Characterized the resulting nanodomains of ZrO x C y and Zr–O–C interfaces.
Analyzed binding interactions of oxygenated intermediates.
Identified ZrO x C y nanodomains on CNFs after etching.
Demonstrated enhanced binding of oxygenated intermediates due to Zr–O–C interfaces.
Showed improved selectivity for electrochemical H2O2 production.
Abstract
Protocol-programmed oxidative etching reveals ZrO x C y nanodomains on CNFs, creating Zr–O–C interfaces that tune oxygenated-intermediate binding and promote selective electrochemical H 2 O 2 production.
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Thermal protocol-driven oxidative etching of ZrC Embedded carbon nanofibers to unlock ZrO x C y nanodomains for selective H 2 O 2 production | Synapse