Sr3Cu2Sc2O5S2, a layered oxysulfide, composed of anti-PbO-like [Cu2S2] slabs alternating with perovskitelike [Sr3Sc2O5] slabs, was systematically studied as a p-type transparent conducting material. The material has a wide energy gap of 3.1 eV and a p-type electrical conductivity of 2.8 S cm−1 at room temperature. The hole mobility of +150 cm2 V−1 S−1 at room temperature, which is much higher than the typical value of ~10−1–10 cm2 V−1 S−1 found in other copper compounds. The performances of bulk undoped Sr3Cu2Sc2O5S2 show the promise of copper oxysulfides as a class of p-type transparent conductive materials that is essential for optoelectronic applications
The development of high-performance transparent conducting oxides is critical to many technologies f...
Transparent conducting oxides (TCOs) as transparent electrodes in the form of thin film are used in ...
Transparent conducting oxides (TCOs) as transparent electrodes in the form of thin film are used in ...
Sr3Cu2Sc2O5S2, a layered oxysulfide, composed of anti-PbO-like [Cu2S2] slabs alternating with perovs...
Summary: n-type transparent conductors (TCs) are key materials in the modern optoelectronics industr...
The quinary layered oxychalcogenide, Sr3Sc2O5Cu2S2, was used as a prototype to investigate the effec...
n-Type transparent conductors (TCs) are key materials in the modern optoelectronics industry. Despit...
While p-type transparent conducting materials (TCMs) are crucial for many optoelectronic application...
Phosphides are interesting candidates for hole transport materials and p-type transparent conducting...
Phosphides are interesting candidates for hole transport materials and p type transparent conducting...
The paucity of high performance transparent p-type semiconductors has been a stumbling block for the...
Article appears in Applied Physics Letters (http://apl.aip.org/) and is copyrighted by American Inst...
The combination of optical transparency and metallic-like conductivity in a single material is unusu...
Transparent conducting oxides constitute a unique class of materials combining properties of electri...
Recently Cu-based transparent conducting delafossite compounds have been found to exhibit p-type con...
The development of high-performance transparent conducting oxides is critical to many technologies f...
Transparent conducting oxides (TCOs) as transparent electrodes in the form of thin film are used in ...
Transparent conducting oxides (TCOs) as transparent electrodes in the form of thin film are used in ...
Sr3Cu2Sc2O5S2, a layered oxysulfide, composed of anti-PbO-like [Cu2S2] slabs alternating with perovs...
Summary: n-type transparent conductors (TCs) are key materials in the modern optoelectronics industr...
The quinary layered oxychalcogenide, Sr3Sc2O5Cu2S2, was used as a prototype to investigate the effec...
n-Type transparent conductors (TCs) are key materials in the modern optoelectronics industry. Despit...
While p-type transparent conducting materials (TCMs) are crucial for many optoelectronic application...
Phosphides are interesting candidates for hole transport materials and p-type transparent conducting...
Phosphides are interesting candidates for hole transport materials and p type transparent conducting...
The paucity of high performance transparent p-type semiconductors has been a stumbling block for the...
Article appears in Applied Physics Letters (http://apl.aip.org/) and is copyrighted by American Inst...
The combination of optical transparency and metallic-like conductivity in a single material is unusu...
Transparent conducting oxides constitute a unique class of materials combining properties of electri...
Recently Cu-based transparent conducting delafossite compounds have been found to exhibit p-type con...
The development of high-performance transparent conducting oxides is critical to many technologies f...
Transparent conducting oxides (TCOs) as transparent electrodes in the form of thin film are used in ...
Transparent conducting oxides (TCOs) as transparent electrodes in the form of thin film are used in ...
Add to ORKG