Add to ORKGPurity requirements for solar cell grade silicon material was developed and defined by evaluating the effects of specific impurities and impurity levels on the performance of silicon solar cells. Also, data was generated forming the basis for cost-tradeoff analyses of silicon solar cell material. Growth, evaluation, solar cell fabrication and testing was completed for the baseline boron-doped Czochralski material. Measurements indicate Cn and Mn seriously degrade cell performance, while neither Ni nor Cu produce any serious reduction in cell efficiency
A flight experiment designed to demonstrate current cryogenic heat pipe technology was defined and e...
Significant accomplishments include development of a procedure to correct for the substantial differ...
Design work for a photovoltaic module, fabricated using single crystal silicon dendritic web sheet m...
Various aspects of a sensitivity analysis, in particular, the impact of variations in metal sheet re...
Restructuring research objectives from a technical readiness demonstration program to an investigati...
Progress from October 1, 1977, through December 31, 1977, is reported in the design of the 50 MT/yea...
The performance of two critical technology components required for a continuously rotatable heat pip...
Subsequent to the design review, a series of tests was conducted on simulated modules to demonstrate...
Four possible arrangements of the materials experiment carrier (MEC) and power system (PS) thermal c...
A melt level control system was implemented to provide stepless silicon feed rates from zero to rate...
The materials experiment carrier (MEC) is an optimized carrier for near term and advanced materials ...
Statistically significant quantitative structural imperfection measurements were made on samples fro...
Six scientific objectives/experiments were derived which consisted of agriculture/forestry/range res...
Potential designs for an integrated fluidized-bed reactor/zinc vaporizer/SiCl4 preheater unit are be...
Three batteries were operated in parallel from a common bus during charge and discharge. SMM utilize...
A flight experiment designed to demonstrate current cryogenic heat pipe technology was defined and e...
Significant accomplishments include development of a procedure to correct for the substantial differ...
Design work for a photovoltaic module, fabricated using single crystal silicon dendritic web sheet m...
Various aspects of a sensitivity analysis, in particular, the impact of variations in metal sheet re...
Restructuring research objectives from a technical readiness demonstration program to an investigati...
Progress from October 1, 1977, through December 31, 1977, is reported in the design of the 50 MT/yea...
The performance of two critical technology components required for a continuously rotatable heat pip...
Subsequent to the design review, a series of tests was conducted on simulated modules to demonstrate...
Four possible arrangements of the materials experiment carrier (MEC) and power system (PS) thermal c...
A melt level control system was implemented to provide stepless silicon feed rates from zero to rate...
The materials experiment carrier (MEC) is an optimized carrier for near term and advanced materials ...
Statistically significant quantitative structural imperfection measurements were made on samples fro...
Six scientific objectives/experiments were derived which consisted of agriculture/forestry/range res...
Potential designs for an integrated fluidized-bed reactor/zinc vaporizer/SiCl4 preheater unit are be...
Three batteries were operated in parallel from a common bus during charge and discharge. SMM utilize...
A flight experiment designed to demonstrate current cryogenic heat pipe technology was defined and e...
Significant accomplishments include development of a procedure to correct for the substantial differ...
Design work for a photovoltaic module, fabricated using single crystal silicon dendritic web sheet m...