Title :
Patterning and metallization of silicon solar cells by inkjet-printed functional ink on a photoresist layer
Author :
Zhongtian Li ; Ran Chen ; Yu Yao ; Wei Zhang ; Xi Wang ; Perez-Wurfl, Ivan ; Lennon, Alison
Author_Institution :
Univ. of New South Wales, Sydney, NSW, Australia
Abstract :
This paper reports a patterning and metallization method for silicon solar cells fabrications. Patterning was achieved by the inkjet printing of a dye-based ink as a mask to protect the photoresist from UV-light initiated crosslinking. The patterned photoresist was used to facilitate the etching of a pattern in the underlying dielectric layer and also to act as a metal plating mask. This method resulted in fine point openings in the photoresist layer with a diameter of 15 μm and line openings with a width of 30 μm. Nickel/copper plated homogeneous emitter silicon solar cells with an efficiency of 18.2% on small size Cz wafers were fabricated using this method, may find applications in the metallization of future heterojunction, rear contact and PERC cells.
Keywords :
copper; elemental semiconductors; etching; ink jet printing; integrated circuit metallisation; masks; nickel; photoresists; silicon; solar cells; Ni-Cu; PERC cells; UV-light initiated crosslinking; dielectric layer; dye-based ink; efficiency 18.2 percent; inkjet-printed functional ink; metal plating mask; nickel-copper plated homogeneous emitter silicon solar cells; pattern etching; photoresist layer; silicon solar cell metallization method; silicon solar cell patterning; size 15 mum; size 30 mum; small size Cz wafers; Metallization; Nickel; Resists; Substrates; inkjet; metallization; patterning; photolithography; photovoltaic cells; silicon;
Conference_Titel :
Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
Conference_Location :
Denver, CO
DOI :
10.1109/PVSC.2014.6925437
