Add to ORKGby Senter-Novem. Copyright © 2006 by Agnès Petit All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means without the prior written permission of the copyright owner. ISBN: 90-9020794-
Driven by the need for improvement of the economical competitiveness of photovoltaic energy, the fea...
We have applied pulse-shaped biasing to the expanding thermal plasma deposition of hydrogenated amor...
A review with 32 refs. is given on plasma deposition with an emphasis on surface processes. The plas...
A remote argon/hydrogen plasma is used to deposit amorphous hydrogenated silicon. The plasma is gene...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
The expanding thermal plasma (ETP) technique allows the deposition of hydrogenated amorphous silicon...
Fast (7 nm/s) deposition of amorphous hydrogenated silicon with a midgap density of states less than...
Thin film silicon solar cells are produced by using plasma deposition techniques. With this techniqu...
Summary form only given. A fast deposition method, utilizing a thermal plasma which expands into a v...
Using an expanding thermal plasma, hydrogenated amorphous silicon films with good optoelectronic pro...
This paper deals with the deposition of a-C:H and a-Si:H using the expanding thermal arc technique. ...
Two successful industrial implementations of the expanding thermal plasma setup, a novel plasma sour...
Amorphous hydrogenated silicon (a-Si:H) is a material which is widely used in the field of solar cel...
Driven by the need for improvement of the economical competitiveness of photovoltaic energy, the fea...
We have applied pulse-shaped biasing to the expanding thermal plasma deposition of hydrogenated amor...
A review with 32 refs. is given on plasma deposition with an emphasis on surface processes. The plas...
A remote argon/hydrogen plasma is used to deposit amorphous hydrogenated silicon. The plasma is gene...
In the expanding thermal plasma set-up of the Eindhoven University of Technology relatively high dep...
The expanding thermal plasma (ETP) technique allows the deposition of hydrogenated amorphous silicon...
Fast (7 nm/s) deposition of amorphous hydrogenated silicon with a midgap density of states less than...
Thin film silicon solar cells are produced by using plasma deposition techniques. With this techniqu...
Summary form only given. A fast deposition method, utilizing a thermal plasma which expands into a v...
Using an expanding thermal plasma, hydrogenated amorphous silicon films with good optoelectronic pro...
This paper deals with the deposition of a-C:H and a-Si:H using the expanding thermal arc technique. ...
Two successful industrial implementations of the expanding thermal plasma setup, a novel plasma sour...
Amorphous hydrogenated silicon (a-Si:H) is a material which is widely used in the field of solar cel...
Driven by the need for improvement of the economical competitiveness of photovoltaic energy, the fea...
We have applied pulse-shaped biasing to the expanding thermal plasma deposition of hydrogenated amor...
A review with 32 refs. is given on plasma deposition with an emphasis on surface processes. The plas...