Add to ORKGMost photovoltaic absorbers are identified using the standard Shockley-Queisser selection principle which relies on optimal band-gap values. However, this criterion has been shown to be insufficient, as many materials with appropriate values still perform badly. Here, we have employed calculations based on the density functional theory to assess three copper oxides as potential photovoltaic materials: Cu2O, Cu4O3, and CuO. Despite their promising theoretical solar power conversion efficiency of over 20%, experimental values are found to be far lower. Theoretical evaluation of the electronic and optical properties reveals that certain transitions within the band structures are dipole forbidden, whereas the fundamental band gaps of Cu4O3 and ...
Cu2SrSnS4 (CSTS) is a promising alternative candidate to Cu2ZnSnS4 (CZTS) for single- or multi-junct...
Copper (I) oxide (Cu20) has enormous potential for photovoltaic applications. Cu20 is a p-type semic...
Using first principles total energy calculations we have studied the electronic properties of bulk C...
Most photovoltaic absorbers are identified using the standard Shockley-Queisser selection principle ...
Photovoltaic (PV) technology which makes use of the superabundant and freely available Sun’s energy...
Cu2O is a widely known p-type semiconductor with a band-gap value suitable for photovoltaic applicat...
CuO (cupric oxide) is a well-known p-type semiconductor, suitable for solar cell photovoltaic applic...
CuO (cupric oxide) is a well-known p-type semiconductor, suitable for solar cell photovoltaic applic...
Fabrication of both p-type and n-type cupric oxide is of great importance for the large-scale photov...
Due to low cost and suitable band gap value, cupric oxide (CuO) is of great interest for large-scale...
The electronic properties and the low environmental impact of Cu 3 BiS 3 make this compound a promis...
A theoretical study of the electronic structure and optical response of three copper oxides (Cu2O, C...
The world’s energy demand is increasing and the conversion of existing energy sources to renewable a...
Heterojunction Cu2O solar cells are an important class of earth-abundant photovoltaics that can be s...
In this work, thin films of copper oxide (CuO) have been prepared using spraypyrols is technique. Th...
Cu2SrSnS4 (CSTS) is a promising alternative candidate to Cu2ZnSnS4 (CZTS) for single- or multi-junct...
Copper (I) oxide (Cu20) has enormous potential for photovoltaic applications. Cu20 is a p-type semic...
Using first principles total energy calculations we have studied the electronic properties of bulk C...
Most photovoltaic absorbers are identified using the standard Shockley-Queisser selection principle ...
Photovoltaic (PV) technology which makes use of the superabundant and freely available Sun’s energy...
Cu2O is a widely known p-type semiconductor with a band-gap value suitable for photovoltaic applicat...
CuO (cupric oxide) is a well-known p-type semiconductor, suitable for solar cell photovoltaic applic...
CuO (cupric oxide) is a well-known p-type semiconductor, suitable for solar cell photovoltaic applic...
Fabrication of both p-type and n-type cupric oxide is of great importance for the large-scale photov...
Due to low cost and suitable band gap value, cupric oxide (CuO) is of great interest for large-scale...
The electronic properties and the low environmental impact of Cu 3 BiS 3 make this compound a promis...
A theoretical study of the electronic structure and optical response of three copper oxides (Cu2O, C...
The world’s energy demand is increasing and the conversion of existing energy sources to renewable a...
Heterojunction Cu2O solar cells are an important class of earth-abundant photovoltaics that can be s...
In this work, thin films of copper oxide (CuO) have been prepared using spraypyrols is technique. Th...
Cu2SrSnS4 (CSTS) is a promising alternative candidate to Cu2ZnSnS4 (CZTS) for single- or multi-junct...
Copper (I) oxide (Cu20) has enormous potential for photovoltaic applications. Cu20 is a p-type semic...
Using first principles total energy calculations we have studied the electronic properties of bulk C...