Mg batteries are one of several new battery technologies expected to partially substitute lithium-based batteries in the future due to the lower cost and higher safety. However, the development of Mg batteries has been greatly hindered by the sluggish Mg migration kinetics in the solid state. Here, we exploit a high performance cathode for Mg battery based on a tailored nanocomposite, synthesized by in-situ growth of nanocrystalline Mn3O4 on graphene substrates, which provides high reversible capacities (~ 220 mA h g−1 at 15.4 mA g−1 and ~ 80 mA h g−1 at 1.54 A g−1), good rate performance (high reversibility at various current rates), and excellent cycling stability (no capacity decay after 700 hundred cycles). The magnesiation mechanism in...
A Mn3O4/graphene hybrid material is fabricated using a facile and simple in-situ reduction process a...
Mn3O4/N-doped graphene (Mn3O4/NG) hybrids were synthesized by a simple one-pot hydrothermal process....
As portable electronics and electric vehicles become a more integral part of everyday life, recharge...
Mg batteries are one of several new battery technologies expected to partially substitute lithium-ba...
Considering the improved safety, reduced cost, and high volumetric energy density associated with Mg...
A rechargeable Mg battery where the capacity mainly originates from reversible reactions occurring a...
A rechargeable Mg battery where the capacity mainly originates from reversible reactions occurring a...
Due to drawbacks with the lithium ion battery technology, magnesium ion batteries are being research...
The use of oxide cathodes in Mg batteries would unlock a potential energy storage system that delive...
The use of oxide cathodes in Mg batteries would unlock a potential energy storage system that delive...
The exploration of highly efficient catalysts for the oxygen reduction reaction to improve sluggish ...
Abstract: We developed two-step solution-phase reactions to form hybrid materials of Mn3O4 nanoparti...
Here, we are the first to report a spinel type Mn3O4 as cathode material for Mg-ion battery (MIB) wi...
Rechargeable magnesium batteries (RMBs) are a promising post-lithium battery technology that benefit...
Rechargeable batteries based on magnesium virtually provide high volumetric capacity, safety, and co...
A Mn3O4/graphene hybrid material is fabricated using a facile and simple in-situ reduction process a...
Mn3O4/N-doped graphene (Mn3O4/NG) hybrids were synthesized by a simple one-pot hydrothermal process....
As portable electronics and electric vehicles become a more integral part of everyday life, recharge...
Mg batteries are one of several new battery technologies expected to partially substitute lithium-ba...
Considering the improved safety, reduced cost, and high volumetric energy density associated with Mg...
A rechargeable Mg battery where the capacity mainly originates from reversible reactions occurring a...
A rechargeable Mg battery where the capacity mainly originates from reversible reactions occurring a...
Due to drawbacks with the lithium ion battery technology, magnesium ion batteries are being research...
The use of oxide cathodes in Mg batteries would unlock a potential energy storage system that delive...
The use of oxide cathodes in Mg batteries would unlock a potential energy storage system that delive...
The exploration of highly efficient catalysts for the oxygen reduction reaction to improve sluggish ...
Abstract: We developed two-step solution-phase reactions to form hybrid materials of Mn3O4 nanoparti...
Here, we are the first to report a spinel type Mn3O4 as cathode material for Mg-ion battery (MIB) wi...
Rechargeable magnesium batteries (RMBs) are a promising post-lithium battery technology that benefit...
Rechargeable batteries based on magnesium virtually provide high volumetric capacity, safety, and co...
A Mn3O4/graphene hybrid material is fabricated using a facile and simple in-situ reduction process a...
Mn3O4/N-doped graphene (Mn3O4/NG) hybrids were synthesized by a simple one-pot hydrothermal process....
As portable electronics and electric vehicles become a more integral part of everyday life, recharge...