Single entity electrochemistry and the electron transfer kinetics of hydrazine oxidation

Single entity electrochemistry and the electron transfer kinetics of hydrazine oxidation

The mechanism and kinetics of the electro-catalytic oxidation of hydrazine by graphene oxide platelets randomly decorated with palladium nanoparticles are deduced using single particle impact electrochemical measurements in buffered aqueous solutions across the pH range 2–11. Both hydrazine, N2H4, a...

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Bibliografiske detaljer
Main Authors:	Miao, R, Shao, L, Compton, R
Format:	Journal article
Sprog:	English
Udgivet:	Springer 2021

Lignende værker

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af: Kahk, J, et al.
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af: Kahk, J, et al.
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af: Streeter, I, et al.
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af: Lin, C, et al.
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