For decades, solar-cell efficiencies have remained below the thermodynamic limits. However, new approaches to light management that systematically minimize thermodynamic losses will enable ultrahigh efficiencies previously considered impossible
A detailed balance solar energy conversion model offering a single treatment of both photovoltaic an...
AbstractIn this review, we present and discussed the main trends in photovoltaics (PV) with emphasiz...
In 1982, Yablonovitch proposed a thermodynamic limit on light trapping within homogeneous semiconduc...
To date, solar-cell efficiencies have remained well below the thermodynamic limits. However new nano...
Advances in photovoltaics moved the advanced research frontiers towards concepts that can enable ult...
A critical goal for photovoltaic energy conversion is the development of high efficiency, low cost p...
Despite their great promise, small experimental thermophotovoltaic (TPV) systems at 1000 K generally...
The solar cells can be broadly classified into two groups: (i) high performance (but relatively expe...
Photonic innovation is becoming ever more important in the modern world. Optical systems are domina...
The sun has the potential to power the Earth's total energy needs, but electricity from solar power ...
Solar cell efficiency, currently hovering in the 15 to 20 percent range, can theoretically be booste...
This paper considers a range of techniques which – within the realm of classical optics – can be use...
ABSTRACT: A major goal of the PV industry is to develop high-efficiency, low-cost solar cells and de...
Solar energy has gained more attention in recent years due to increased concerns about the continued...
The daily Sun supplies the continents of the Earth with four times more energy than humanity consume...
A detailed balance solar energy conversion model offering a single treatment of both photovoltaic an...
AbstractIn this review, we present and discussed the main trends in photovoltaics (PV) with emphasiz...
In 1982, Yablonovitch proposed a thermodynamic limit on light trapping within homogeneous semiconduc...
To date, solar-cell efficiencies have remained well below the thermodynamic limits. However new nano...
Advances in photovoltaics moved the advanced research frontiers towards concepts that can enable ult...
A critical goal for photovoltaic energy conversion is the development of high efficiency, low cost p...
Despite their great promise, small experimental thermophotovoltaic (TPV) systems at 1000 K generally...
The solar cells can be broadly classified into two groups: (i) high performance (but relatively expe...
Photonic innovation is becoming ever more important in the modern world. Optical systems are domina...
The sun has the potential to power the Earth's total energy needs, but electricity from solar power ...
Solar cell efficiency, currently hovering in the 15 to 20 percent range, can theoretically be booste...
This paper considers a range of techniques which – within the realm of classical optics – can be use...
ABSTRACT: A major goal of the PV industry is to develop high-efficiency, low-cost solar cells and de...
Solar energy has gained more attention in recent years due to increased concerns about the continued...
The daily Sun supplies the continents of the Earth with four times more energy than humanity consume...
A detailed balance solar energy conversion model offering a single treatment of both photovoltaic an...
AbstractIn this review, we present and discussed the main trends in photovoltaics (PV) with emphasiz...
In 1982, Yablonovitch proposed a thermodynamic limit on light trapping within homogeneous semiconduc...
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