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New frontier of hybrid energy storage devices: evolution of capacitive mechanisms and escalation of nanocomposite materials. [PDF]
RSC AdvFarsi S +4 more
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Knittable, thermally insulating, and sustainable aerogel fibers enabled by ion-mediated hierarchical assembly. [PDF]
Nat CommunXiao G +17 more
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Nanoremediation of arsenic from contaminated water by new generation graphene-based nanomaterials: a comprehensive review. [PDF]
RSC AdvAkhtar MS +9 more
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Hydrothermally reduced nano porous graphene–polyaniline nanofiber composites for supercapacitor
FlatChem, 2017Abstract Hydrothermally reduced porous graphene (PGs) and polyaniline (PANI) nanofiber composites (PGs–PANI) were prepared by interfacial polymerization of aniline in the presence of reduced porous graphene (PGs) under acidic conditions. Hydrothermal reduction of graphene oxide (GO) produced graphene quantum dots (GQDs) along with porous reduced ...
Mrinmoy Kumar Chini, Shyambo Chatterjee
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Applications of nano-porous graphene materials – critical review on performance and challenges
Materials Horizons, 2020A critical review on the potential of nano-porous graphene materials, their key structural and physicochemical properties for applications in the areas of separation and sensing and energy storage.
Albert Guirguis +6 more
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Biosensors and Bioelectronics, 2023
Wearable electrochemical biosensors for perspiration analysis offer a promising non-invasive biomarker monitoring method. Herein, a functionalized hybridized nanoporous carbon (H-NPC)-encapsulated flexible 3D porous graphene-based epidermal patch was firstly fabricated for monitoring sweat glucose, lactate, pH, and temperature using simple, cost ...
Md Asaduzzaman +7 more
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Wearable electrochemical biosensors for perspiration analysis offer a promising non-invasive biomarker monitoring method. Herein, a functionalized hybridized nanoporous carbon (H-NPC)-encapsulated flexible 3D porous graphene-based epidermal patch was firstly fabricated for monitoring sweat glucose, lactate, pH, and temperature using simple, cost ...
Md Asaduzzaman +7 more
openaire +4 more sources
Applied Surface Science, 2013
Abstract A few-layer graphene was obtained by the expansion and exfoliation of water-intercalated graphene oxide via heat treatment in nitrogen environment in the temperature range of 200–1000 °C. Graphene which was synthesized at 800 °C (GT800) had a higher quality than other temperatures. This graphene has a high specific surface area (560.6 m2 g−1)
Razieh Jabari Seresht +3 more
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Abstract A few-layer graphene was obtained by the expansion and exfoliation of water-intercalated graphene oxide via heat treatment in nitrogen environment in the temperature range of 200–1000 °C. Graphene which was synthesized at 800 °C (GT800) had a higher quality than other temperatures. This graphene has a high specific surface area (560.6 m2 g−1)
Razieh Jabari Seresht +3 more
openaire +3 more sources