Tailoring Electrocatalytic Properties of sp<sup>2</sup>-Bonded Carbon Nanoforms Through Doping

Tailoring Electrocatalytic Properties of sp<sup>2</sup>-Bonded Carbon Nanoforms Through Doping

The symmetry of the valence and conduction bands in graphene and carbon nanotubes allows for easy modification of the electronic structure, which is correlated with their electrocatalytic activity. Modifying the electronic structure of the sp<sup>2</sup>-bonded nanocarbons by substitutin...

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Bibliographic Details
Main Authors: Paweł Szroeder, Agnieszka Banaszak-Piechowska, Ihor Sahalianov
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Molecules
Subjects:
graphene
carbon nanotubes
density of π-electron states
heterogeneous electron transfer
intrinsic defects
donor doping
Online Access:https://www.mdpi.com/1420-3049/30/6/1265
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Summary:The symmetry of the valence and conduction bands in graphene and carbon nanotubes allows for easy modification of the electronic structure, which is correlated with their electrocatalytic activity. Modifying the electronic structure of the sp<sup>2</sup>-bonded nanocarbons by substituting carbon atoms with electron donors/acceptors and through covalent functionalization can facilitate heterogeneous electron transfer (HET), which is beneficial for designing carbon-based, high-performance electrocatalysts. Based on the Gerischer–Marcus model, we discuss how we can match the density of π-electron states (DOS) of a nanocarbon electrode to the redox potential of redox species using electron and hole doping. Along with the results, this article provides guidance on how to match the properties of nanocarbons to specific electroactive analytes, oxygen reduction reaction (ORR), hydrogen evolution reaction (HER), and oxygen evolution reaction (OER).
ISSN:1420-3049

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