Add to ORKGThe objectives were to perform surface characterization of high efficiency n+/p and p+/n silicon cells, to relate surface density to substrate dopant concentration, and to identify dominant current loss mechanisms in high efficiency cells. The approach was to measure density of states on homogeneously doped substrates with high frequency C-V and Al/SiN sub x/Si structures; to investigate density of states and photoresponse of high efficiency N+/P and P+/N cells; and to conduct I-V-T studies to identify current loss nechanisms in high efficiency cells. Results are given in tables and graphs
Measurement of minority transport parameters in heavily doped silicon is covered. The basic transpor...
Microstructural and electrical evaluation tests were performed on nickel-doped p-type silicon wafers...
Significant improvements in open-circuit voltage and conversion efficiency, even on relatively high ...
Fabrication and characterization of high-efficiency metal insulator, n-p (MINP) cells is described. ...
High-efficiency dendritic cells were discussed. The influence of twin planes and heat treatment on t...
Work in identifying, developing, and analyzing techniques for measuring bulk recombination rates, an...
As solar cells become ever cheaper to make, cos ts not directly related to the solar cell man ufactu...
Carrier transport and recombination parameters in heavily doped silicon were examined. Data were pre...
The goal of this thesis is to improve the efficiency of silicon solar cells such that the cost/watt ...
The study of silicon sheet material requirements for high efficiency solar cells is reported. Resear...
The construction of a 22.2% efficient single-crystal silicon solar cell fabricated at Stanford Unive...
Progress reports on research in high-efficiency silicon solar cells were presented by eight contract...
High-efficiency solar-cell activities supporting efforts to achieve the DOE Five-Year Plan goals are...
Silicon heterojunction (Si- HET) solar cells are based on an n-doped (p-doped) crystalline silicon (...
The photovoltaic industry is mainly dominated by crystalline silicon (c-Si) solar cells, in which co...
Measurement of minority transport parameters in heavily doped silicon is covered. The basic transpor...
Microstructural and electrical evaluation tests were performed on nickel-doped p-type silicon wafers...
Significant improvements in open-circuit voltage and conversion efficiency, even on relatively high ...
Fabrication and characterization of high-efficiency metal insulator, n-p (MINP) cells is described. ...
High-efficiency dendritic cells were discussed. The influence of twin planes and heat treatment on t...
Work in identifying, developing, and analyzing techniques for measuring bulk recombination rates, an...
As solar cells become ever cheaper to make, cos ts not directly related to the solar cell man ufactu...
Carrier transport and recombination parameters in heavily doped silicon were examined. Data were pre...
The goal of this thesis is to improve the efficiency of silicon solar cells such that the cost/watt ...
The study of silicon sheet material requirements for high efficiency solar cells is reported. Resear...
The construction of a 22.2% efficient single-crystal silicon solar cell fabricated at Stanford Unive...
Progress reports on research in high-efficiency silicon solar cells were presented by eight contract...
High-efficiency solar-cell activities supporting efforts to achieve the DOE Five-Year Plan goals are...
Silicon heterojunction (Si- HET) solar cells are based on an n-doped (p-doped) crystalline silicon (...
The photovoltaic industry is mainly dominated by crystalline silicon (c-Si) solar cells, in which co...
Measurement of minority transport parameters in heavily doped silicon is covered. The basic transpor...
Microstructural and electrical evaluation tests were performed on nickel-doped p-type silicon wafers...
Significant improvements in open-circuit voltage and conversion efficiency, even on relatively high ...