Cane Molasses Graphene Quantum Dots Passivated by PEG Functionalization for Detection of Metal Ions

Lou, Ying; Ji, Jianying; Qin, Aimiao; Liao, Lei; Li, Zi-Yuan; Chen, Shuoping; Zhang, Kaiyou; Ou, Jun

doi:10.1021/acsomega.0c00098

Cited by 44 publications

(32 citation statements)

References 40 publications

(55 reference statements)

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“…[ 29 ] prepared nitrogen‐doped GQDs and fluorine‐doped GQDs from plant leaves as carbon sources with a QY of 41.2% and 38.9%, respectively. Our group [ 30 ] prepared cane molasses GQDs and modified their surface defects with polyethene glycol, the QY was twice as high as that of the unpassivated GQDs. These examples show that the heteroatom doping or surface modification can improve the QY of carbon dots to some extent.…”

Section: Carbon Source and Synthesis Methods Of Biomass Carbon Dotsmentioning

confidence: 99%

“…Besides, the QY of 5 nm CQDs prepared from Chinese ink [ 53 ] could reach as high as 78%. Similarly, uniformly distributed carbon dots could also be produced by using sugarcane bagasse pulp [ 54 ] and cane molasses [ 30 ] as carbon sources. Industrial solid waste accounts for a significant part of municipal waste and the reports about coal, coke, and asphalt are common.…”

Section: Carbon Source and Synthesis Methods Of Biomass Carbon Dotsmentioning

confidence: 99%

“…This was due to the fact that PEG is a long‐chain polymer containing abundant hydroxyl groups, which could achieve encapsulate for the inner GQDs (Figure 8D). [ 30 ] Using neem leaves [ 147 ] as carbon source, the fluorescence intensity of GQDs modified by amino was higher and more stable than that of unmodified GQDs. High fluorescence GQDs were prepared from coffee grounds [ 148 ] by functionalization with polyethyleneimine (PEI).…”

Section: Basic Characterization and Properties Of Biomass Carbon Dotsmentioning

confidence: 99%

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Recent advances of biomass carbon dots on syntheses, characterization, luminescence mechanism, and sensing applications

et al. 2021

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Carbon dots have attracted much attention due to their high fluorescence intensity, easy modification, good stability, and biocompatibility. However, the realization of low‐cost mass production of high‐quality carbon dots still faces great challenges. Biomass is of non‐toxic and environmentally friendly organism, but a lot of biomass is treated as waste for burning and landfill at present, causing irreparable pollution to the environment. In fact, many biomass resources are ideal candidates for preparing carbon dots. This review focuses on carbon dots including carbon quantum dots (CQDs) and graphene quantum dots (GQDs) which using biomass as carbon source on the aspects of plants and their derivatives, animals and their derivatives and municipal waste. The characterization of the structure and composition of biomass carbon dots, the regulation of fluorescence color and the methods of improving quantum yield (QY) including heteroatom doping and surface modification are introduced in detail. Moreover, biomass carbon dots for detecting metal ions and non‐metal molecules and their quenching mechanism are emphatically introduced in addition to summarizing the luminescence mechanism, and some promising prospects and challenges in this uplifting field are discussed.

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Section: Carbon Source and Synthesis Methods Of Biomass Carbon Dotsmentioning

confidence: 99%

Section: Carbon Source and Synthesis Methods Of Biomass Carbon Dotsmentioning

confidence: 99%

Section: Basic Characterization and Properties Of Biomass Carbon Dotsmentioning

confidence: 99%

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Recent advances of biomass carbon dots on syntheses, characterization, luminescence mechanism, and sensing applications

et al. 2021

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“…Interestingly, they observed that stem cell osteogenesis was augmented by GQDs but decreased when the cells were treated with GO. Some studies have been reported on the use of PEGylated GQDs for bioimaging, 57 detection of metal ions, 58 and cancer therapy, 59 etc. However, there is little reported information on the interaction of PEGylated GQDs with stem cells.…”

Section: Interaction With Stem Cellsmentioning

confidence: 99%

<p>Poly(Ethylene Glycol) Functionalized Graphene Oxide in Tissue Engineering: A Review on Recent Advances</p>

Ghosh¹,

Chatterjee²

2020

IJN

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Owing to the unique physical, chemical, mechanical and electrical properties, graphene and its derivatives have been extensively researched for diverse biomedical applications including in tissue engineering since the past decade. Tunable chemical functionalities of graphene oxide (GO), a graphene derivative, allow easy surface functionalization. Functionalization of GO with poly(ethylene glycol) (PEG) (PEG-GO) has received significant attention as it offers superior solubility, stability, and biocompatibility. Besides being an attractive candidate for drug delivery, PEG-GO can aid in the attachment, proliferation, and differentiation of stem cells, thereby augmenting tissue engineering. PEG-GO has shown excellent antibacterial efficacy, which could be an added advantage to minimize implantassociated infections. This review describes the synthesis techniques, properties, and biological potential of PEG-GO towards mammalian and bacterial cells. Studies wherein these nanomaterials have been explored for engineering various tissues are reviewed along with future opportunities in this field.

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“…In recent years, the use of carbon materials and nanoscale spherical TiO 2 composite to improve their photocatalytic activity has become a research hotspot. [ 184,185 ] Carbon materials not only have high electrical conductivity, [ 186 ] large specific surface area, [ 187 ] and so on, but also have a variety of structures (activated carbon, [ 188–190 ] graphene, [ 191–193 ] carbon quantum dots [ 194–197 ] (CQDs), and so on), so the composite of TiO 2 and carbon materials is beneficial to reduce the photogenerated carriers recombination rate; thus, improving the photocatalytic activity of spherical TiO 2.…”

Section: Different Types Of Nanoscale Spherical Tio2 Modificationmentioning

confidence: 99%

Progress on the nanoscale spherical TiO₂ photocatalysts: Mechanisms, synthesis and degradation applications

et al. 2020

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Titanium dioxide (TiO2) has the advantages of strong photocatalytic activity, non‐toxicity, and low cost, and so on. It has always occupied a dominant position in many photocatalytic materials, especially nanoscale spherical TiO2 has the characteristics of high specific surface area and pore‐volume, and so on. Therefore, Degussa P25, as a typical representative of the nanoscale spherical structure, is currently the only material produced on a large scale. According to the structure, nanoscale spherical TiO2 can be divided into three types: solid, core‐shell, and hollow spheres. However, there is still a lack of the latest review on the synthetic doping and application of nanoscale spherical TiO2. Therefore, we first describe the degradation mechanism of nanoscale spherical TiO2 and summarize the latest progress of its synthesis strategy in this review, including doping and other modification techniques, and finally introduce the application of nanoscale spherical TiO2 photocatalytic degradation of volatile organic compounds, dye wastewater, antibiotics, pesticides, and oily wastewater. Through this review, it is helpful for researchers to further understand the synthesis and application of nanoscale spherical TiO2, hoping to continuously improve the disadvantages and photocatalytic activity of nanoscale spherical TiO2, and promote the widespread application of nanoscale spherical TiO2 on an industrial scale.

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Cane Molasses Graphene Quantum Dots Passivated by PEG Functionalization for Detection of Metal Ions

Cited by 44 publications

References 40 publications

Recent advances of biomass carbon dots on syntheses, characterization, luminescence mechanism, and sensing applications

Recent advances of biomass carbon dots on syntheses, characterization, luminescence mechanism, and sensing applications

<p>Poly(Ethylene Glycol) Functionalized Graphene Oxide in Tissue Engineering: A Review on Recent Advances</p>

Progress on the nanoscale spherical TiO₂ photocatalysts: Mechanisms, synthesis and degradation applications

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Cane Molasses Graphene Quantum Dots Passivated by PEG Functionalization for Detection of Metal Ions

Cited by 44 publications

References 40 publications

Recent advances of biomass carbon dots on syntheses, characterization, luminescence mechanism, and sensing applications

Recent advances of biomass carbon dots on syntheses, characterization, luminescence mechanism, and sensing applications

<p>Poly(Ethylene Glycol) Functionalized Graphene Oxide in Tissue Engineering: A Review on Recent Advances</p>

Progress on the nanoscale spherical TiO2 photocatalysts: Mechanisms, synthesis and degradation applications

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Progress on the nanoscale spherical TiO₂ photocatalysts: Mechanisms, synthesis and degradation applications