Use of Hydrothermal Carbonization to Improve the Performance of Biowaste-Derived Hard Carbons in Sodium Ion-Batteries

Nekane Nieto¹, Julien Porte², Damien Saurel³, Lisa Djuandhi⁴, Neeraj Sharma⁴, Alexander Lopez-Urionabarrenechea², Verónica Palomares^{1

5}, Teófilo Rojo¹

Affiliations

¹ Organic and Inorganic Chemistry Department, Science and Technology Faculty, University of the Basque Country UPV/EHU, P.O. Box 644, 48080, Bilbao, Spain.
² Chemical and Environmental Engineering Department, University of the Basque Country UPV/EHU, Plaza Ingeniero Torres Quevedo 1, 48013, Bilbao, Spain.
³ Center for Cooperative Research on Alternative Energies (CIC energiGUNE), Basque Research and Technology Alliance (BRTA) Parque Tecnológico de Álava, Albert Einstein 48, 01510, Miñano, Spain.
⁴ School of Chemistry, University of New South Wales, Sydney, NSW, 2052, Australia.
⁵ BCMaterials, Basque Center for Materials, Applications and Nanostructures, UPV/EHU Science Park, 48940, Leioa, Spain.

PMID: 37532675
DOI: 10.1002/cssc.202301053

Use of Hydrothermal Carbonization to Improve the Performance of Biowaste-Derived Hard Carbons in Sodium Ion-Batteries

Nekane Nieto et al. ChemSusChem. 2023.

. 2023 Dec 7;16(23):e202301053.

doi: 10.1002/cssc.202301053. Epub 2023 Sep 7.

Authors

Nekane Nieto¹, Julien Porte², Damien Saurel³, Lisa Djuandhi⁴, Neeraj Sharma⁴, Alexander Lopez-Urionabarrenechea², Verónica Palomares^{1

5}, Teófilo Rojo¹

Affiliations

¹ Organic and Inorganic Chemistry Department, Science and Technology Faculty, University of the Basque Country UPV/EHU, P.O. Box 644, 48080, Bilbao, Spain.
² Chemical and Environmental Engineering Department, University of the Basque Country UPV/EHU, Plaza Ingeniero Torres Quevedo 1, 48013, Bilbao, Spain.
³ Center for Cooperative Research on Alternative Energies (CIC energiGUNE), Basque Research and Technology Alliance (BRTA) Parque Tecnológico de Álava, Albert Einstein 48, 01510, Miñano, Spain.
⁴ School of Chemistry, University of New South Wales, Sydney, NSW, 2052, Australia.
⁵ BCMaterials, Basque Center for Materials, Applications and Nanostructures, UPV/EHU Science Park, 48940, Leioa, Spain.

PMID: 37532675
DOI: 10.1002/cssc.202301053

Abstract

Over the last years, hard carbon (HC) has been the most promising anode material for sodium-ion batteries due to its low voltage plateau, low cost and sustainability. In this study, biomass waste (spent coffee grounds, sunflower seed shells and rose stems) was investigated as potential material for hard carbon preparation combining a two-step method consisting of on hydrothermal carbonization (HTC), to remove the inorganic impurities and increase the carbon content, and a subsequent pyrolysis process. The use of HTC as pretreatment prior to pyrolysis improves the specific capacity in all the materials compared to the ones directly pyrolyzed by more than 100 % at high C-rates. The obtained capacity ranging between 210 and 280 mAh g^-1 at C/15 is similar to the values reported in literature for biomass-based hard carbons. Overall, HC obtained from sunflower seed shell performs better than that obtained from the other precursors with an initial Coulombic efficiency (ICE) of 76 % and capacities of 120 mAh g^-1 during 1000 cycles at C with a high capacity retention of 86-93 %.

Keywords: biomass; hard carbon; hydrothermal carbonization; negative electrode; sodium-ion battery.

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References

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Use of Hydrothermal Carbonization to Improve the Performance of Biowaste-Derived Hard Carbons in Sodium Ion-Batteries

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Use of Hydrothermal Carbonization to Improve the Performance of Biowaste-Derived Hard Carbons in Sodium Ion-Batteries

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Abstract

References

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