Add to ORKGA basic requirement of large scale solar cell fabrication is to provide low cost base material. Unconventional refining of metallurical grade silicon represents one of the most promising ways of silicon meltstock processing. The refining concept is based on an optimized combination of metallurgical treatments. Commercially available crude silicon, in this sequence, requires a first pyrometallurgical step by slagging, or, alternatively, solvent extraction by aluminum. After grinding and leaching, high purity qualtiy is gained as an advanced stage of refinement. To reach solar grade quality a final pyrometallurgical step is needed: liquid-gas extraction
Various methods of manufacturing low-cost solar-grade silicon are reviewed. The methods include refi...
Current methods of solar-grade silicon (SG-Si) production are energy intensive and costly. The possi...
Silicon, an important semiconducting material and alloying element in metallurgy and chemistry, is o...
The aim of the process is to produce silicon for crystallization into ingots that can be sliced to w...
Among currently known alternatives for renewable energy sources, solar power is generally regarded a...
AbstractThe photovoltaic (PV) industry is in rapid growth and a large supply of PV feedstock materia...
Pyro-metallurgical refining techniques are being developed for use with molten metallurgical-grade (...
Upgrading metallurgical grade silicon is being pursued in four associated areas in order to improve ...
Refining of metallurgical-grade silicon was studied using a process sequence of slag treatment, cont...
To develop a new method of refining silicon for use in solar cell materials, liquation refining with...
Silicon, obtained as a raw material is a subject to the subsequent processing by direc- tional crys...
International audienceA plasma-retining technique is applied to upgraded metallurgical grade silicon...
Two methods for refining metallurgical grade silicon to solar grade silicon have been investigated. ...
In this work we reported the production of upgraded metallurgical grade silicon using a combination ...
In order to develop a low-cost metallurgical route for solar grade silicon (SOG-Si) production, a no...
Various methods of manufacturing low-cost solar-grade silicon are reviewed. The methods include refi...
Current methods of solar-grade silicon (SG-Si) production are energy intensive and costly. The possi...
Silicon, an important semiconducting material and alloying element in metallurgy and chemistry, is o...
The aim of the process is to produce silicon for crystallization into ingots that can be sliced to w...
Among currently known alternatives for renewable energy sources, solar power is generally regarded a...
AbstractThe photovoltaic (PV) industry is in rapid growth and a large supply of PV feedstock materia...
Pyro-metallurgical refining techniques are being developed for use with molten metallurgical-grade (...
Upgrading metallurgical grade silicon is being pursued in four associated areas in order to improve ...
Refining of metallurgical-grade silicon was studied using a process sequence of slag treatment, cont...
To develop a new method of refining silicon for use in solar cell materials, liquation refining with...
Silicon, obtained as a raw material is a subject to the subsequent processing by direc- tional crys...
International audienceA plasma-retining technique is applied to upgraded metallurgical grade silicon...
Two methods for refining metallurgical grade silicon to solar grade silicon have been investigated. ...
In this work we reported the production of upgraded metallurgical grade silicon using a combination ...
In order to develop a low-cost metallurgical route for solar grade silicon (SOG-Si) production, a no...
Various methods of manufacturing low-cost solar-grade silicon are reviewed. The methods include refi...
Current methods of solar-grade silicon (SG-Si) production are energy intensive and costly. The possi...
Silicon, an important semiconducting material and alloying element in metallurgy and chemistry, is o...