AI Article Synopsis
- Enzyme-driven degradation of environmental pollutants is gaining popularity due to its ecofriendly and efficient nature, leading to the development of immobilized enzyme technology to overcome limitations of free enzymes.
- This study introduces a novel heterogeneous pepsin catalyst, PEP@M-MIL100(Fe), which effectively degrades the persistent microplastic diisononyl phthalate (DINP) within 150 minutes, achieving a removal efficiency of 95.88%.
- The research also presents a new degradation mechanism highlighting the role of substrate diffusion, marking the first successful use of pepsin for such pollution issues.
Article Abstract
Biological enzyme-driven degradation of environmental pollutants has attracted widespread attention because it is ecofriendly and highly efficient. Immobilized enzyme technology has emerged as a promising technique in enzymology that addresses the limitations associated with free enzymes. Traditional solid-loaded enzyme substrates are often affected by blockages and restricted substrate accessibility. In this study, we synthesized an efficient heterogeneous pepsin catalyst, named PEP@M-MIL100(Fe), by covalently combining carboxylated ferrite structural expanded metal-organic frameworks with pepsin. This catalyst demonstrated excellent environmental adaptability and remarkable catalytic degradation capabilities. Notably, it rapidly degraded the persistent microplastic pollutant diisononyl phthalate (DINP) within just 150 min, with a removal efficiency of up to 95.88%. Impressively, even after 10 consecutive uses, the catalyst maintained its high performance. We proposed an innovative steady-state heterogeneous enzyme-catalyzed degradation mechanism, i.e., diffusion (D)-absorption (A)-binding (B)-reaction (R)-degradation (D)-link mechanism, which emphasizes the influence of substrate diffusion rates in this process. This work presents the first successful application of pepsin to DINP degradation and offers a sustainable and effective approach for addressing contemporary pollution challenges.
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Article Synopsis
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