Add to ORKGUltralight and ultrathin, flexible, rollup monolithic PV modules have been developed consisting of multijunction, amorphous silicon alloys for either terrestrial or aerospace applications. The rate of progress in increasing conversion efficiency of stable multijunction and multigap PV cells indicates that arrays of these modules can be available for NASA's high power systems in the 1990's. Because of the extremely light module weight and the highly automated process of manufacture, the monolithic a-Si alloy arrays are expected to be strongly competitive with other systems for use in NASA's space station or in other large aerospace applications
The present stature and current research directions of photovoltaic arrays as primary power systems ...
This report describes the research performed during Phase I of this three-phase, three-year program....
AstroPower has continued its development of an advanced thin-silicon-based photovoltaic module produ...
The development of the first commercial, ultralight, flexible, deployable, PV array for aerospace ap...
An ultralight, stowable and deployable photovoltaic (PV) array manufacturability of cells, modules a...
Requirements for space power are increasingly emphasizing lower costs and higher specific powers. Th...
Ultralight, flexible photovoltaic (PV) array of amorphous silicon (a-Si) was identified as a potenti...
Progress is reported with respect to the development of thin film amorphous (alpha-Si) terrestrial s...
Amorphous silicon modules are commercially available. They are the first truly commercial thin-film ...
In order to reduce the costs of thin-film silicon solar cell production, a manufacturing concept in ...
Solar cells on lightweight and flexible substrates have advantages over glass-or wafer-based photovo...
This report describes the research program intended to expand, enhance, and accelerate knowledge and...
In order to reduce the costs of thin-film silicon solar cell production, a manufacturing concept in ...
Space Industries has supported on-going internal development of a \u27\u27Nanosat\u27\u27 spacecraft...
Developments in thin-film amorphous and polycrystalline photovoltaic cells are reviewed and discusse...
The present stature and current research directions of photovoltaic arrays as primary power systems ...
This report describes the research performed during Phase I of this three-phase, three-year program....
AstroPower has continued its development of an advanced thin-silicon-based photovoltaic module produ...
The development of the first commercial, ultralight, flexible, deployable, PV array for aerospace ap...
An ultralight, stowable and deployable photovoltaic (PV) array manufacturability of cells, modules a...
Requirements for space power are increasingly emphasizing lower costs and higher specific powers. Th...
Ultralight, flexible photovoltaic (PV) array of amorphous silicon (a-Si) was identified as a potenti...
Progress is reported with respect to the development of thin film amorphous (alpha-Si) terrestrial s...
Amorphous silicon modules are commercially available. They are the first truly commercial thin-film ...
In order to reduce the costs of thin-film silicon solar cell production, a manufacturing concept in ...
Solar cells on lightweight and flexible substrates have advantages over glass-or wafer-based photovo...
This report describes the research program intended to expand, enhance, and accelerate knowledge and...
In order to reduce the costs of thin-film silicon solar cell production, a manufacturing concept in ...
Space Industries has supported on-going internal development of a \u27\u27Nanosat\u27\u27 spacecraft...
Developments in thin-film amorphous and polycrystalline photovoltaic cells are reviewed and discusse...
The present stature and current research directions of photovoltaic arrays as primary power systems ...
This report describes the research performed during Phase I of this three-phase, three-year program....
AstroPower has continued its development of an advanced thin-silicon-based photovoltaic module produ...