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Recently, a research team from the Department of Electrical and Computer Engineering at the University of Maryland has developed a new nanoscale solar cell with an energy conversion rate of 42%, which is 40%
higher than the current photovoltaic solar cells.
The typical solar conversion efficiency limit, the so-called Shockley-Queisser Limit, has always been the bottleneck of solar cell efficiency, the current traditional photovoltaic sensitive material conversion rate limit is usually about 33%, the application of nanowire materials may increase this conversion efficiency limit by several percent, through nanowires made of a single nanoscale solar cell
.
It has a significant impact
on the development of solar cells, the use of nanowire-based solar energy, and global energy development.
The improvement in conversion efficiency is secondary, nanoscale solar cells can allow cells to be made smaller, and the efficiency of solar panels by combining these nanoscale materials will far exceed that of traditional photovoltaic materials
.
Recently, a research team from the Department of Electrical and Computer Engineering at the University of Maryland has developed a new nanoscale solar cell with an energy conversion rate of 42%, which is 40%
higher than the current photovoltaic solar cells.
The typical solar conversion efficiency limit, the so-called Shockley-Queisser Limit, has always been the bottleneck of solar cell efficiency, the current traditional photovoltaic sensitive material conversion rate limit is usually about 33%, the application of nanowire materials may increase this conversion efficiency limit by several percent, through nanowires made of a single nanoscale solar cell
.
It has a significant impact
on the development of solar cells, the use of nanowire-based solar energy, and global energy development.
The improvement in conversion efficiency is secondary, nanoscale solar cells can allow cells to be made smaller, and the efficiency of solar panels by combining these nanoscale materials will far exceed that of traditional photovoltaic materials
.
