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Double-heterojunction crystalline silicon solar cell fabricated at 250 $^i̧rc$C with 12.9% efficiency
S. Avasthi
,
K. A. Nagamatsu
,
J. Jhaveri
,
W. E. McClain
,
G. Man
,
A. Kahn
,
J. Schwartz
,
S. Wagner
,
J. C. Sturm
Jun 1, 2014
Cite
DOI
Type
Conference Proceedings
Publication
2014 IEEE 40th Photovoltaic Specialist Conference (PVSC)
Date
June, 2014
MOCVD;elemental semiconductors;photoconductivity;photoemission;silicon;solar cells;spin coating;titanium compounds;Si;TiO2;back surface field;double-heterojunction crystalline solar cells;efficiency 12.9 percent;electron photocurrent;front surface field;hole photocurrent;metal-organic chemical vapor deposition;metal-oxide heterojunctions;organic heterojunctions;photogenerated carriers;spin-coating organic PEDOT:PSS;temperature 250 degC;Coatings;Epitaxial growth;Extraterrestrial measurements;Heterojunctions;Periodic structures;Polymers;Silicon;Heterojunction;Hybrid;Metal-oxide;Organic;PEDOT:PSS;Photovoltaics;Silicon;Solar;Titanium dioxide
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Titanium dioxide/silicon hole-blocking selective contact to enable double-heterojunction crystalline silicon-based solar cell
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Stable low-recombination n-Si/TiO2 hole-blocking interface and its effect on silicon heterojunction photovoltaics
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