Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition
Here, we propose an alveoli–inspired catalyst to address the susceptibility of photocatalytic
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition
H Anwer, M Ali, S Lee, SH Jeong… - Journal of hazardous …, 2021 - pubmed.ncbi.nlm.nih.gov
Here, we propose an alveoli-inspired catalyst to address the susceptibility of photocatalytic
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition.
H Anwer, M Ali, S Lee, SH Jeong… - Journal of Hazardous …, 2020 - europepmc.org
Here, we propose an alveoli-inspired catalyst to address the susceptibility of photocatalytic
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition
H Anwer, M Ali, S Lee, SH Jeong… - Journal of Hazardous …, 2021 - ui.adsabs.harvard.edu
Here, we propose an alveoli–inspired catalyst to address the susceptibility of photocatalytic
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition
H Anwer, M Ali, S Lee, SH Jeong… - Journal of Hazardous …, 2021 - repository.hanyang.ac.kr
Here, we propose an alveoli–inspired catalyst to address the susceptibility of photocatalytic
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition
H Anwer, M Ali, S Lee, SH Jeong… - JOURNAL OF …, 2021 - scholarworks.bwise.kr
Here, we propose an alveoli–inspired catalyst to address the susceptibility of photocatalytic
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition
H Anwer, M Ali, S Lee, SH Jeong… - Journal of Hazardous …, 2021 - inis.iaea.org
[en] Highlights:• A ZnO nanorod-supported NiMoO 4/C 3 N 4 layer constitutes an alveoli
catalyst.• Air pockets in the alveoli catalyst physically entrap VOC molecules.• A …
catalyst.• Air pockets in the alveoli catalyst physically entrap VOC molecules.• A …
Simulating alveoli-inspired air pockets in a ZnO/NiMoO4/C3N4 catalyst filter for toluene entrapment and photodecomposition
H Anwer, M Ali, S Lee, SH Jeong… - Journal of Hazardous …, 2021 - ksascholar.dri.sa
Here, we propose an alveoli–inspired catalyst to address the susceptibility of photocatalytic
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …
air oxidation systems to fluctuations in volatile organic contaminant (VOC) loads. An alveoli …