Applications of Carbon-Based Nanomaterials in Health and Environment: Biosensors, Medicine and Water Treatment

“…7,8 Numerous kinds of graphene-derived materials, including graphene oxide (GO), reduced graphene oxide (rGO), multilayered graphene, graphene composites, and graphene ribbons, have been synthesized for prominent specific applications. [9][10][11] Conventional synthesis methods can be categorized as top-down methods via mechanical exfoliation (utilizing high-speed ball milling, high shear homogenizer, ultrasonication, etc.) and bottom-up synthesis methods (e.g., chemical vapor depositions (CVD), pulse vapor deposition (PVD) and electric arc discharge).…”

Shellac-mediated laser-induced reduced graphene oxide film on paper and fabric: exceptional performance in flexible fuel cell, supercapacitor and electrocardiography applications

“…7,8 Numerous kinds of graphene-derived materials, including graphene oxide (GO), reduced graphene oxide (rGO), multilayered graphene, graphene composites, and graphene ribbons, have been synthesized for prominent specific applications. [9][10][11] Conventional synthesis methods can be categorized as top-down methods via mechanical exfoliation (utilizing high-speed ball milling, high shear homogenizer, ultrasonication, etc.) and bottom-up synthesis methods (e.g., chemical vapor depositions (CVD), pulse vapor deposition (PVD) and electric arc discharge).…”

Shellac-mediated laser-induced reduced graphene oxide film on paper and fabric: exceptional performance in flexible fuel cell, supercapacitor and electrocardiography applications

Graphitization on Natural Biopolymer Shellac: Toward Substrate Independent Coatings and a Recyclable Flexible Heater

Impact of hybridization on specific capacitance in hybrid NiO/V2O5@graphene composites as advanced supercapacitor electrode materials