Self‐Supported CuO In‐Situ‐Grown on Copper Foil as Binder‐Free Anode for Lithium‐Ion Batteries

Abstract: Transition metal oxides as anode materials for lithium‐ion batteries (LIBs) possess the advantages of high specific capacity and abundance. However, most reported transition metal oxides based active anode materials were coated on the copper current collector with the addition of inactive polymer binder and conductive agents, resulting in low utilization of active substances. To solve this problem, nanostructured CuO with different morphologies (CuO bunches, CuO nanosheets, CuO nanotubes) were in‐situ grown on… Show more

“…[29] Binders are commonly used to adhere the active materials in the electrode, however, they can hinder the electron transfer during the discharge/charge process. [30][31] In recent years, extensive research has been conducted on in situ growth of nanoarrays on metal substrates with particular focus on nickel foam (NF), iron foam (IF), and copper foam (CF). [32][33][34] The direct growth of active materials on high-conductivity substrates ensures intimate interaction between active materials and current collectors, effectively avoiding the influence of the insulating binders.…”

“…Binders are commonly used to adhere the active materials in the electrode, however, they can hinder the electron transfer during the discharge/charge process [30–31] . In recent years, extensive research has been conducted on in situ growth of nanoarrays on metal substrates with particular focus on nickel foam (NF), iron foam (IF), and copper foam (CF) [32–34] .…”

Cobalt Oxide Arrays Anchored to Copper Foam as Efficient Binder‐free Anode for Lithium Ion Batteries

“…[29] Binders are commonly used to adhere the active materials in the electrode, however, they can hinder the electron transfer during the discharge/charge process. [30][31] In recent years, extensive research has been conducted on in situ growth of nanoarrays on metal substrates with particular focus on nickel foam (NF), iron foam (IF), and copper foam (CF). [32][33][34] The direct growth of active materials on high-conductivity substrates ensures intimate interaction between active materials and current collectors, effectively avoiding the influence of the insulating binders.…”

“…Binders are commonly used to adhere the active materials in the electrode, however, they can hinder the electron transfer during the discharge/charge process [30–31] . In recent years, extensive research has been conducted on in situ growth of nanoarrays on metal substrates with particular focus on nickel foam (NF), iron foam (IF), and copper foam (CF) [32–34] .…”

Cobalt Oxide Arrays Anchored to Copper Foam as Efficient Binder‐free Anode for Lithium Ion Batteries

“…In order to overcome the issues of transition metal oxides, many methods have been adopted to prepare transition metal oxides by modifying or controlling the morphology ( Qiu et al, 2019 ; Liu et al, 2022 ; Zhao et al, 2022 ).…”

Facile synthesis of nanosized Mn3O4 powder anodes for high capacity Lithium-Ion battery via flame spray pyrolysis

In-situ vertical growth of integrated CuO@Cu electrode for enhanced Li-ion storage kinetics