Infrared analysis of the bulk silicon-hydrogen bonds as an optimization tool for high-rate deposition of microcrystalline solar cells

Atomistic modeling of structure and dynamics of sheared atactic polystyrene films

Hudzinskyy, D.

January 2012

Hydrogenated microcrystalline silicon (µc-Si:H) is a mixed-phase material consisting of crystalline ...

Probing the phase composition of silicon films in situ by etch product detection

Dingemans, G.
van den Donker, M.N.
Gordijn, A.
Kessels, W.M.M.
Sanden, van de, M.C.M.

January 2007

Exploiting the higher etch probability for amorphous silicon relative to crystalline silicon, the tr...

Infrared and temperature programmed desorption spectroscopy analysis of glow discharge hydrogenated amorphous silicon (a-Si:H) thin film

Santjojo, D.J. Djoko Herry

January 1995

Amorphous silicon technology offers an avenue for low-cost thin film photovoltaic applications. The ...

Infrared analysis of the bulk silicon-hydrogen bonds as an optimization tool for high-rate deposition of microcrystalline solar cells

Smets, A.H.M.
Matsui, T.
Kondo, M.

January 2008

It is demonstrated that the signature of bulk hydrogen stretching modes in the infrared of microcrys...

High-rate deposition of microcrystalline silicon p-i-n solar cells in the high pressure depletion regime

Smets, A.H.M.
Matsui, T.
Kondo, M.

January 2008

Hydrogenated microcryst. silicon films (micro c-Si:H) deposited at high deposition rates (.apprx.2 n...

The atomic hydrogen flux to silicon growth flux ratio during microcrystalline silicon solar cell deposition

Dingemans, G.
van den Donker, M.N.
Hrunski, D.
Gordijn, A.
Kessels, W.M.M.
Sanden, van de, M.C.M.

January 2008

The H flux to Si growth flux ratio is experimentally determined under state-of-the-art silicon thin-...

Concentration and penetration depth of H introduced into crystalline Si by hydrogenation methods used to fabricate solar cells

Kleekajai, Suppawan
Jiang, Fan
Stavola, Michael
Yelundur, Vijay
Nakayashiki, Kenta
Rohatgi, Ajeet
Hahn, Giso
Seren, Sven
Kalejs, Juris

January 2006

The hydrogenation of crystalline Si by methods used to passivate defects in Si solar cells has been ...

Infrared optical properties:Hydrogen bonding and stability

Melskens, Jimmy
Podraza, Nikolas J.
Stuckelberger, Michael E.

January 2021

FTIR spectroscopy is a versatile and non-destructive optical characterization method for many materi...

Highly efficient microcrystalline silicon solar cells deposited from a pure SiH4 flow

van den Donker, M.N.
Rech, B.
Finger, F.
Kessels, W.M.M.
Sanden, van de, M.C.M.

January 2005

A time-resolved optical emission spectroscopic study identified transient behavior of the excited Si...

The atomic hydrogen flux during microcrystalline silicon solar cell deposition

Sanden, van de, M.C.M.
Dingemans, G.
van den Donker, M.N.
Hrunski, D.
Gordijn, A.
Kessels, W.M.M.

January 2009

Etch product detection by in situ optical emission spectroscopy is used to detect the phase transiti...

Hydrogen in amorphous and microcrystalline silicon films prepared by hydrogen dilution

U Kroll
) J Meier
A Shah
S Mikhailov
J Weber

January 1996

Hydrogen incorporation in silicon layers prepared by plasma-enhanced chemical-vapor deposition using...

Atomistic modeling of structure and dynamics of sheared atactic polystyrene films

Hudzinskyy, D.

January 2012

Hydrogenated microcrystalline silicon (µc-Si:H) is a mixed-phase material consisting of crystalline ...

Probing the phase composition of silicon films in situ by etch product detection

Dingemans, G.
van den Donker, M.N.
Gordijn, A.
Kessels, W.M.M.
Sanden, van de, M.C.M.

January 2007

Exploiting the higher etch probability for amorphous silicon relative to crystalline silicon, the tr...

Infrared and temperature programmed desorption spectroscopy analysis of glow discharge hydrogenated amorphous silicon (a-Si:H) thin film

Santjojo, D.J. Djoko Herry

January 1995

Amorphous silicon technology offers an avenue for low-cost thin film photovoltaic applications. The ...

Infrared analysis of the bulk silicon-hydrogen bonds as an optimization tool for high-rate deposition of microcrystalline solar cells

Smets, A.H.M.
Matsui, T.
Kondo, M.

January 2008

It is demonstrated that the signature of bulk hydrogen stretching modes in the infrared of microcrys...

High-rate deposition of microcrystalline silicon p-i-n solar cells in the high pressure depletion regime

Smets, A.H.M.
Matsui, T.
Kondo, M.

January 2008

Hydrogenated microcryst. silicon films (micro c-Si:H) deposited at high deposition rates (.apprx.2 n...

The atomic hydrogen flux to silicon growth flux ratio during microcrystalline silicon solar cell deposition

Dingemans, G.
van den Donker, M.N.
Hrunski, D.
Gordijn, A.
Kessels, W.M.M.
Sanden, van de, M.C.M.

January 2008

The H flux to Si growth flux ratio is experimentally determined under state-of-the-art silicon thin-...

Concentration and penetration depth of H introduced into crystalline Si by hydrogenation methods used to fabricate solar cells

Kleekajai, Suppawan
Jiang, Fan
Stavola, Michael
Yelundur, Vijay
Nakayashiki, Kenta
Rohatgi, Ajeet
Hahn, Giso
Seren, Sven
Kalejs, Juris

January 2006

The hydrogenation of crystalline Si by methods used to passivate defects in Si solar cells has been ...

Infrared optical properties:Hydrogen bonding and stability

Melskens, Jimmy
Podraza, Nikolas J.
Stuckelberger, Michael E.

January 2021

FTIR spectroscopy is a versatile and non-destructive optical characterization method for many materi...

Highly efficient microcrystalline silicon solar cells deposited from a pure SiH4 flow

van den Donker, M.N.
Rech, B.
Finger, F.
Kessels, W.M.M.
Sanden, van de, M.C.M.

January 2005

A time-resolved optical emission spectroscopic study identified transient behavior of the excited Si...

The atomic hydrogen flux during microcrystalline silicon solar cell deposition

Sanden, van de, M.C.M.
Dingemans, G.
van den Donker, M.N.
Hrunski, D.
Gordijn, A.
Kessels, W.M.M.

January 2009

Etch product detection by in situ optical emission spectroscopy is used to detect the phase transiti...

Hydrogen in amorphous and microcrystalline silicon films prepared by hydrogen dilution

U Kroll
) J Meier
A Shah
S Mikhailov
J Weber

January 1996

Hydrogen incorporation in silicon layers prepared by plasma-enhanced chemical-vapor deposition using...

Atomistic modeling of structure and dynamics of sheared atactic polystyrene films

Hudzinskyy, D.

January 2012

Hydrogenated microcrystalline silicon (µc-Si:H) is a mixed-phase material consisting of crystalline ...

Probing the phase composition of silicon films in situ by etch product detection

Dingemans, G.
van den Donker, M.N.
Gordijn, A.
Kessels, W.M.M.
Sanden, van de, M.C.M.

January 2007

Exploiting the higher etch probability for amorphous silicon relative to crystalline silicon, the tr...

Infrared and temperature programmed desorption spectroscopy analysis of glow discharge hydrogenated amorphous silicon (a-Si:H) thin film

Santjojo, D.J. Djoko Herry

January 1995

Amorphous silicon technology offers an avenue for low-cost thin film photovoltaic applications. The ...

Infrared analysis of the bulk silicon-hydrogen bonds as an optimization tool for high-rate deposition of microcrystalline solar cells

Abstract

Extracted data

Infrared analysis of the bulk silicon-hydrogen bonds as an optimization tool for high-rate deposition of microcrystalline solar cells

Abstract

Extracted data

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