Reconciling the reactivity-biocompatibility trade-off in nanoscale zero-valent iron with an amorphous core and pseudocapacitive biointerface for enhanced anaerobic methanogenesis | Synapse
March 3, 2026
Reconciling the reactivity-biocompatibility trade-off in nanoscale zero-valent iron with an amorphous core and pseudocapacitive biointerface for enhanced anaerobic methanogenesis
Key Points
Enhanced anaerobic methanogenesis occurs with improved biocompatibility and reactivity in iron nanomaterials.
A significant increase in methane production by 67% was observed compared to controls in short-term experiments.
This study employs a novel nanoscale zero-valent iron with amorphous core to promote reactivity and biocompatibility.
Findings highlight the balance between reactivity and biocompatibility, offering opportunities for environmental applications.