Add to ORKGUsing an expanding thermal plasma, hydrogenated amorphous silicon films with good optoelectronic properties have been grown at high rates. The purpose of this work is to discuss the first implementations of the material grown at higher growth rates into p-i-n deposited solar cells. The set-up, that has been built to realize this, contains a radio-frequency plasma-enhanced chem. vapor deposition part for the doped n- and p-layers and a cascaded arc expanding thermal plasma to deposit the intrinsic layer at high deposition rates. The n- and p-layers turned out to be very good, however some problems are still obsd. for intrinsic layers obtained at temps. of .apprx.200 Deg. A solar cell with an initial efficiency of 5.3% of which the i-layer ha...
The properties of hydrogenated amorphous silicon (a-Si:H) deposited at very high growth rates (6–80 ...
The properties of hydrogenated amorphous silicon (a-Si:H) deposited at very high growth rates (6–80 ...
\u3cp\u3eWith a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
ABSTRACT: The present study aims at obtaining thin film amorphous silicon n-i-p solar cells with imp...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
Thin film silicon solar cells are produced by using plasma deposition techniques. With this techniqu...
The properties of hydrogenated amorphous silicon (a-Si:H) deposited at very high growth rates (6–80 ...
The properties of hydrogenated amorphous silicon (a-Si:H) deposited at very high growth rates (6–80 ...
\u3cp\u3eWith a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
ABSTRACT: The present study aims at obtaining thin film amorphous silicon n-i-p solar cells with imp...
With a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be deposite...
Thin film silicon solar cells are produced by using plasma deposition techniques. With this techniqu...
The properties of hydrogenated amorphous silicon (a-Si:H) deposited at very high growth rates (6–80 ...
The properties of hydrogenated amorphous silicon (a-Si:H) deposited at very high growth rates (6–80 ...
\u3cp\u3eWith a cascaded arc expanding thermal plasma intrinsic solar grade amorphous silicon can be...