Add to ORKGWe present a detailed analysis of the voltage dependence of dangling bond recombination in microcrystalline silicon c Si H p i n diodes observed in the forward dark current at room temperature by electrically detected magnetic resonance EDMR . The EDMR response is numerically simulated with physically reasonable parameters that are well suited to fully describe the electronic behavior of the diodes. A sign reversal as observed for amorphous silicon diodes is predicted at high voltages. The basic mechanism causing the sign reversal is shown to be due to space charge. The high sensitivity of the EDMR response to various material parameters is demonstrate
Electrically detected magnetic resonance EDMR spectroscopy is employed to study the influence of t...
This thesis presents a detailed study of paramagnetic defects in hydrogenated amorphous silicon a S...
Lomer dislocations at small-angle grain boundaries in multicrystalline silicon solar cells have been...
We present a detailed analysis of the voltage dependence of dangling bond recombination in microcrys...
We present a detailed analysis of the voltage dependence of dangling bond recombination in microcrys...
Recombination in microcrystalline silicon c Si H pin solar cells is studied by electrically detect...
An analysis of spin-dependent processes in microcrystalline silicon (mu c-Si:H) pin solar cells is p...
Pulsed electrically detected magnetic resonance pEDMR was employed to study spin dependent process...
Experimental results of pulsed electrically detected magnetic resonance pulsed EDMR measurements a...
In thin film solar cells based on non crystalline thin film silicon or organic semiconductors struct...
Pulsed multi frequency electrically detected magnetic resonance EDMR at X , Q and W Band 9.7, 34...
The microscopic structure of light-activated paramagnetic conduction band tail states and their part...
Pulsed multi-frequency electrically detected magnetic resonance (EDMR) at X-, Q- and W-Band (9.7, 34...
The transport mechanisms controlling the forward dark current-voltage characteristic of the silicon ...
Journal ArticleA quantitative study of the trap-dangling bond tunneling recombination in hydrogenate...
Electrically detected magnetic resonance EDMR spectroscopy is employed to study the influence of t...
This thesis presents a detailed study of paramagnetic defects in hydrogenated amorphous silicon a S...
Lomer dislocations at small-angle grain boundaries in multicrystalline silicon solar cells have been...
We present a detailed analysis of the voltage dependence of dangling bond recombination in microcrys...
We present a detailed analysis of the voltage dependence of dangling bond recombination in microcrys...
Recombination in microcrystalline silicon c Si H pin solar cells is studied by electrically detect...
An analysis of spin-dependent processes in microcrystalline silicon (mu c-Si:H) pin solar cells is p...
Pulsed electrically detected magnetic resonance pEDMR was employed to study spin dependent process...
Experimental results of pulsed electrically detected magnetic resonance pulsed EDMR measurements a...
In thin film solar cells based on non crystalline thin film silicon or organic semiconductors struct...
Pulsed multi frequency electrically detected magnetic resonance EDMR at X , Q and W Band 9.7, 34...
The microscopic structure of light-activated paramagnetic conduction band tail states and their part...
Pulsed multi-frequency electrically detected magnetic resonance (EDMR) at X-, Q- and W-Band (9.7, 34...
The transport mechanisms controlling the forward dark current-voltage characteristic of the silicon ...
Journal ArticleA quantitative study of the trap-dangling bond tunneling recombination in hydrogenate...
Electrically detected magnetic resonance EDMR spectroscopy is employed to study the influence of t...
This thesis presents a detailed study of paramagnetic defects in hydrogenated amorphous silicon a S...
Lomer dislocations at small-angle grain boundaries in multicrystalline silicon solar cells have been...