论文信息 - In Situ Roughness Measurements for the Solar Cell Industry Using an Atomic Force Microscope

In Situ Roughness Measurements for the Solar Cell Industry Using an Atomic Force Microscope

Areal roughness parameters always need to be under control in the thin film solar cell industry because of their close relationship with the electrical efficiency of the cells. In this work, these parameters are evaluated for measurements carried out in a typical fabrication area for this industry. Measurements are made using a portable atomic force microscope on the CNC diamond cutting machine where an initial sample of transparent conductive oxide is cut into four pieces. The method is validated by making a comparison between the parameters obtained in this process and in the laboratory under optimal conditions. Areal roughness parameters and Fourier Spectral Analysis of the data show good compatibility and open the possibility to use this type of measurement instrument to perform in situ quality control. This procedure gives a sample for evaluation without destroying any of the transparent conductive oxide; in this way 100% of the production can be tested, so improving the measurement time and rate of production.

[1] Tsunemoto Kuriyagawa,et al. Microstructural and topographical changes of Ni-P plated moulds in glass lens pressing , 2009 .

[2] K. Bewilogua,et al. Improving tribological properties of sputtered boron carbide coatings by process modifications , 2000 .

[3] Ana Maria do Espírito Santo,et al. Influence of laser surface texturing on surface microstructure and mechanical properties of adhesive joined steel sheets , 2009 .

[4] Roger Senden,et al. Rapidly solidified aluminium for optical applications , 2008, Astronomical Telescopes + Instrumentation.

[5] Liam Blunt,et al. Surface Metrology for the Automotive Industry , 2008 .

[6] Jordi Andreu,et al. Optical analysis of textured plastic substrates to be used in thin silicon solar cells , 2005 .

[7] M. Zeman,et al. Effect of surface roughness of ZnO:Al films on light scattering in hydrogenated amorphous silicon solar cells , 2003 .

[8] David J. Whitehouse,et al. Handbook of Surface and Nanometrology , 2002 .

[9] H.-U. Danzebrink,et al. Advances in Scanning Force Microscopy for Dimensional Metrology , 2006 .

[10] Thomas Oberbach,et al. Surface Properties after Ageing of Dispersion Ceramic and its Influence on Strength , 2008 .