2019
DOI: 10.1021/acs.est.9b01453
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Next-Generation Multifunctional Carbon–Metal Nanohybrids for Energy and Environmental Applications

Abstract: Nanotechnology has unprecedentedly revolutionized human societies over the past decades and will continue to advance our broad societal goals in the coming decades. The research, development, and particularly the application of engineered nanomaterials have shifted the focus from "less efficient" single-component nanomaterials toward "superior-performance", nextgeneration multifunctional nanohybrids. Carbon nanomaterials (e.g., carbon nanotubes, graphene family nanomaterials, carbon dots, and graphitic carbon … Show more

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Cited by 126 publications
(51 citation statements)
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“…Among a variety of materials that are selected for the preparation of TiO2-based nanocomposites to increase their photocatalytic efficiency, nanostructured carbon materials, such as carbon nanotubes and graphene family nanomaterials (e.g., GO, rGO, g-C3N4), are of particular interest [114]. The advantages, such as chemical stability, structural diversity with prominent light-absorptive, and electron transport properties, make them promising materials for use in photocatalytic H2 generation by the water splitting processes [115]. After briefly providing the basic principles to fully understand the H 2 evolution through photocatalytic water splitting, following sections are more focused on the recent achievements in fabrication and the evaluation of different TiO 2 -based heterojunctions with different families of materials, including carbon-based, transition metal oxides and chalcogenides, and multiple-based composites consisting of three or more semiconductor materials for H 2 generation.…”
Section: Carbon-based/tio2mentioning
confidence: 99%
See 1 more Smart Citation
“…Among a variety of materials that are selected for the preparation of TiO2-based nanocomposites to increase their photocatalytic efficiency, nanostructured carbon materials, such as carbon nanotubes and graphene family nanomaterials (e.g., GO, rGO, g-C3N4), are of particular interest [114]. The advantages, such as chemical stability, structural diversity with prominent light-absorptive, and electron transport properties, make them promising materials for use in photocatalytic H2 generation by the water splitting processes [115]. After briefly providing the basic principles to fully understand the H 2 evolution through photocatalytic water splitting, following sections are more focused on the recent achievements in fabrication and the evaluation of different TiO 2 -based heterojunctions with different families of materials, including carbon-based, transition metal oxides and chalcogenides, and multiple-based composites consisting of three or more semiconductor materials for H 2 generation.…”
Section: Carbon-based/tio2mentioning
confidence: 99%
“…Among a variety of materials that are selected for the preparation of TiO 2 -based nanocomposites to increase their photocatalytic efficiency, nanostructured carbon materials, such as carbon nanotubes and graphene family nanomaterials (e.g., GO, rGO, g-C 3 N 4 ), are of particular interest [114]. The advantages, such as chemical stability, structural diversity with prominent light-absorptive, and electron transport properties, make them promising materials for use in photocatalytic H 2 generation by the water splitting processes [115].…”
Section: Carbon-based/tiomentioning
confidence: 99%
“…Advancements in NP synthesis have allowed for incorporation of multifunctionality and invoking unique properties at the nano-scale (Aich et al, 2014(Aich et al, , 2017Wang et al, 2019). While there are multiple opportunities where nanotechnology can be integrated and can bring unique advantages to the aquaculture sector, integration of the knowledge of NPs' potential for adverse effects on organism and environmental health is warranted (Aich et al, 2017;Lead et al, 2018;Saleh et al, 2014Saleh et al, , 2015.…”
Section: The " Safe T Y By De S I G N " Par Ad I G Mmentioning
confidence: 99%
“…Graphite-phase carbon nitride (g-C 3 N 4 ) is a nonmetallic, polymer semiconductor photocatalytic catalyst that has many advantages, including small band gap width of 2.7 eV, visible light photocatalytic activity, low cost, good acid and alkali corrosion resistance, and excellent chemical and thermal stabilities [20,29,[62][63][64]. However, the low separation efficiency of photogenerated electron-hole pairs and poor visible-light utilization efficiency of g-C 3 N 4 limit its applications in PC [65].…”
Section: Graphite-phase Carbon Nitride and Its Complexmentioning
confidence: 99%