27 March 1997 Excimer micromachining for texturing silicon solar cells
Author Affiliations +
Abstract
Recent improvements in 'surface engineering' have helped to increase one-sun silicon solar cell efficiencies to more than 24% for float-zone grown single-crystal silicon. Texturing of the cell surface, to enhance the light coupling into cell, constitutes a significant part of this dramatic progress. Most single-crystal silicon substrates with a (100) surface orientation can be textured with relative ease using a selective or anisotropic chemical etching method. Other silicon materials, like ribbon-grown, (111) dendritic web and polycrystalline substrates do not lend themselves to chemical material removal without elaborate micro- lithographic masking method. This paper investigates the feasibility of using excimer micromachining as an alternative method of texturing silicon solar cells in general. Experiments are conducted with (111) float-zone and dendritic web-grown substrates. Using a 'diamond' patterned mask and a Kr2 excimer laser, contiguous arrays of V- shaped micro-grooves are formed on each substrate. The resulting surface texture is examined by surface profilometry and the results are correlated to the original surface micro characteristics of the samples. Sample carrier lifetimes and solar reflectances are measured prior to- and after the laser processing. The results verify the technical feasibility of excimer micro machining of (111) float zone and dendritic web single crystal substrates.
© (1997) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Ugur Ortabasi, Ugur Ortabasi, Daniel L. Meier, Daniel L. Meier, John R. Easoz, John R. Easoz, Ronald D. Schaeffer, Ronald D. Schaeffer, Maria A. Stepanova, Maria A. Stepanova, Wen Ho, Wen Ho, Jeffrey A. Stokes, Jeffrey A. Stokes, Richard Sam Dummer, Richard Sam Dummer, James C. Jafolla, James C. Jafolla, Paul McKenna, Paul McKenna, } "Excimer micromachining for texturing silicon solar cells", Proc. SPIE 2993, Lasers as Tools for Manufacturing II, (27 March 1997); doi: 10.1117/12.270014; https://doi.org/10.1117/12.270014
PROCEEDINGS
11 PAGES


SHARE
Back to Top