Water‐Soluble Fluorescent Carbon Quantum Dots and Photocatalyst Design

Abstract: Carbon nanostructures are attracting intense interest because of their many unique and novel properties. The strong and tunable luminescence of carbon materials further enhances their versatile properties; in particular, the quantum effect in carbon is extremely important both fundamentally and technologically. [1][2][3][4] Recently, photoluminescent carbonbased nanoparticles have received much attention. They are usually prepared by laser ablation of graphite, electrochemical oxidation of graphite, electroche… Show more

“…These properties have led to a series of potential applications as in light emitting diodes [2,3], solar cells [4,5], sensing [6], catalysis [7], integration in photovoltaic devices etc. [8] and more importantly to a possible breakthrough in biosensing, bioimaging [9][10][11][12][13] and medical diagnosis [14].…”

Successful entrapment of carbon dots within flexible free-standing transparent mesoporous organic-inorganic silica hybrid films for photonic applications

“…These properties have led to a series of potential applications as in light emitting diodes [2,3], solar cells [4,5], sensing [6], catalysis [7], integration in photovoltaic devices etc. [8] and more importantly to a possible breakthrough in biosensing, bioimaging [9][10][11][12][13] and medical diagnosis [14].…”

Successful entrapment of carbon dots within flexible free-standing transparent mesoporous organic-inorganic silica hybrid films for photonic applications

“…However, the large scale preparation and surface passivation of C-dots are still expected to provide highly fluorescent C-dots by using economical and facile approaches. Up to now, various carbon sources have been used to prepare C-dots such as laser ablation of graphite [19,20], electrochemical treatment of graphite [21], commercial activated carbon by bottom-up method [9], heating carbohydrate, watermelon peels or PEG with microwave pyrolysis [22][23][24]. The prepared C-dots are highly water-soluble, nano-sized and multi-colourful.…”

Enhanced photoluminescence and characterization of multicolor carbon dots using plant soot as a carbon source

“…Here, we are reporting a new material with improved TiO 2 photocatalytic activity under UV light, by using a light absorber material, carbon nanoparticles (C-dots), to form TiO 2 composites. The synthesized composite is a natural progression from the results reported by Li et al [8] who mixed carbon quantum dots (CQDs) with TiO 2 and used it to photodegrade methylene blue with efficiency close to 100%.…”

“…TiO 2 can degrade organic pollutants into environmentally safe products, such H 2 O and CO 2 [7]. However, TiO 2 is an active photocatalyst in the UV light region due to its large intrinsic band gap [8], limiting its usage in large scale, as UV light sources are relatively small. Sunlight, an abundant light source, is composed of less than 5% of UV light, with the largest composition in visible light.…”

“…C-dots have strong luminescence property in the UV-tonear-infrared range [8]. In this study, C-dots were combined with TiO 2 and used as a catalyst in the photodegradation of PCE.…”

Synthesis of TiO₂/Carbon Nanoparticle (C-dot) Composites as Active Catalysts for Photodegradation of Persistent Organic Pollutant