One of the most promising among hole-conducting materials, CuSCN, was prepared for the first time in a form of porous layers for potential applications in inverted perovskite solar cells
Although inorganic hole-transport materials usually possess high chemical stability, hole mobility, ...
The first results chapter of this thesis reports the development of a novel Ni passivated Cu grid el...
The solar energy is one of the most studied alternatives of clean and renewable energy source worldw...
The feasibility of co-depositing a hole-conductor and a perovskite layer is demonstrated to simplify...
Abstract We report the findings of a study into the suitability of copper (I) thiocyanate (CuSCN) as...
We report stable perovskite solar cells having 3D/2D perovskite absorber layers and CuSCN as an inor...
A comparative study is reported for electrodeposited copper(I) thiocyanate layers (ca. 500 nm) on tw...
Li-doped CuSCN films of various compositions were applied as hole-transporting material (HTM) for me...
CuSCN thin films (optimized previously for perovskite photovoltaics) are deposited on glass, F:SnO2 ...
Interfacial degradation in perovskite solar cells is a critical issue affecting long-term stability ...
The low-cost and stable inorganic p-type semiconductor copper(i) iodide (CuI) is a promising hole-tr...
Copper(I) Thiocyanate (CuSCN) is an inorganic hole transporting layer (HTL) used in perovskite solar...
Application of a low-cost and efficient p-type inorganic hole-transporting material, copper thiocyan...
P-type wide bandgap semiconductor materials such as CuI, NiO, Cu2O and CuSCN are currently undergoin...
Sb2S3 is an emerging inorganic photovoltaic absorber material with attractive properties such as hig...
Although inorganic hole-transport materials usually possess high chemical stability, hole mobility, ...
The first results chapter of this thesis reports the development of a novel Ni passivated Cu grid el...
The solar energy is one of the most studied alternatives of clean and renewable energy source worldw...
The feasibility of co-depositing a hole-conductor and a perovskite layer is demonstrated to simplify...
Abstract We report the findings of a study into the suitability of copper (I) thiocyanate (CuSCN) as...
We report stable perovskite solar cells having 3D/2D perovskite absorber layers and CuSCN as an inor...
A comparative study is reported for electrodeposited copper(I) thiocyanate layers (ca. 500 nm) on tw...
Li-doped CuSCN films of various compositions were applied as hole-transporting material (HTM) for me...
CuSCN thin films (optimized previously for perovskite photovoltaics) are deposited on glass, F:SnO2 ...
Interfacial degradation in perovskite solar cells is a critical issue affecting long-term stability ...
The low-cost and stable inorganic p-type semiconductor copper(i) iodide (CuI) is a promising hole-tr...
Copper(I) Thiocyanate (CuSCN) is an inorganic hole transporting layer (HTL) used in perovskite solar...
Application of a low-cost and efficient p-type inorganic hole-transporting material, copper thiocyan...
P-type wide bandgap semiconductor materials such as CuI, NiO, Cu2O and CuSCN are currently undergoin...
Sb2S3 is an emerging inorganic photovoltaic absorber material with attractive properties such as hig...
Although inorganic hole-transport materials usually possess high chemical stability, hole mobility, ...
The first results chapter of this thesis reports the development of a novel Ni passivated Cu grid el...
The solar energy is one of the most studied alternatives of clean and renewable energy source worldw...
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