An overview of supercapacitors electrode materials based on metal organic frameworks and future perspectives

“…69,80,81,87 A comparison of electrochemical performance metrics between previously reported similar composite electrodes and those of this work for hybrid supercapacitors is presented in Table 1. 88,89 Two-electrode and three-electrode cyclic voltammograms and galvanostatic charge-discharge plots of studied composites and Matrimid electrodes after carbonization and activation are also presented in Fig. S9-S15 with performance metrics in Tables S1-S4 (ESI †).…”

Carbon fiber composite electrodes derived from metal organic polyhedra-18 and matrimid for hybrid supercapacitors

“…69,80,81,87 A comparison of electrochemical performance metrics between previously reported similar composite electrodes and those of this work for hybrid supercapacitors is presented in Table 1. 88,89 Two-electrode and three-electrode cyclic voltammograms and galvanostatic charge-discharge plots of studied composites and Matrimid electrodes after carbonization and activation are also presented in Fig. S9-S15 with performance metrics in Tables S1-S4 (ESI †).…”

Carbon fiber composite electrodes derived from metal organic polyhedra-18 and matrimid for hybrid supercapacitors

“…136,137 The meticulous selection of metal ions and organic ligands is pivotal in achieving a homogeneous dispersion of metal atoms devoid of aggregation. [138][139][140] Notably, functionalized organic linkers exhibit robust coordination and anchoring abilities with noble metal ions, effectively stabilizing noble metal single atoms. [141][142][143][144][145] These organic linkers feature electron-rich donor atoms that coordinate with the target atoms or functional groups (e.g., free amine groups).…”

Metal–organic framework-derived single-atom catalysts for electrocatalytic energy conversion applications

“…Methods used to produce other advanced energy storage devices including manufacturing process of porous carbon materials [102][103][104][105][106] and manufacturing process of foam metal [107][108][109][110] may be used to make GDL. Friction-stir processing, a surface modification technique for improving material surface characteristics, can be used to treat the surface of GDL.…”

A review on gas diffusion layer in proton exchange membrane fuel cell: Materials and manufacturing