Revisiting the Electrocatalyst Role on Lignin Depolymerization

IF 6.2 Q2 ENERGY & FUELS

Advanced Energy and Sustainability Research Pub Date : 2024-07-23 DOI:10.1002/aesr.202400130

Lucie M. Lindenbeck, Vanessa C. Barra, Björn B. Beele, Bruno V. M. Rodrigues, Adam Slabon

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Abstract

Replacing fossil resources as the primary source of carbon-based chemicals by alternative feedstocks, while implementing more sustainable production routes, has become imperative for environmental and resource sustainability. In this context, lignin, often treated as a biomass waste, emerges as an appealing candidate, considering the principles of circular economy. For this pursuit, depolymerization methods offer potential strategies to harness lignin to produce valuable organic chemicals, while electrocatalysis processes stand out especially in the context of sustainability, as they can be powered by electricity from renewable sources. This minireview article explores the pivotal role of various electrocatalysts in lignin depolymerization, investigating both oxidative and reductive pathways. Emphasizing recent advancements, the review delves into the diverse nature of electrocatalysts and their influence on lignin valorization. Highlighting current trends, the discussion encompasses the catalytic mechanisms and selectivity of electrochemical processes employed for lignin breakdown. Additionally, some insights into emerging technologies are also offered, emphasizing the need for sustainable and efficient strategies. By providing an overview of the field, this minireview aims to guide future research endeavors toward innovative electrocatalytic approaches for lignin depolymerization, paving the way for sustainable biorefinery processes.

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重新审视电催化剂在木质素解聚过程中的作用

以替代原料取代化石资源作为碳基化学品的主要来源，同时采用更具可持续性的生产路线，已成为环境和资源可持续性的当务之急。在这种情况下，考虑到循环经济的原则，通常被视为生物质废弃物的木质素成为了一个有吸引力的候选原料。为实现这一目标，解聚方法提供了利用木质素生产有价值有机化学品的潜在策略，而电催化过程则可利用可再生能源发电，因此在可持续发展方面尤为突出。这篇微型综述文章探讨了各种电催化剂在木质素解聚过程中的关键作用，研究了氧化和还原途径。文章强调了最新进展，深入探讨了电催化剂的多样性及其对木质素价值化的影响。在强调当前趋势的同时，还讨论了木质素分解所采用的电化学工艺的催化机理和选择性。此外，还对新兴技术提出了一些见解，强调了可持续和高效战略的必要性。通过对该领域的概述，本微型综述旨在引导未来的研究工作朝着创新的木质素解聚电催化方法发展，为可持续的生物精炼工艺铺平道路。

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来源期刊

Advanced Energy and Sustainability Research

CiteScore

8.20

自引率

3.40%

发文量

期刊介绍： Advanced Energy and Sustainability Research is an open access academic journal that focuses on publishing high-quality peer-reviewed research articles in the areas of energy harvesting, conversion, storage, distribution, applications, ecology, climate change, water and environmental sciences, and related societal impacts. The journal provides readers with free access to influential scientific research that has undergone rigorous peer review, a common feature of all journals in the Advanced series. In addition to original research articles, the journal publishes opinion, editorial and review articles designed to meet the needs of a broad readership interested in energy and sustainability science and related fields. In addition, Advanced Energy and Sustainability Research is indexed in several abstracting and indexing services, including： CAS: Chemical Abstracts Service (ACS) Directory of Open Access Journals (DOAJ) Emerging Sources Citation Index (Clarivate Analytics) INSPEC (IET) Web of Science (Clarivate Analytics).