Title :
Feasibility of improving front metallization lines for photovoltaic devices
Author :
Nguyen, Anh ; Fioramonti, Andrew ; Morrissey, Denis ; Efstathiadis, Harry ; Zhouying, Zhao ; Haldar, Pradeep
Author_Institution :
Energy & Environ. Applic. Center (E2TAC), State Univ. of New York, Albany, NY, USA
Abstract :
Screen-printing is widely used today as the metallization technique for industrial solar cells. Due to the limitation of the process, screen-printed contacts have low aspect ratio and low line conductivity that lower the efficiency of the solar cells. To address this issue, we developed a two-layer metallization process that deposited copper (Cu) as current-carrying electrodes by light induced electroplating (LIP) technique on thin screen-printed silver (Ag) paste seed layers. A nickel (Ni) layer was also deposited by LIP as the barrier and Cu adhesion layer. A series of trials with various electrolyte compositions as well as different organic additives were investigated as part of this work. By optimizing the thickness of the plated Ni and Cu layers, line resistivity of 1.75 ¿Ohm-cm as low as that of bulk Cu, 1.68 ¿Ohm-cm and bulk silver (Ag), 1.59 ¿Ohm-cm was achieved.
Keywords :
additives; copper; electroplated coatings; electroplating; metallisation; nickel; organic compounds; silver; solar cells; Ag; Cu; Ni; current-carrying electrodes; electrolyte compositions; front metallization lines; light induced electroplating; organic additives; paste seed layers; resistivity; resistivity 1.59 muohmcm; resistivity 1.75 muohmcm; screen printing; solar cells; two-layer metallization process; Conductivity; Copper; Electrodes; Metallization; Metals industry; Nickel; Photovoltaic cells; Photovoltaic systems; Silver; Solar power generation;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2009 34th IEEE
Conference_Location :
Philadelphia, PA
Print_ISBN :
978-1-4244-2949-3
Electronic_ISBN :
0160-8371
DOI :
10.1109/PVSC.2009.5411673
