Porous MOFs–Zinc Cobaltite/Carbon Composite Nanofibers for High Lithium Storage

Abstract: The zinc cobaltite possesses merit of high theoretical specific capacity. However, issues of low conductivity and volume expansion during lithiation and delithiation lead to severe capacity fading. In this work, a porous zinc cobaltite/carbon composite nanofiber is synthesized with a metal–organic frameworks (MOFs) structure through electrospinning, in situ growth, and hydrothermal reaction. The obtained zinc cobaltite/carbon composite nanofibers have an improved specific surface area (90.61 m2 g‐1), enabling … Show more

“…After 100 cycles, the resistance significantly decreased because of the construction of the stable SEI layer and structure during the Li + de-intercalation process for CFO@C-24. 49 The best electrochemical performance of CFO@C-24 composite nanofibers among other samples was demonstrated by the above-mentioned results. The reasons can be attributed into following aspects: i) the robust porous CrystEngComm Paper structure.…”

“…After 100 cycles, the resistance significantly decreased because of the construction of the stable SEI layer and structure during the Li + de-intercalation process for CFO@C-24. 49…”

Metal–organic framework-derived porous CoFe₂O₄/carbon composite nanofibers for high-rate lithium storage

“…After 100 cycles, the resistance significantly decreased because of the construction of the stable SEI layer and structure during the Li + de-intercalation process for CFO@C-24. 49 The best electrochemical performance of CFO@C-24 composite nanofibers among other samples was demonstrated by the above-mentioned results. The reasons can be attributed into following aspects: i) the robust porous CrystEngComm Paper structure.…”

“…After 100 cycles, the resistance significantly decreased because of the construction of the stable SEI layer and structure during the Li + de-intercalation process for CFO@C-24. 49…”

Metal–organic framework-derived porous CoFe₂O₄/carbon composite nanofibers for high-rate lithium storage

Nanofiber Materials for Lithium-Ion Batteries

Co-coating ZnCo2O4 and carbon on a biomimetic sea anemone-shaped SnO2 mesostructure for high-performance lithium-ion batteries and semi-solid lithium slurry batteries