New Application of Waste Citrus Maxima Peel-Derived Carbon as an Oxygen Electrode Material for Lithium Oxygen Batteries

Li, Danrong; Wang, Qingzhen; Yao, Ying; Wu, Feng; Yu, Yajuan; Zhang, Cunzhong

doi:10.1021/acsami.8b07212

Cited by 25 publications

(17 citation statements)

References 59 publications

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“…The formation of high specic surface area may be attributed to the fact that KOH, as an activator, can etch light elements to generate a large number of pore structures, and the release of CO 2 , which was generated by the further decomposition of K 2 CO 3 obtained from the reaction of 6KOH + 2C / 2K + 3H 2 + 2K 2 CO 3 , promoted the production of more micropores or ultrapores. 20 With the acceleration of industrialization, large quantities of wastewater are emitted from plastics, textiles, leather, paper, printing, and dye manufacturing plants. It contains a large amount of organic dyes, which is an important factor causing water pollution.…”

Section: Resultsmentioning

confidence: 99%

Porous carbon from tobacco stalk for removal of organic dyes from water

et al. 2019

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Section: Resultsmentioning

confidence: 99%

Porous carbon from tobacco stalk for removal of organic dyes from water

et al. 2019

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“…4 and 5 is immobilized in the carbon framework during activation, resulting in the expansion of carbon. The advantage of potassium activation with carbon and the elimination of the immobilized potassium by rinsing is confirmed by the morphological studies by SEM 305. A three‐dimensional porous activated carbon foam (ACF) with micromesopores is synthesized from pomelo peel by carbonization (500 °C for 5 h/N 2 atm.)…”

Section: Synthesis Of Biomass‐derived Carbon Quantum Dots (Bcqds)mentioning

confidence: 91%

Biomass‐derived Carbon Quantum Dots – A Review. Part 1: Preparation and Characterization

et al. 2021

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The preparation of nanostructured carbon materials from chosen biomass through hydrothermal carbonization and pyrolysis processes by optimizing the reaction conditions is one of the bases for applying the product in certain of the development activities. The finished product more or less reflects the raw material and the way of preparation. Among the many products, carbon quantum dots (CQDs) have gained importance due to their bolstered characteristics and facile preparation. CQDs are zero‐dimensional (0D) nanomaterials which attracted attention in the recent past due to their excellent water solubility, unique optical properties, good electrical conductivity, eco‐friendliness, and biocompatibility. Small‐sized CQDs offer high surface area per unit volume, strong tunable fluorescence, photo‐luminescent emissions, and semiconducting properties. In this paper, identification of ideal raw materials, process parameters being followed in the preparation of CQDs through hydrothermal carbonization and pyrolysis techniques, and the properties of the resultant CQDs commensurate with the nature of process are reviewed.

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“…Similarly, all kinds of biowaste have been carbonized and used as host materials in the cathodes of lithium–sulfur, lithium–selenium, or lithium–oxygen batteries. Within recent years, for example, carbons made from waste materials such as fruit stones or peels, algae, nutshells, soybean hulls, grain waste, other plant waste, saw dust, and lignin have been described in this regard.…”

Section: Electrodesmentioning

confidence: 99%

“…In cases where N‐doping from the carbon precursor is not sufficient, other nitrogen containing precursors like melamine, which can be synthesized from sustainable resources, may be added before carbonization . To decrease the overpotential and increase the efficiency of the ORR/OER, biomass‐based carbons may also be impregnated with metal ions or particles . The remaining synthesis steps are similar to the above‐described processes.…”

Section: Electrodesmentioning

confidence: 99%

Sustainable Battery Materials from Biomass

Liedel

2020

ChemSusChem

114

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Sustainable sources of energy have been identified as a possible way out of today's oil dependency and are being rapidly developed. In contrast, storage of energy to a large extent still relies on heavy metals in batteries. Especially when built from biomass‐derived organics, organic batteries are promising alternatives and pave the way towards truly sustainable energy storage. First described in 2008, research on biomass‐derived electrodes has been taken up by a multitude of researchers worldwide. Nowadays, in principle, electrodes in batteries could be composed of all kinds of carbonized and noncarbonized biomass: On one hand, all kinds of (waste) biomass may be carbonized and used in anodes of lithium‐ or sodium‐ion batteries, cathodes in metal–sulfur or metal–oxygen batteries, or as conductive additives. On the other hand, a plethora of biomolecules, such as quinones, flavins, or carboxylates, contain redox‐active groups that can be used as redox‐active components in electrodes with very little chemical modification. Biomass‐based binders can replace toxic halogenated commercial binders to enable a truly sustainable future of energy storage devices. Besides the electrodes, electrolytes and separators may also be synthesized from biomass. In this Review, recent research progress in this rapidly emerging field is summarized with a focus on potentially fully biowaste‐derived batteries.

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New Application of Waste Citrus Maxima Peel-Derived Carbon as an Oxygen Electrode Material for Lithium Oxygen Batteries

Cited by 25 publications

References 59 publications

Porous carbon from tobacco stalk for removal of organic dyes from water

Porous carbon from tobacco stalk for removal of organic dyes from water

Biomass‐derived Carbon Quantum Dots – A Review. Part 1: Preparation and Characterization

Sustainable Battery Materials from Biomass

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