D. Kray, M. Aleman, A. Fell, S. Hopman, K. Mayer, M. Mesec, R. Muller, G. Willeke, S. Glunz, B. Bitnar, D. Neuhaus, R. Ludemann, T. Schlenker, D. Manz, A. Bentzen, E. Sauar, A. Pauchard, B. Richerzhagen
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Laser-doped silicon solar cells by Laser Chemical Processing (LCP) exceeding 20% efficiency
The introduction of selective emitters underneath the front contacts of solar cells can considerably increase the cell efficiency. Thus, cost-effective fabrication methods for this process step would help to reduce the cost per Wp of silicon solar cells. Laser Chemical Processing (LCP) is based on the waterjet-guided laser (LaserMicroJet®) developed and commercialized by Synova S.A., but uses a chemical jet. This technology is able to perform local diffusions at high speed and accuracy without the need of masking or any high-temperature step of the entire wafer. We present experimental investigations on simple device structures to choose optimal laser parameters for selective emitter formation. These parameters are used to fabricate high-efficiency oxide-passivated LFC solar cells that exceed 20% efficiency.
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