Unique Approach To Develop Carbon Dot-Based Nanohybrid Near-Infrared Ratiometric Fluorescent Sensor for the Detection of Mercury Ions

Zhao, Jingjin; Huang, Mengjiao; Zhang, Liangliang; Zou, Mengbing; Chen, Dongxia; Huang, Yong; Zhao, Shulin

doi:10.1021/acs.analchem.7b01443

Cited by 193 publications

(96 citation statements)

References 35 publications

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“…This observation was supported by previous literature ,. Moreover it has been reported that Hg 2+ can quench the fluorescence of carbon dot through the interaction with electron‐rich aromatic ring . Thus, the slight decrease in fluorescent intensity of GQD from AuQC@GQD in the presence of Hg 2+ can be due to the electron transfer from electron‐rich aromatic ring of GQD and Hg (II).…”

Section: Resultssupporting

confidence: 88%

Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg²⁺)

2018

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Herein, for the first time, we introduce a new synthetic strategy for the synthesis of stable dual light emitting gold quantum cluster‐graphene quantum dot (AuQC@GQD) nanocomposite using a single protein, gluten as the raw material. Hydrothermal treatment of wheat gluten protein resulted in the development of a stable blue‐green emitting graphene quantum dot (GQD), which was further conjugated with gluten and used for the synthesis of gold quantum clusters (AuQC). Moreover, the gluten conjugated GQD acted as a reducing agent for the fast formation of red emitting AuQC. The resulted AuQC@GQD were characterized by various spectroscopic and microscopic techniques. We further explore the use of AuQC@GQD as a probe for ratiometric detection of mercury (Hg2+). The sensor exhibited a good linear relationship in the Hg2+ concentration range from 0.1 to 35.8 ppm with a detection limit of about 0.1 ppm. Moreover, AuQC@GQD were effectively incorporated into electrospun polyvinyl alcohol (PVA) nanofibers for visual colorimetric sensing. We have monitored the visual fluorescent response of AuQC@GQD‐PVA mat to Hg2+, and the observed change of color under UV irradiation indicates the utility of the AuQC@GQD‐PVA nanofibers for on‐site detection of Hg2+. In addition, the formed AuQC@GQD can able to produces white light emission at a particular composition of HAuCl4 and GQD under UV irradiation, which can further extend its applicability in the field of optoelectronics.

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Section: Resultssupporting

confidence: 88%

Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg²⁺)

2018

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“…Figure a and b give the TEM image and size distribution of the prepared CQDs sample. From TEM image, it can be seen that the CQDs sample has uniform particle size with diameter of 2.5 nm, and the lattice spacing is about 0.25 nm (HRTEM insert), similar to the graphite (100) crystal facet . The corresponding size distribution curve exhibits a single peak, indicating that the CQDs sample is well dispersed.…”

Section: Resultsmentioning

confidence: 99%

“…At excitation wavelength of 420 nm, the CQDs solution exhibits the strong fluorescence emission (curve 3) and two emission peaks located at 506 and 676 nm are visible. The former may be from the intrinsic structure of CQDs and the latter is similar to the characteristic emission peak of the porphyrin derivative …”

Section: Resultsmentioning

confidence: 99%

“…The binding energies of O 1s (Figure c) are found at 532.9, 531.7 and 532.4 eV, proving the existence of O−C, O=C and O−N bond. The above results confirm the existence of oxygen‐containing functional groups . Furthermore, the high resolution of N 1s spectrum (Figure d) reveals the presence of pyridine‐like N (399.6 eV) and pyrrole‐like N (400.2 eV) atoms …”

Section: Resultsmentioning

confidence: 99%

“…For CQDs, the absorption peaks at 3431, 1726, 1551, 1460, 1355 and 1107 cm −1 indicate that CQDs were rich in hydrophilic functional groups such as amino, hydroxyl and carboxyl group. Apart from this, the peaks at 1643, 2925 and 2864 cm −1 were caused by the stretching vibration of the corresponding polycyclic aromatic hydrocarbon C=C, C=N and methyl methylene . The above results are consistent with the results obtained by XPS.…”

Section: Resultsmentioning

confidence: 99%

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Preparation of Triple‐Responsive Porous Silica Carriers and Carbon Quantum Dots for Photodynamic‐/Chemotherapy and Multicolor Cell Imaging

Chen

Zhao

et al. 2020

ChemNanoMat

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Photosensitive carbon quantum dots (CQDs) provide a new route to treat cancer owing to their ability to produce singlet oxygen. In this paper, pH/redox/enzyme‐responsive porous silica‐based carriers with CQDs were constructed for photodynamic‐chemical combination therapy. The porous silica (pSiO2) sample comprises uniform spheres with center‐radial channels, which is favorable for drug loading and delivery. CQDs with a size of 2.5 nm were synthesized and have the excellent ability to generate singlet oxygen. After loading CQDs and drug molecules, the channels of pSiO2 carrier were blocked with hyaluronic acid (HA)/chitosan (CHI) layer. The disulfide bonds, conjugating HA to the surface of pSiO2 carrier, would achieve redox‐responsive drug release, while breaking disulfide bonds and the HA/CHI layer could endow the pSiO2 carrier enzyme/pH‐responsive drug release. The prepared pSiO2 carriers display low cytotoxicity and good biocompatibility for multicolor imaging and photodynamic‐/chemotherapy.

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Simultaneous sensing of carbidopa and levodopa by a novel strategy based on dual‐emission ratiometric assay of modified carbon dots

Abbasi Majd,

Kashanian,

Shekarbeygi

et al. 2024

Biotech and App Biochem

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Rapid control of the content of Parkinson's drugs in biological fluids and pharmaceutical formulations is of great importance because changes in the concentration of these drugs affect their bioavailability and biopharmaceutical properties. Therefore, we presented a simple and convenient method for the ratiometric detection of carbidopa and levodopa for carbon dots (CDs) dual‐fluorescent emission. Dual‐emission CDs were prepared from chitosan using a microwave method, following which the surface was chemically modified with terephthalaldehyde. CDs had two strong well‐separated peaks at 445 and 510 nm. The relative measurement of carbidopa and levodopa was based on the static extinction of CDs at 445 nm and increase at 510 nm, respectively. The linear range for carbidopa measurement was 2.5–300 nM, with a limit of detection (LOD) of 2.1 nM, and a relative standard deviation (RSD) of 1.68%. Further, the linear range for levodopa measurement was equal to 3.0–400 nM, with LOD and RSD% of 2.8 nM and 3.5%, respectively. Also, selectivity of ratiometric sensor in the presence of interferences was investigated, which showed that the recovery of carbidopa and levodopa in serum and urine samples has changed between 96.80% and 116.24% with RSD% 0.11–0.77. CDs also provided good results for the determination of carbidopa and levodopa in real samples, and had high selectivity in the presence of possible interferences.

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Unique Approach To Develop Carbon Dot-Based Nanohybrid Near-Infrared Ratiometric Fluorescent Sensor for the Detection of Mercury Ions

Cited by 193 publications

References 35 publications

Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg²⁺)

Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg²⁺)

Preparation of Triple‐Responsive Porous Silica Carriers and Carbon Quantum Dots for Photodynamic‐/Chemotherapy and Multicolor Cell Imaging

Simultaneous sensing of carbidopa and levodopa by a novel strategy based on dual‐emission ratiometric assay of modified carbon dots

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Unique Approach To Develop Carbon Dot-Based Nanohybrid Near-Infrared Ratiometric Fluorescent Sensor for the Detection of Mercury Ions

Cited by 193 publications

References 35 publications

Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg2+)

Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg2+)

Preparation of Triple‐Responsive Porous Silica Carriers and Carbon Quantum Dots for Photodynamic‐/Chemotherapy and Multicolor Cell Imaging

Simultaneous sensing of carbidopa and levodopa by a novel strategy based on dual‐emission ratiometric assay of modified carbon dots

Contact Info

Product

Resources

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Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg²⁺)

Graphene Carbon Dot Assisted Sustainable Synthesis of Gold Quantum Cluster for Bio‐Friendly White Light Emitting Material and Ratiometric Sensing of Mercury (Hg²⁺)