Add to ORKGIndium phosphide solar cells with very thin n-type emitters have been made by both ion implantation and metalorganic chemical vapor deposition. Air mass zero efficiencies as high as 18.8 percent (NASA measurement) have been achieved. Although calculations show that, as is the case with GaAs, a heterostructure is expected to be required for the highest efficiencies attainable, the material properties of InP give the shallow-homojunction structure a greater potential than in the case of GaAs. The best cells, which were those made by ion implantation, show open-circuit voltage (V sub oc) of 873 mV, short-circuit current of 357 A/sq m (35.7 mA/sq cm), and fill factor of 0.829. Improvements are anticipated in all three of these parameters. Inter...
Single-crystal GaAs shallow-homojunction solar cells on GaAs or Ge substrates, without Ga sub 1-x Al...
The radiation resistance of ITO/InP cells processed by DC magnetron sputtering is compared to that o...
Solar cells made from gallium arsenide (GaAs), with a room temperature bandgap of E(sub g) = 1.43 eV...
Their excellent radiation resistance and conversion efficiencies greater than 20 percent, measured u...
The design, fabrication, and characterization of high-performance, n(+)/p InP shallow-homojunction (...
The commercial application of Indium Phosphide solar cells in practical space missions is crucially ...
Metallorganic chemical-vapor-deposited heteroepitaxial indium phosphide (InP) solar cell experimenta...
We report on the development and performance of deep-junction (approximately 0.25 micron), graded-em...
P/N InP homojunction solar cells have been prepared by using both liquid phase epitaxy (LPE) and met...
Recently, we have succeeded in fabricating diffused junction p(sup +)n(Cd,S) InP solar cells with me...
Progress, dating from the start of the Lewis program, is reviewed emphasizing processing techniques ...
The characteristics of InP cells processed from thin layers of InP heteroepitaxially grown on GaAs, ...
Excellent radiation resistance of indium phosphide solar cells makes them a promising candidate for ...
A first principles pn junction device model has predicted new designs for high voltage, high efficie...
This talk outlines a simple process for the fabrication of n(+)-p solar cells in indium phosphide. L...
Single-crystal GaAs shallow-homojunction solar cells on GaAs or Ge substrates, without Ga sub 1-x Al...
The radiation resistance of ITO/InP cells processed by DC magnetron sputtering is compared to that o...
Solar cells made from gallium arsenide (GaAs), with a room temperature bandgap of E(sub g) = 1.43 eV...
Their excellent radiation resistance and conversion efficiencies greater than 20 percent, measured u...
The design, fabrication, and characterization of high-performance, n(+)/p InP shallow-homojunction (...
The commercial application of Indium Phosphide solar cells in practical space missions is crucially ...
Metallorganic chemical-vapor-deposited heteroepitaxial indium phosphide (InP) solar cell experimenta...
We report on the development and performance of deep-junction (approximately 0.25 micron), graded-em...
P/N InP homojunction solar cells have been prepared by using both liquid phase epitaxy (LPE) and met...
Recently, we have succeeded in fabricating diffused junction p(sup +)n(Cd,S) InP solar cells with me...
Progress, dating from the start of the Lewis program, is reviewed emphasizing processing techniques ...
The characteristics of InP cells processed from thin layers of InP heteroepitaxially grown on GaAs, ...
Excellent radiation resistance of indium phosphide solar cells makes them a promising candidate for ...
A first principles pn junction device model has predicted new designs for high voltage, high efficie...
This talk outlines a simple process for the fabrication of n(+)-p solar cells in indium phosphide. L...
Single-crystal GaAs shallow-homojunction solar cells on GaAs or Ge substrates, without Ga sub 1-x Al...
The radiation resistance of ITO/InP cells processed by DC magnetron sputtering is compared to that o...
Solar cells made from gallium arsenide (GaAs), with a room temperature bandgap of E(sub g) = 1.43 eV...