Copper Light-induced Plating Contacts with Ni Seed-layer for mc-Si Solar Cells after Laser Ablation of SiNx:H
Résumé
This study focuses on the electrochemical Ni/Cu metallization of multi-crystalline silicon (mc-Si) without alignment steps. Selective ablation of the silicon nitride (SiNx:H) anti-reflection and passivation coating was performed prior to metallization with a frequency tripled Nd:YAG laser. Electroless nickel-phosphorous layers of different thicknesses were deposited as a seed-layer at 95 degrees C on two batches of samples before electrolytic copper thickening. The thickening of the Ni contact by copper was done by light-induced plating (LIP). The influence of laser ablation parameters as well as chemical etching prior to metal deposition was investigated. The morphology of electrochemically deposited Ni and Cu metal layers was investigated by SEM and optical microscope. Laboratory scale solar cells were fabricated to evaluate the electrical properties of the front contacts. A copper thickness of between 9 and 16 mu m was necessary in order to optimize the fill factor. The best efficiency measured on 200 mu m thick p-type mc-Si solar cell with an area of 4.4 cm(2) was 15.5%. An average efficiency of 15% over 18 samples has been demonstrated. Such results were obtained without any additional thermal annealing treatment of the Ni seed-layer. The limiting factors as well as possible improvements are discussed.