Add to ORKGLarge-scale energy demands will require low-cost, earth-abundant materials for high efficiency solar energy conversion. Here we present ZnSn_xGe_(1−x)N_2 as a tunable band gap photovoltaic absorber layer with a predicted range of 1.4 eV to 2.9 eV. Thin films of ZnSn_xGe_(1−x)N_2 are synthesized by reactive RF co-sputtering with a wide range of compositions. X-ray diffraction shows a linear shift in lattice parameter with changing composition, indicating no phase separation. These results suggest that ZnSn_xGe_(1−x)N_2 can potentially be tuned to span a large portion of the solar spectrum and could therefore be a viable earth-abundant photovoltaic material
A facile sol–gel and selenization process has been demonstrated to fabricate high-quality single-pha...
ZnSn_xGe_(1−x)N_2 alloys are chemically miscible semiconductor compounds with potential application ...
Direct bandgap, earth abundant semiconductors with Eg around 1.5 eV are essential for both photovol...
Abstract — Large-scale energy demands will require low-cost, earth-abundant materials for high effi...
The II-IV-nitrides are an alloy series analogous to the well-characterized III-nitrides, where a Gr...
We report on the fabrication and structural and optoelectronic characterization of II-IV-nitride ZnS...
ZnSnN_2, a new earth-abundant semiconductor, is synthesized and characterized for use as a photovolt...
In order to cater to modern day photovoltaic and solar needs, semiconductor materials which are eart...
We report on the fabrication and structural and optoelectronic characterization of II-IV-nitride ZnS...
By literature reports, ZnSnN2 has been pointed out as a potential high bandgap semiconductor materia...
Zinc tin nitride (ZnSnN2) is a promising semiconductor candidate for solar cell applications and opt...
International audienceThe nitrides of elements III such as AlxGayIn1-x-yN have been widely studied f...
International audienceZinc tin nitride (ZnSnN2) is a promising semiconductor candidate for solar cel...
Zinc tin nitride (ZnSnN2) thin films have been deposited by reactive magnetron co-sputtering at room...
This investigation is motivated by the need for new visible frequency direct bandgap semiconductor m...
A facile sol–gel and selenization process has been demonstrated to fabricate high-quality single-pha...
ZnSn_xGe_(1−x)N_2 alloys are chemically miscible semiconductor compounds with potential application ...
Direct bandgap, earth abundant semiconductors with Eg around 1.5 eV are essential for both photovol...
Abstract — Large-scale energy demands will require low-cost, earth-abundant materials for high effi...
The II-IV-nitrides are an alloy series analogous to the well-characterized III-nitrides, where a Gr...
We report on the fabrication and structural and optoelectronic characterization of II-IV-nitride ZnS...
ZnSnN_2, a new earth-abundant semiconductor, is synthesized and characterized for use as a photovolt...
In order to cater to modern day photovoltaic and solar needs, semiconductor materials which are eart...
We report on the fabrication and structural and optoelectronic characterization of II-IV-nitride ZnS...
By literature reports, ZnSnN2 has been pointed out as a potential high bandgap semiconductor materia...
Zinc tin nitride (ZnSnN2) is a promising semiconductor candidate for solar cell applications and opt...
International audienceThe nitrides of elements III such as AlxGayIn1-x-yN have been widely studied f...
International audienceZinc tin nitride (ZnSnN2) is a promising semiconductor candidate for solar cel...
Zinc tin nitride (ZnSnN2) thin films have been deposited by reactive magnetron co-sputtering at room...
This investigation is motivated by the need for new visible frequency direct bandgap semiconductor m...
A facile sol–gel and selenization process has been demonstrated to fabricate high-quality single-pha...
ZnSn_xGe_(1−x)N_2 alloys are chemically miscible semiconductor compounds with potential application ...
Direct bandgap, earth abundant semiconductors with Eg around 1.5 eV are essential for both photovol...