The use of nanowires is intriguing because of the possibilities to improve photovoltaic performances by providing more light absorption area, broadening the photon collection spectrum (by using an optimizing mix of nanowire compositions), improving ant reflectivity and decreasing active materials and processing costs. In a step toward less expensive and more efficient solar cells, a new device has been introduced that conduct electrons from one end of the cell to the other about 100 times more efficiently than other nanoparticle-based solar cells currently under development. The new device consists of billions of nanowires, each about 60 nanometers in diameter and 20 micrometers in length and coated with a light-absorbing dye
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
Present day nanowire solar cells have reached an efficiency of 17.8%. Nanophotonic engineering by na...
Present day nanowire solar cells have reached an efficiency of 17.8%. Nanophotonic engineering by na...
The solar power received by Earth far exceeds global power demands. Despite this, infrastructure sho...
Semiconductor nanowires are a class of materials recently gaining increasing interest for solar cell...
We investigate microlenses that selectively focus the light on only a small fraction of all nanowire...
Solar energy harvesting for electricity production is regarded as a fully credible future energy sou...
Oxide nanowire arrays were studied for their applications to solar cells. It was demonstrated that t...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
Light management is of great importance in photovoltaic cells, as it determines the fraction of inci...
A nanowire solar cell can fundamentally outperform its planar counterpart due to efficient light out...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
Present day nanowire solar cells have reached an efficiency of 17.8%. Nanophotonic engineering by na...
Present day nanowire solar cells have reached an efficiency of 17.8%. Nanophotonic engineering by na...
The solar power received by Earth far exceeds global power demands. Despite this, infrastructure sho...
Semiconductor nanowires are a class of materials recently gaining increasing interest for solar cell...
We investigate microlenses that selectively focus the light on only a small fraction of all nanowire...
Solar energy harvesting for electricity production is regarded as a fully credible future energy sou...
Oxide nanowire arrays were studied for their applications to solar cells. It was demonstrated that t...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
Light management is of great importance in photovoltaic cells, as it determines the fraction of inci...
A nanowire solar cell can fundamentally outperform its planar counterpart due to efficient light out...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
III-V semiconductor nanowires behave as optical antennae because of their shape anisotropy and high ...
Present day nanowire solar cells have reached an efficiency of 17.8%. Nanophotonic engineering by na...
Present day nanowire solar cells have reached an efficiency of 17.8%. Nanophotonic engineering by na...