercial monocrystalline solar cell
Abstract The rf-sputtered ZnO, MgO and Al 2 O 3 transition metal oxide nano layers were
developed as efficient antireflection coatings (ARCs) on commercial monocrystalline silicon …
developed as efficient antireflection coatings (ARCs) on commercial monocrystalline silicon …
Parametric study of design factors on the performance of flexible solar modules
Solar cells have traditionally been built on rigid substrates. However, a lot of research is
currently going on to improve the design and performance of solar cells built on flexible …
currently going on to improve the design and performance of solar cells built on flexible …
Innovative temperature-based texturization process for reducing reflectivity in boron-doped as-cut multi-crystalline silicon wafers
M Raji, K Thamodharan, S Manikkam… - Journal of Materials …, 2024 - Springer
This research paper presents a comprehensive investigation into the reflectivity reduction of
multi-crystalline silicon wafers through the application of two distinct etching conditions …
multi-crystalline silicon wafers through the application of two distinct etching conditions …
Integration of silicon nanostructures for health and energy applications using MACE: a cost-effective process
Silicon in its nanoscale range offers versatile scope in biomedical, photovoltaic and solar
cell applications. Due to its compatibility in integration with complex molecules owing to …
cell applications. Due to its compatibility in integration with complex molecules owing to …
Plasmonic effect of gold nanoparticles on rear side of flexible black silicon wafer fabricated by aluminum-assisted chemical etching
In this work, we investigate the effects of the different sizes of gold (Au) plasmonic
nanoparticles (NPs) on the rear surface of flexible black silicon (b-Si) wafer. The flexible b-Si …
nanoparticles (NPs) on the rear surface of flexible black silicon (b-Si) wafer. The flexible b-Si …
Exploring mc‐Silicon Wafers: Utilizing Machine Learning to Enhance Wafer Quality Through Etching Studies
M Raji, S Balakrishnapillai Suseela… - Crystal Research …, 2024 - Wiley Online Library
This paper provides a method for improving the photovoltaic conversion efficiency and
optical attributes of silicon solar cells manufactured from as‐cut boron doped p‐type multi …
optical attributes of silicon solar cells manufactured from as‐cut boron doped p‐type multi …