Super porous TiO2 photocatalyst: Tailoring the agglomerate porosity into robust structural mesoporosity with enhanced surface area for efficient remediation of azo …
The low surface area of TiO 2 (50 m 2 g-1-Degussa P25) due to randomly oriented,
agglomerated nanostructures and charge carrier recombination tendency, has till date been
its major limitation for photocatalytic remediation of polluted wastewater. This study presents
an innovative process to design super porous TiO 2 nanostructures with high effective
surface area (238 m 2 g-1), robust, structurally ordered mesoporosity via a simple sol-gel
assisted reflux method. Detailed material characterization studies suggest that the higher …
agglomerated nanostructures and charge carrier recombination tendency, has till date been
its major limitation for photocatalytic remediation of polluted wastewater. This study presents
an innovative process to design super porous TiO 2 nanostructures with high effective
surface area (238 m 2 g-1), robust, structurally ordered mesoporosity via a simple sol-gel
assisted reflux method. Detailed material characterization studies suggest that the higher …
Super porous TiO sub (2) photocatalyst: Tailoring the agglomerate porosity into robust structural mesoporosity with enhanced surface area for efficient remediation of …
AP Naik, H Mittal, VS Wadi, L Sane, A Raj… - 2020 - irgu.unigoa.ac.in
The low surface area of TiO sub (2)(50 m sup (2) g sup (-1)-Degussa P25) due to randomly
oriented, agglomerated nanostructures and charge carrier recombination tendency, has till
date been its major limitation for photocatalytic remediation of polluted wastewater. This
study presents an innovative process to design super porous TiO sub (2) nanostructures
with high effective surface area (238 m sup (2) g sup (-1)), robust, structurally ordered
mesoporosity via a simple sol-gel assisted reflux method. Detailed material characterization …
oriented, agglomerated nanostructures and charge carrier recombination tendency, has till
date been its major limitation for photocatalytic remediation of polluted wastewater. This
study presents an innovative process to design super porous TiO sub (2) nanostructures
with high effective surface area (238 m sup (2) g sup (-1)), robust, structurally ordered
mesoporosity via a simple sol-gel assisted reflux method. Detailed material characterization …
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