Add to ORKGThe goal of this paper is to present the development and comparison of p-type multicrystalline silicon solar cells with screen printed metallization. Industrial processes were developed to manufacture the n+pn+and n+pp+ solar cells. The n+pn+ structure was obtained with single phosphorus diffusion. The n+pp+ solar cell was developed and the p+ region was optimized experimentally by using one single high temperature step for phosphorus and aluminum diffusion. The results showed that the average efficiency of n+pn+ solar cells with no texturing was 12.3%. The efficiency increased 1.5 % (absolute) with the implementation of acidic solution texturing. The highest efficiency achieved for solar cell without (n+pn+) and with (n+pp+) back surface f...
AbstractLow “Euros per Watt-peak” and ease of industrialization are the main drivers towards success...
Bifacial solar cell is a specially designed solar cell for the production of electricity from both s...
The European project 20plμs is developing Si wafer solar cells with efficiencies above 20% on wafers...
ABSTRACT: The current Si supply- consisting also of off-spec and overcapacity silicon from the micro...
To ensure that photovoltaics contributes significantly to future world energy production, the cost p...
The development of cost-effective and highly efficient solar cells is a primary goal of current rese...
This work aims for assessing the efficiency potential of multicrystalline n-type silicon as base mat...
Abstract- This paper gives an overview of the materials and methods used for fabricating a monocryst...
This research work is on the possibilities of an efficient multi-crystal silicon solar cell. The res...
The effect of phosphorus diffusion gettering was investigated for p-type multicrystalline silicon. T...
Production steps of crystalline silicon solar cells include several physical and chemical processes ...
ABSTRACT: A simple in-line industrial process has been developed for commercial multicrystalline sil...
A simplified laboratory process with one photolithographic step for front junction solar cells on n-...
A simplified laboratory process with one photolithographic step for front junction solar cells on n-...
The chapter will introduce industrial silicon solar cell manufacturing technologies with its current...
AbstractLow “Euros per Watt-peak” and ease of industrialization are the main drivers towards success...
Bifacial solar cell is a specially designed solar cell for the production of electricity from both s...
The European project 20plμs is developing Si wafer solar cells with efficiencies above 20% on wafers...
ABSTRACT: The current Si supply- consisting also of off-spec and overcapacity silicon from the micro...
To ensure that photovoltaics contributes significantly to future world energy production, the cost p...
The development of cost-effective and highly efficient solar cells is a primary goal of current rese...
This work aims for assessing the efficiency potential of multicrystalline n-type silicon as base mat...
Abstract- This paper gives an overview of the materials and methods used for fabricating a monocryst...
This research work is on the possibilities of an efficient multi-crystal silicon solar cell. The res...
The effect of phosphorus diffusion gettering was investigated for p-type multicrystalline silicon. T...
Production steps of crystalline silicon solar cells include several physical and chemical processes ...
ABSTRACT: A simple in-line industrial process has been developed for commercial multicrystalline sil...
A simplified laboratory process with one photolithographic step for front junction solar cells on n-...
A simplified laboratory process with one photolithographic step for front junction solar cells on n-...
The chapter will introduce industrial silicon solar cell manufacturing technologies with its current...
AbstractLow “Euros per Watt-peak” and ease of industrialization are the main drivers towards success...
Bifacial solar cell is a specially designed solar cell for the production of electricity from both s...
The European project 20plμs is developing Si wafer solar cells with efficiencies above 20% on wafers...