Add to ORKGMinimizing carrier recombination at interfaces is of extreme importance in the development of high-efficiency photovoltaic devices and for bulk material characterization. Here, we investigate a temporary room temperature superacid-based passivation scheme, which provides surface recombination velocities below 1 cm/s, thus placing our passivation scheme amongst state-of-the-art dielectric films. Application of the technique to high-quality float-zone silicon allows the currently accepted intrinsic carrier lifetime limit to be reached and calls its current parameterization into doubt for 1 Ω·cm n-type wafers. The passivation also enables lifetimes up to 65 ms to be measured in high-resistivity Czochralski silicon, which, to our knowledge, is ...
For solar cell application, the stability of interface passivation quality to in-field conditions is...
Minimizing recombination at semiconductor surfaces is required for the accurate determination of the...
Recombination at the semiconductor surface continues to be a major limit to optoelectronic device pe...
Minimizing carrier recombination at interfaces is of extreme importance in the development of high-e...
Minimizing carrier recombination at interfaces is of extreme importance in the development of high-e...
Minimizing carrier recombination at interfaces is of extreme importance in the development of high-e...
A central quantity to assess the high quality of monocrystalline silicon (on scales beyond mere puri...
Accurate measurements of bulk minority carrier lifetime are essential in order to determine the true...
Accurate measurements of the bulk minority carrier lifetime in high-quality silicon materials is cha...
One of the main challenges of the c-Si PV industry is the implementation of high quality surface pas...
In this work we focus on the surface passivation of p-FZ, 1 ohm cm silicon wafers by intrinsic, sili...
In this work we focus on the surface passivation of p FZ, 1 amp; 937;cm silicon wafers by intrinsic...
The main material parameter of silicon is the minority carrier bulk lifetime and influences the effe...
Passivation of silicon surfaces remains a critical factor in achieving high conversion efficiency in...
To improve silicon device fabrication processes it is necessary to monitor bulk minority carrier lif...
For solar cell application, the stability of interface passivation quality to in-field conditions is...
Minimizing recombination at semiconductor surfaces is required for the accurate determination of the...
Recombination at the semiconductor surface continues to be a major limit to optoelectronic device pe...
Minimizing carrier recombination at interfaces is of extreme importance in the development of high-e...
Minimizing carrier recombination at interfaces is of extreme importance in the development of high-e...
Minimizing carrier recombination at interfaces is of extreme importance in the development of high-e...
A central quantity to assess the high quality of monocrystalline silicon (on scales beyond mere puri...
Accurate measurements of bulk minority carrier lifetime are essential in order to determine the true...
Accurate measurements of the bulk minority carrier lifetime in high-quality silicon materials is cha...
One of the main challenges of the c-Si PV industry is the implementation of high quality surface pas...
In this work we focus on the surface passivation of p-FZ, 1 ohm cm silicon wafers by intrinsic, sili...
In this work we focus on the surface passivation of p FZ, 1 amp; 937;cm silicon wafers by intrinsic...
The main material parameter of silicon is the minority carrier bulk lifetime and influences the effe...
Passivation of silicon surfaces remains a critical factor in achieving high conversion efficiency in...
To improve silicon device fabrication processes it is necessary to monitor bulk minority carrier lif...
For solar cell application, the stability of interface passivation quality to in-field conditions is...
Minimizing recombination at semiconductor surfaces is required for the accurate determination of the...
Recombination at the semiconductor surface continues to be a major limit to optoelectronic device pe...