Author(s): Rahmatinejad J; Liu X; Raisi B; Ye Z;
Magnesium-ion batteries (MIBs) and dual-salt magnesium/lithium-ion batteries (MLIBs) have emerged as promising contenders for next-generation energy storage. In contrast to lithium metal anode in lithium metal batteries, magnesium metal anode in MIBs and MLIBs presents a safer alternative due to the limited dendrite growth and higher volumetric capacity, ...
Article GUID: 38698578
Author(s): Raisi B; Liu X; Rahmatinejad J; Ye Z;
Two-dimentional (2D) Ti3 C2 Tx MXene has attracted significant attention in non-lithium-ion batteries due to its excellent electrical conductivity, high volumetric capacity, and ability to accommodate intercalants. Rechargeable magnesium batteries with Mg metal anodes are noted for their high theoretical energy density, potential safety, earth abundance, ...
Article GUID: 38327158
Author(s): Rahmatinejad J; Raisi B; Liu X; Zhang X; Sadeghi Chevinli A; Yang L; Ye Z;
Dual-salt magnesium/lithium-ion batteries (MLIBs) benefit from fast lithium ion diffusion on the cathode side while providing safety due to the dendrite-free Mg2+ stripping/plating mechanism on the anode side. Bulk MoS2 (B-MoS2 ), as a cathode for magnesium-ion batteries (MIBs), suffers from low conductivity and relatively van der Waals gaps and, conseque ...
Article GUID: 37691015
Author(s): Yue R; Raisi B; Rahmatinejad J; Ye Z; Barbeau B; Rahaman MS;
Membrane fouling is an ongoing challenge in the membrane filtration process. Herein, a photocatalytic membrane comprising a reactive layer was fabricated by engineering partially reduced graphene oxide/Ag nanoparticles/MIL-88A (prGO/Ag/M88A, pGAM) photocatalysts on the PVDF substrate membranes. Benefiting from the high conductivity of prGO and the surface ...
Article GUID: 34273782
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