Lori Postak scite author profile

Lori Postak

3Publications

24Citation Statements Received

78Citation Statements Given

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Genex Systems (United States)

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Moisture ingress prediction in polyisobutylene‐based edge seal with molecular sieve desiccant

Kempe

Nobles

Postak³

et al. 2017

Progress in Photovoltaics

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Often photovoltaic modules are constructed with materials that are sensitive to water. This is most often the case with thin film technologies, including perovskite cells, where the active layers are a few microns thick and can be sensitive to moisture, liquid water or both. When moisture or liquid water can ingress, a small amount of water can lead to corrosion and depending on the resulting reactions, a larger local detrimental effect is possible. To prevent moisture from contacting photovoltaic components, impermeable frontsheets and backsheets are used with a polyisobutylene (PIB)‐based edge seal material around the perimeter. Here, we evaluate the ability of a PIB‐based edge seal using a molecular sieve desiccant to keep moisture out for the expected module lifetime. Moisture ingress is evaluated using test coupons where the edge seal is placed between 2 pieces of glass, one of which has a metallic calcium film on it, and monitoring the moisture ingress distance as a function of time. We expose samples to different temperature and humidity conditions to create permeation models useful for extrapolation to field use. This extrapolation indicates that this PIB material is capable of keeping moisture out of a module for the desired lifetime.

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Investigation of a wedge adhesion test for edge seals

Kempe

Wohlgemuth

Miller

et al. 2016

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Using a butt joint test to evaluate photovoltaic edge seal adhesion

Kempe

Korkmaz

Postak³

et al. 2019

Energy Science & Engineering

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Many photovoltaic (PV) technologies have been found to be sensitive to moisture that diffuses into a PV package. Even with the use of impermeable frontsheets and backsheets, moisture can penetrate from the edges of a module. To limit this moisture ingress pathway from occurring, manufacturers often use a low permeability polyisobutylene (PIB)‐based edge seal filled with desiccant to further restrict moisture ingress. Moisture ingress studies have shown that these materials are capable of blocking moisture for the 25‐year life of a module; but to do so, they must remain well‐adhered and free of cracks. This work investigates the potential use of a butt joint test for evaluating the long‐term durability of adhesion by looking for significant changes in the failure mode or quantitative value of a butt joint test. A round robin experiment was conducted using six different materials and two sample constructions, with and without effort to control edge pinch. Tests were evaluated looking at the strength of the bond, and the type of failure observed in a round robin test involving five laboratories. It was found that both the measured values, and the observed failure modes were repeatable and reproducible within at 95% confidence interval.

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Lori Postak

Moisture ingress prediction in polyisobutylene‐based edge seal with molecular sieve desiccant

Investigation of a wedge adhesion test for edge seals

Using a butt joint test to evaluate photovoltaic edge seal adhesion

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