Add to ORKGLithium metal has emerged as the most prospective candidate for the realization of improved battery systems. However, notorious Li dendrite formation and the huge volume effect during cycling critically impair the further practical deployment of Li metal batteries. Herein, we propose hierarchical Ni- and Co-based oxynitride (NiCoO2/CoO/Ni3N) nanoarrays with superior lithiophilicity on a three-dimensional nickel foam (NiCoON/NF) as a host for highly stable Li metal anodes. The uniform nitrogen-infused nanorod-on-nanosheet arrays present improved electrical conductivity and an increased concentration of active sites with oxygen vacancies to enhance the surface lithiophilicity, which effectively facilitates homogeneous Li nucleation/growth. Mo...
Although various hosts have been proposed to accommodate the Lithium (Li) metal to solve the uneven ...
Nanowire arrays present an excellent candidate for high performance lithium-ion battery electrodes. ...
The key factor to improve the electrochemical performance of Li-O batteries is to find bi-functional...
Lithium metal has emerged as the most prospective candidate for the realization of improved battery ...
The formation and growth of lithium dendrites have dramatically limited the application of lithium m...
Designing oxygen cathodes with both high energy density and excellent cycling stability is a great c...
High-performance anode materials are crucial for developing next-generation high-energy-density lith...
Rechargeable nonaqueous lithium-oxygen (Li-O-2) batteries have been considered a promising power sou...
Rechargeable lithium–oxygen (Li–O<sub>2</sub>) batteries are consequently considered to be an attrac...
Metallic lithium (Li) has been acclaimed as the most promising anode materials for lithium batteries...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
In this study, a non-lithiophilic nickel foam (NF) was transformed into a 3D lithiophilic N-doped gr...
In this work, we report a mild and cost-effective solution method to directly grow Ni-substituted Co...
Cobalt nickel nitrides coated by a thin carbon layer anchoring on nitrogen-doped carbon nanotubes, n...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Although various hosts have been proposed to accommodate the Lithium (Li) metal to solve the uneven ...
Nanowire arrays present an excellent candidate for high performance lithium-ion battery electrodes. ...
The key factor to improve the electrochemical performance of Li-O batteries is to find bi-functional...
Lithium metal has emerged as the most prospective candidate for the realization of improved battery ...
The formation and growth of lithium dendrites have dramatically limited the application of lithium m...
Designing oxygen cathodes with both high energy density and excellent cycling stability is a great c...
High-performance anode materials are crucial for developing next-generation high-energy-density lith...
Rechargeable nonaqueous lithium-oxygen (Li-O-2) batteries have been considered a promising power sou...
Rechargeable lithium–oxygen (Li–O<sub>2</sub>) batteries are consequently considered to be an attrac...
Metallic lithium (Li) has been acclaimed as the most promising anode materials for lithium batteries...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
In this study, a non-lithiophilic nickel foam (NF) was transformed into a 3D lithiophilic N-doped gr...
In this work, we report a mild and cost-effective solution method to directly grow Ni-substituted Co...
Cobalt nickel nitrides coated by a thin carbon layer anchoring on nitrogen-doped carbon nanotubes, n...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Although various hosts have been proposed to accommodate the Lithium (Li) metal to solve the uneven ...
Nanowire arrays present an excellent candidate for high performance lithium-ion battery electrodes. ...
The key factor to improve the electrochemical performance of Li-O batteries is to find bi-functional...