Polyoxometalate-based Cu/Zn-MOFs with diverse stereo dimensions as anode materials in lithium ion batteries

“…Four recent polyoxometalate‐based MOFs (namely, NAU3/4/5/6 with different morphologies) have been proposed for the anode material of LIBs 44 . All four NAUs (NAU3 through 6) were shown to have some improvement in their electrochemical performance to retain stable reversible capacities of 575.8, 435.5, 314.8, and 362 mAhg −1 respectively 44 .…”

“…Four recent polyoxometalate‐based MOFs (namely, NAU3/4/5/6 with different morphologies) have been proposed for the anode material of LIBs 44 . All four NAUs (NAU3 through 6) were shown to have some improvement in their electrochemical performance to retain stable reversible capacities of 575.8, 435.5, 314.8, and 362 mAhg −1 respectively 44 . NAU3 retained high reversible capacity than other three because the electrochemical performances depend on the combined effects of various factors (eg, coordinated metals centres [Cu + and Zn 2+ ], redox activity of the cluster anions, and azacycle coordination ability with Li + ).…”

Metal‐ organic frameworks and their derivatives as anode material in lithium‐ion batteries: Recent advances towards novel configurations

“…Four recent polyoxometalate‐based MOFs (namely, NAU3/4/5/6 with different morphologies) have been proposed for the anode material of LIBs 44 . All four NAUs (NAU3 through 6) were shown to have some improvement in their electrochemical performance to retain stable reversible capacities of 575.8, 435.5, 314.8, and 362 mAhg −1 respectively 44 .…”

“…Four recent polyoxometalate‐based MOFs (namely, NAU3/4/5/6 with different morphologies) have been proposed for the anode material of LIBs 44 . All four NAUs (NAU3 through 6) were shown to have some improvement in their electrochemical performance to retain stable reversible capacities of 575.8, 435.5, 314.8, and 362 mAhg −1 respectively 44 . NAU3 retained high reversible capacity than other three because the electrochemical performances depend on the combined effects of various factors (eg, coordinated metals centres [Cu + and Zn 2+ ], redox activity of the cluster anions, and azacycle coordination ability with Li + ).…”

Metal‐ organic frameworks and their derivatives as anode material in lithium‐ion batteries: Recent advances towards novel configurations

“…This structure allows improving the electrical conductivity and acts as a buffer medium to alleviate the volume change [128]. Furthermore, it allows the development of new polyoxometalate-based metal-organic frameworks (POMOFs) of NAU3-6 with various architectural features [129].…”

Recent Advances on Materials for Lithium-Ion Batteries

“…Polyoxometalates (POMs), one kind of nanoscale metal oxygen clusters, [15][16][17] have been considered to be promising candidates as electrode materials for LIBs, due to the multielectron redox properties, high theoretical capacities, and electron storage abilities. [18][19][20][21] In 2011, classical Keggin-type [PMo 12 O 40 ] 3À as the cathode material was studied for the first time, [8] then [PMo 12 O 40 ] 3À was found to undergo a reversible 24 electrons redox during the charging/discharging. [23,24] How to design and construct a perfect composite with the advantages of POMs, CoS 2 /MoS 2 , and highly conductive substrates?…”

Nanohybridization of CoS₂/MoS₂ Heterostructure with Polyoxometalate on Functionalized Reduced Graphene Oxide for High‐Performance LIBs