energyNP.com  
Tel
98510-91900 
Email
energyNP@hotmail.com 
Menu

 
 
News  
Back to energy news list >>>
 

 
 
 Air Conditioner
 Battery
 Booster Pump
 Charger
 Cold Storage Room
 Electric Power Tools
 Electric Water Heater
 Garbage Disposal
 Station
 Generator
 Heat Pump
 Inverter
 Power Supply
 Rectifiers
 Self Priming Pump
 Solar Energy
 Solar Water Heater
 Transformer
 UPS
 Voltage Stabilizer
 Wind Energy
 
  A Strategy To Boost The Efficiency Of Solar Cells Based On Thin-film Bifacial Cu(In,Ga)Se2

To tackle global warming, engineers have been trying to develop increasingly advanced technologies that can generate and store electrical energy more sustainably. The most renowned among these technologies are solar cells, devices based on photovoltaic materials that can convert solar radiation into electricity.

One material that has recently attracted considerable attention for the development of solar cells is the absorber bifacial Cu(In,Ga)Se2, also referred to as CIGS. This material could be particularly promising for the creation of thin-film photovoltaics, due to its notable thermo-chemical stability.

Despite their advantages, CIGS-based solar cells often exhibit unsatisfactory power conversion efficiencies, particularly when tested outside laboratory settings. This greatly hinders their potential, preventing them from being produced and implemented on a large-scale.

Researchers at the Swiss Federal Laboratories for Materials Science and Technology, National Tsing Hua University and University of Cantabria have recently devised a strategy that could help to boost the power conversion efficiencies of CIGS thin-film solar cells.

This strategy, introduced in a paper published in Nature Energy, entails the use of a silver-assisted low-temperature process to prevent the formation of GaOx at the interface between the CIGS layer and a transparent-conducting-oxide, which is known to impair the cells' performance.

"We prevented the formation of GaOx by silver-promoted low-temperature growth of the CIGS layer," Shih-Chi Yang and his colleagues wrote in their paper. "This process also led to an improvement in the absorber quality, a steep Ga gradient near the back interface and reduced the absorption of the transparent conducting oxide."

Essentially, the researchers added a small amount of silver (4–5% AAC) to the CIGS absorbers, using a low-temperature deposition process. This process prevents the formation of GaOx at the CIGS/ITO interface, resolving issues typically observed in CIGS-based solar cells.

To demonstrate the potential of this silver-assisted low-temperature process, the researchers used it to create a series of cells, and then assessed their performance in an experimental setting. These initial tests yielded very promising results, as their strategy appeared to enable notably high power conversion efficiencies, which were overall greater than those of the other previously developed CIGS cells that they were compared to.

"We also report a certified bifacial solar cell on a glass substrate with efficiencies of 19.77% and 10.89% under front and rear illumination, respectively," Yang and his colleagues wrote in their paper. "We also fabricated bifacial solar cells directly on flexible substrates. Finally, we prepared bifacial perovskite/CIGS tandem solar cells in a four-terminal configuration, achieving a power generation density of 28.0 mW cm-2 under 1 sun and 30% albedo illumination."

In the future, the new strategy devised by this team of researchers could pave the way towards the commercialization and widespread deployment of CIGS solar cells. In addition, their work could inspire other teams to develop similar approaches for improving the performance of thin-film photovoltaics.

[22 December, 2022 / world-energy.org ]   
 
 
Voltage Stabilizer Nepal Kathmandu
 
UPS Nepal Kathmandu
 
Lithium iron battery LiFePO4 Battery Nepal Kathmandu
 
Inverter Hybrid On-grid Off-Grid Energy Storage Solar Inverter Nepal Kathmandu
 
Solar Water Heater Nepal Kathmandu
 
GREE Air Conditioner Residential Nepal Kathmandu
 
Solar Water Heater Nepal Kathmandu
 
Gree Air Purifier Kills Novel Coronavirus Nepal Kathmandu
 
Battery Charger Nepal Kathmandu
 
Complete Power Solution
 
 
 
 
Solar Water Heater Nepal Kathmandu Solar Energy Nepal Kathmandu Wind Power Nepal Kathmandu Power Generator Nepal Kathmandu Voltage Stabilizer Nepal Kathmandu Transformer Nepal Kathmandu AirConditioner Nepal Kathmandu Battery Nepal Kathmandu UPS System Nepal Kathmandu Rectifier Nepal Kathmandu
 
 
Link: The Official Portal of Goverment of Nepal Nepal Electricity Authority Nepal Alternative Energy Promotion Centre Nepal Telecom Nepal Department of Agriculture Nepal Department of Industry wow Nepal! Nepal Global Buying SIMONES Industries|Nepal Power Solution
  Nepal Goverment Nepal Electricity Authority Nepal Alternative Energy Promotion Centre Nepal Telecom Nepal Department of Agriculture Nepal Department of Industry wow-Nepal | Nepal Global Buying SIMONES Industries |Nepal Power Solution
 
Fair: Investment Summit Nepal Himalayan Hydro Expo Nepal Kathmandu China International Import Expo China Import and Export Fair China-South Asia Exposition Guangzhou Int’l Refrigeration, Air-Condition, Ventilation, Air-Improving Equipment Exhibition Guangzhou International Solar Photovoltaic Exhibition Asia Battery Sourcing Fair
  Investment Summit Nepal Himalayan Hydro Expo Nepal China International Import Expo China Import and Export Fair China-South Asia Exposition Int'l Refrigeration, Air-Condition Fair Int'l Solar Photovoltaic Exhibition Asia Battery Sourcing Fair
 
Copyright @ 2014 All right reserved. Simones Industries