Agnes-Matilda Mattsson

Investigating the Electrochemical Intercalation of Lithium into Prussian White

Mattsson, Agnes-Matilda

2023

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Unravelling the origin of capacity fade in Prussian white hard carbon full cells through operando X-ray diffraction

Nielsen, Ida; Hall, Charles Aram; Mattsson, Agnes-Matilda; Younesi, Reza et al.

Ingår i Journal of Materials Chemistry A, s. 17413-17421, 2024

• DOI för Unravelling the origin of capacity fade in Prussian white hard carbon full cells through operando X-ray diffraction
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Study of degradation mechanisms in aqueous-processed Ni-rich cathodes for enhanced sustainability of batteries

Chen, Heyin; Mattsson, Agnes-Matilda; King, Laura; Liu, Haidong et al.

Ingår i Journal of Materials Chemistry A, s. 25393-25406, 2024

• DOI för Study of degradation mechanisms in aqueous-processed Ni-rich cathodes for enhanced sustainability of batteries
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Reversible Hydration Enabling High-Rate Aqueous Li-Ion Batteries

Zhang, Leiting; Kühling, Franziska; Mattsson, Agnes-Matilda; Knijff, Lisanne et al.

Ingår i ACS Energy Letters, s. 959-966, 2024

• DOI för Reversible Hydration Enabling High-Rate Aqueous Li-Ion Batteries
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Investigating the Electrochemical Intercalation of Lithium into Prussian White

Mattsson, Agnes-Matilda

2023

• Ladda ner fulltext (pdf) av Investigating the Electrochemical Intercalation of Lithium into Prussian White

Surface Engineering of Aqueous-Processed Ni-Rich Cathodes for Enhanced Long-Term Capacity Retention

Chen, Heyin; Kahnt, Maik; Mikheenkova, Anastasiia; Chen, Huaiyu et al.

Unravelling the origin of capacity fade in Prussian white hard carbon full cells through operando X-ray diffraction

Nielsen, Ida; Hall, Charles Aram; Mattsson, Agnes-Matilda; Younesi, Reza et al.

Ingår i Journal of Materials Chemistry A, s. 17413-17421, 2024

• DOI för Unravelling the origin of capacity fade in Prussian white hard carbon full cells through operando X-ray diffraction
• Ladda ner fulltext (pdf) av Unravelling the origin of capacity fade in Prussian white hard carbon full cells through operando X-ray diffraction

Study of degradation mechanisms in aqueous-processed Ni-rich cathodes for enhanced sustainability of batteries

Chen, Heyin; Mattsson, Agnes-Matilda; King, Laura; Liu, Haidong et al.

Ingår i Journal of Materials Chemistry A, s. 25393-25406, 2024

• DOI för Study of degradation mechanisms in aqueous-processed Ni-rich cathodes for enhanced sustainability of batteries
• Ladda ner fulltext (pdf) av Study of degradation mechanisms in aqueous-processed Ni-rich cathodes for enhanced sustainability of batteries

Reversible Hydration Enabling High-Rate Aqueous Li-Ion Batteries

Zhang, Leiting; Kühling, Franziska; Mattsson, Agnes-Matilda; Knijff, Lisanne et al.

Ingår i ACS Energy Letters, s. 959-966, 2024

• DOI för Reversible Hydration Enabling High-Rate Aqueous Li-Ion Batteries
• Ladda ner fulltext (pdf) av Reversible Hydration Enabling High-Rate Aqueous Li-Ion Batteries

Surface Engineering of Aqueous-Processed Ni-Rich Cathodes for Enhanced Long-Term Capacity Retention

Chen, Heyin; Kahnt, Maik; Mikheenkova, Anastasiia; Chen, Huaiyu et al.