Nitrogen Ion Implantation-Modified Cu Substrate for Stable Lithium Metal Anode

Abstract: As the only commercialized negative current collector, copper (Cu) foil possesses insurmountable applicational advantages as a lithium metal anode (LMA) substrate. However, the successful usage of Cu foil is limited by the poor Li affinity and crystal face variation, which will lead to severe lithium dendrite growth and poor cyclability. Herein, an industrial-popular ion implantation technique is first adopted for Cu surface modification. With the high-energy implantations of N+ plasma, the unique N-rich trans… Show more

“…19,20 Among the strategies, fabricating a 3D Li metal anode can provide a large space to lower local current density and accommodate Li deposition, thereby decreasing the probability of Li dendrite formation. 21–23 Therefore, this strategy has great application potential, whereas the commonly used 3D skeletons are mostly lithiophobic, such as Ni foam, 24 Cu foam, 25 carbon nanotubes, 26 and carbon cloth (CC). 17,27 Introducing lithiophilic nanoarrays, including nanospheres, nanowires, and nanorods, onto the surface of a 3D skeleton is often performed to provide a larger surface area and physical space as well as to improve their lithiophilicity.…”

Co/Li₂S of chemical confinement decorated electrochemically stable Co(OH)F nanoarrays enabling dendrite-free flexible 3D Li anodes

“…19,20 Among the strategies, fabricating a 3D Li metal anode can provide a large space to lower local current density and accommodate Li deposition, thereby decreasing the probability of Li dendrite formation. 21–23 Therefore, this strategy has great application potential, whereas the commonly used 3D skeletons are mostly lithiophobic, such as Ni foam, 24 Cu foam, 25 carbon nanotubes, 26 and carbon cloth (CC). 17,27 Introducing lithiophilic nanoarrays, including nanospheres, nanowires, and nanorods, onto the surface of a 3D skeleton is often performed to provide a larger surface area and physical space as well as to improve their lithiophilicity.…”

Co/Li₂S of chemical confinement decorated electrochemically stable Co(OH)F nanoarrays enabling dendrite-free flexible 3D Li anodes

Optimization of Ferroelectric Properties of HfO₂-Based Thin Films by Ion Irradiation