Advances in Patterning Materials and Processes XXXV 2018
DOI: 10.1117/12.2297389
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The intrinsic role of membrane morphology to reduce defectivity in advanced photochemicals

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“…In contrast, the Azora membrane has a tortuous, complex structure which is very different from existing membranes. Our recent research suggests that the unique morphology of the Azora membranes contributes to a reduction of gel particles, subsequently leading to a reduction of both coating defects and micro-bridging defects [10][11] . Though the exact mechanism needs further investigation, it is believed that when gel particles are in a continuously mixed bulk phase, such as in a solution at a bulk chemical manufacturer prior to filtration, there is negligible interaction between or aggregation of gels, leading to relatively large interstitial spaces.…”
Section: Azora Filtration Mechanismmentioning
confidence: 99%
“…In contrast, the Azora membrane has a tortuous, complex structure which is very different from existing membranes. Our recent research suggests that the unique morphology of the Azora membranes contributes to a reduction of gel particles, subsequently leading to a reduction of both coating defects and micro-bridging defects [10][11] . Though the exact mechanism needs further investigation, it is believed that when gel particles are in a continuously mixed bulk phase, such as in a solution at a bulk chemical manufacturer prior to filtration, there is negligible interaction between or aggregation of gels, leading to relatively large interstitial spaces.…”
Section: Azora Filtration Mechanismmentioning
confidence: 99%