Combined Spatially Resolved Characterization of Antireflection and Antisoiling Coatings for PV Module Glass
Document Type
Article
Publication Title
ACS Combinatorial Science
Abstract
Characterization of photovoltaic (PV) module materials throughout different stages of service life is crucial to understanding and improving the durability of these materials. Currently the large-scale of PV modules (>1 m2) is imbalanced with the small-scale of most materials characterization tools (≤1 cm2). Furthermore, understanding degradation mechanisms often requires a combination of multiple characterization techniques. Here, we present adaptations of three standard materials characterization techniques to enable mapping characterization over moderate sample areas (≥25 cm2). Contact angle, ellipsometry, and UV–vis spectroscopy are each adapted and demonstrated on two representative samples: a commercial multifunctional coating for PV glass and an oxide combinatorial sample library. Best practices are discussed for adapting characterization techniques for large-area mapping and combining mapping information from multiple techniques.
First Page
197
Last Page
203
DOI
10.1021/acscombsci.9b00213
Publication Date
4-13-2020
Recommended Citation
Fleming, Robert; Moffitt, Stephanie L.; Riley, Conor; Ellis, Benjamin H.; Thompson, Corey S.; Burton, Patrick D.; Gordon, Margaret E.; Zakutayev, Andriy; and Schelhas, Laura T., "Combined Spatially Resolved Characterization of Antireflection and Antisoiling Coatings for PV Module Glass" (2020). Arkansas Biosciences Institute. 105.
https://arch.astate.edu/abi/105