2022
DOI: 10.1002/cnl2.29
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Lignin‐derived carbon materials for catalysis and electrochemical energy storage

Abstract: Lignin is abundant in green biomass. However, most of the lignin remains to be utilized. Lignin-derived carbons (LDCs) provide a feasible approach for lignin valorization. Owing to the coupling merits of low cost, tunable morphologies, and high porosity, LDC materials have drawn extensive attention in the fields of catalysis and electrochemical energy storage. This review summarizes the recent advances in LDC materials and their applications in catalysis, supercapacitors, and secondary batteries. The bottlenec… Show more

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Cited by 21 publications
(13 citation statements)
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“…The increasing consumption of fossil resources aggravates environmental pollution and energy shortage, which make it imminent for the exploration of green and sustainable resources. [ 44 ] Biomass‐derived carbon‐based materials have become an attractive research hotspot in the SC field due to their multiple advantages in terms of natural abundance, low cost, no toxicity, renewability, and tunable pore structure of AC products. More importantly, recycling biomass is also an effective and strategic measure to cope with environmental pollution and to reduce biowastes.…”
Section: Ac‐based Electrode Materialsmentioning
confidence: 99%
“…The increasing consumption of fossil resources aggravates environmental pollution and energy shortage, which make it imminent for the exploration of green and sustainable resources. [ 44 ] Biomass‐derived carbon‐based materials have become an attractive research hotspot in the SC field due to their multiple advantages in terms of natural abundance, low cost, no toxicity, renewability, and tunable pore structure of AC products. More importantly, recycling biomass is also an effective and strategic measure to cope with environmental pollution and to reduce biowastes.…”
Section: Ac‐based Electrode Materialsmentioning
confidence: 99%
“…[ 1–4 ] Considering the great impact of cathode on the electrochemical property of battery, tremendous efforts have been devoted to designing high‐performance positive electrode materials. [ 5–8 ] Layered transition metal oxides Na x TMO 2 (TM refers to transition metals, such as Ni, Mn, Fe, Co, Ti, Cu, etc.) are considered one of the most promising candidates owing to their tunable operating voltage, high reversible specific capacities, and easy preparation.…”
Section: Introductionmentioning
confidence: 99%
“…and precise chelating ligands with transition metal precursors. This can not only improve the dispersion of metal nanoparticles but also provide spatial resistance to them. , In addition, there is a strong chemical bonding between the modified lignin and metal, which results in a tighter bond and enhanced electron transport capacity.…”
Section: Introductionmentioning
confidence: 99%