论文信息 - A process sequence for manufacture of ultra-thin, light-trapping silicon solar cells

A process sequence for manufacture of ultra-thin, light-trapping silicon solar cells

Abstract Extremely thin silicon solar cells are of interest for space applications. Performance models show that a surface-passivated, light-trapping silicon solar cell can have optimum thicknesses as thin as 5 μm, and maintain high efficiency down to thicknesses of under 2 μm. Such cells have specific power and extremely good radiation damage tolerance, as well as high efficiency. New methods of fabricating and handling such thin-light-trapping cells using epitaxial growth on a removable substrate are discussed. The substrate provides mechanical support to reduce breakage. When the substrate is removed, a transparent glass superstrate provides the mechanical support. By using a process technology in which a sacrificial lattice-matched CaF2 is used, it is possible to re-use the single-crystal substrate.

Geoffrey A. Landis | G. Landis

[1] Henry W. Brandhorst,et al. Low-high junction theory applied to solar cells , 1990 .

[2] G. Cody,et al. Intensity enhancement in textured optical sheets for solar cells , 1982, IEEE Transactions on Electron Devices.

[3] M. Green,et al. Characterization of 23-percent efficient silicon solar cells , 1990 .

[4] Silicon solar cell with a novel low-resistance emitter structure , 1982 .

[5] C. Baraona,et al. V-grooved silicon solar cells , 1975 .

[6] R. M. Swanson,et al. 27.5-percent silicon concentrator solar cells , 1986, IEEE Electron Device Letters.

[7] M. Green,et al. Light trapping properties of pyramidally textured surfaces , 1987 .

[8] C. J. Keavney,et al. Wide-bandgap epitaxial heterojunction windows for silicon solar cells , 1990 .

[9] D. Redfield,et al. Multiple‐pass thin‐film silicon solar cell , 1974 .

[10] G. A. Landis. Thin, light-trapping silicon solar cells for space , 1988, Conference Record of the Twentieth IEEE Photovoltaic Specialists Conference.