Boosted H2O2 activation to dissociated hydroxyl radical by regulating B sites in copper-based delafossite for contaminants degradation: Key role on adsorption configuration and occurrence forms
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Hydroxyl radical generation is significantly increased with boosted H2O2 activation and optimized adsorption configuration.
Key evidence shows up to 50% improvement in contaminants degradation efficiency using the modified copper-based delafossite.
Analysis of catalytic performance across various configurations highlights the role of B sites in hydroxyl radical production.
These findings suggest potential for developing more effective environmental detoxification methods using modified materials.
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Boosted H2O2 activation to dissociated hydroxyl radical by regulating B sites in copper-based delafossite for contaminants degradation: Key role on adsorption configuration and occurrence forms | Synapse