Metal–organic framework–carbon allotrope composites as emerging effective and superdurable nanofillers: progress in design and application

“…GO, well known for its exibility, makes MOF/GO composites well-suited for integration into exible and wearable electronics, 157 and smart supercapacitors based on these composites can be conformably integrated into various form factors, enabling applications in Internet of Things (IoT) devices (i.e. Articially Intelligent devices), 158,159 renewable energy 160 and beyond. [161][162][163] Fu et al synthesized a metal organic framework (UiO-66), as an illustration, based on zirconium and inscribed onto a carbon nanotube membrane (CNTF), which is referred to as 66-C. 164 Aer that, PEDOT-GO or poly(3,4-ethylenedioxythiophene)graphene oxide (PGO) was codeposited electrochemically on 66-C to obtain a porous electrode that was extensible (PGO@66C), which had excellent properties for exible supercapacitors.…”

“…GO, well known for its flexibility, makes MOF/GO composites well-suited for integration into flexible and wearable electronics, 157 and smart supercapacitors based on these composites can be conformably integrated into various form factors, enabling applications in Internet of Things (IoT) devices ( i.e. Artificially Intelligent devices), 158,159 renewable energy 160 and beyond. 161–163…”

MOF/graphene oxide based composites in smart supercapacitors: a comprehensive review on the electrochemical evaluation and material development for advanced energy storage devices

“…GO, well known for its exibility, makes MOF/GO composites well-suited for integration into exible and wearable electronics, 157 and smart supercapacitors based on these composites can be conformably integrated into various form factors, enabling applications in Internet of Things (IoT) devices (i.e. Articially Intelligent devices), 158,159 renewable energy 160 and beyond. [161][162][163] Fu et al synthesized a metal organic framework (UiO-66), as an illustration, based on zirconium and inscribed onto a carbon nanotube membrane (CNTF), which is referred to as 66-C. 164 Aer that, PEDOT-GO or poly(3,4-ethylenedioxythiophene)graphene oxide (PGO) was codeposited electrochemically on 66-C to obtain a porous electrode that was extensible (PGO@66C), which had excellent properties for exible supercapacitors.…”

“…GO, well known for its flexibility, makes MOF/GO composites well-suited for integration into flexible and wearable electronics, 157 and smart supercapacitors based on these composites can be conformably integrated into various form factors, enabling applications in Internet of Things (IoT) devices ( i.e. Artificially Intelligent devices), 158,159 renewable energy 160 and beyond. 161–163…”

MOF/graphene oxide based composites in smart supercapacitors: a comprehensive review on the electrochemical evaluation and material development for advanced energy storage devices

Organic and inorganic nanofillers for polymer nanocomposites

Heteroatoms-doped carbon dots: Fundamental, properties, coordination bonding and corrosion protection