Laser processing for thin film chalcogenide photovoltaics: a review and prospectus

Abstract

© The Authors. We review prior and on-going works in using laser annealing (LA) techniques in the development of chalcogenide-based [CdTe and CuIn; GaS; Se 2] solar cells. LA can achieve unique processing regimes as the wavelength and pulse duration can be chosen to selectively heat particular layers of a thin film solar cell or even particular regions within a single layer. Pulsed LA, in particular, can achieve non-steady-state conditions that allow for stoichiometry control by preferential evaporation, which has been utilized in CdTe solar cells to create Ohmic back contacts. Pulsed lasers have also been used with CuIn; GaS; Se 2 to improve device performance by surface-defect annealing as well as bulk deep-defect annealing. Continuouswave LA shows promise for use as a replacement for furnace annealing as it almost instantaneously supplies heat to the absorbing film without wasting time or energy to bring the much thicker substrate to temperature. Optimizing and utilizing such a technology would allow production lines to increase throughput and thus manufacturing capacity. Lasers have also been used to create potentially low-cost chalcogenide thin films from precursors, which is also reviewed.