Sustainable Carbon‐Based Catalyst Materials Derived From Lignocellulosic Biomass for Energy Storage and Conversion: Atomic Modulation and Properties Improvement

Sustainable Carbon‐Based Catalyst Materials Derived From Lignocellulosic Biomass for Energy Storage and Conversion: Atomic Modulation and Properties Improvement

ABSTRACT Carbon electrocatalyst materials based on lignocellulosic biomass with multi‐components, various dimensions, high carbon content, and hierarchical morphology structures have gained great popularity in electrocatalytic applications recently. Due to the catalytic deficiency of neutral carbon...

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Bibliographic Details
Main Authors: Wei Li, Ying Xu, Guanhua Wang, Ting Xu, Kui Wang, Shangru Zhai, Chuanling Si
Format: Article
Language:English
Published: Wiley 2025-05-01
Series:Carbon Energy
Subjects:
atomic modulation
carbon materials
electrocatalysis
lignocellulosic biomass
rechargeable batteries
Online Access:https://doi.org/10.1002/cey2.708
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Summary:ABSTRACT Carbon electrocatalyst materials based on lignocellulosic biomass with multi‐components, various dimensions, high carbon content, and hierarchical morphology structures have gained great popularity in electrocatalytic applications recently. Due to the catalytic deficiency of neutral carbon atoms, the usage of single lignocellulosic‐based carbon materials in electrocatalysis involving energy storage and conversion presents unsatisfactory applicability. However, atomic‐level modulation of lignocellulose‐based carbon materials can optimize the electronic structures, charge separation, transfer processes, and so forth, which results in substantially enhanced electrocatalytic performance of carbon‐based catalysts. This paper reviews the recent advances in the rational design of lignocellulosic‐based carbon materials as electrocatalysts from an atomic‐level perspective, such as self/external heteroatom doping and metal modification. Then, through systematic discussion of the design principles and reaction mechanisms of the catalysts, the applications of the prepared lignocellulosic‐based catalysts in rechargeable batteries and electrocatalysis are reviewed. Finally, the challenges in improving the catalytic performance of lignocellulosic‐based carbon materials as electrocatalysts and the prospects in diverse applications are reviewed. This review contributes to the synthesis strategy of lignocellulose‐based carbon electrocatalysts via atomic‐level modulation, which in turn promotes the lignocellulose valorization for energy storage and conversion.
ISSN:2637-9368

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