Yaoping Hu scite author profile

A bottom-up method, using monoethanolamine (MEA) as both a passivation agent and a solvent, has been developed for rapid and massive synthesis of nitrogen-doped carbon dots (N-C-dots) from citric acid under heating conditions. This method requires relative mild temperature (170 °C) without special equipment, and affords one-pot large-scale production (39.96 g) of high-quality N-C-dots (quantum yield 10 of 40.3%) in a few minutes (10 minutes). Significantly, an interesting formation process of N-C-dots, for the first time, has been monitored by transmission electron microscopy, ultraviolet-visible absorbance spectroscopy, photoluminescence spectroscopy, Fourier transformed infrared spectroscopy, and thermogravimetric analysis, and a corresponding formation mechanism including polymerization, aromatization, nucleation, and growth, is proposed. It is important that the MEA-based synthesis of N-C-15 dots can be extended to various precursors, such as glucose, ascorbic acid, cysteine, and glutathione, which show general university. Furthermore, the N-C-dots with strong fluorescence, excellent optical stability, and low cytotoxicity, are successfully applied as fluorescent probes for bioimaging.

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Ethanol in aqueous hydrogen peroxide solution: Hydrothermal synthesis of highly photoluminescent carbon dots as multifunctional nanosensors

Yang

et al. 2015

Carbon

105

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Aptamer loaded MoS₂ nanoplates as nanoprobes for detection of intracellular ATP and controllable photodynamic therapy

Ding

Tian

et al. 2015

Nanoscale

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In this work we designed a MoS2 nanoplate-based nanoprobe for fluorescence imaging of intracellular ATP and photodynamic therapy (PDT) via ATP-mediated controllable release of (1)O2. The nanoprobe was prepared by simply assembling a chlorine e6 (Ce6) labelled ATP aptamer on MoS2 nanoplates, which have favorable biocompatibility, unusual surface-area-to-mass ratio, strong affinity to single-stranded DNA, and can quench the fluorescence of Ce6. After the nanoprobe was internalized into the cells and entered ATP-abundant lysosomes, its recognition to ATP led to the release of the single-stranded aptamer from MoS2 nanoplates and thus recovered the fluorescence of Ce6 at an excitation wavelength of 633 nm, which produced a highly sensitive and selective method for imaging of intracellular ATP. Meanwhile, the ATP-mediated release led to the generation of (1)O2 under 660 nm laser irradiation, which could induce tumor cell death with a lysosomal pathway. The controllable PDT provided a model approach for design of multifunctional theranostic nanoprobes. These results also promoted the development and application of MoS2 nanoplate-based platforms in biomedicine.

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A pH-controlled synthetic route to violet, green, and orange fluorescent carbon dots for multicolor light-emitting diodes

Dai

Chen

Ouyang

et al. 2022

Chemical Engineering Journal

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Folate Receptor-Targeted and Cathepsin B-Activatable Nanoprobe for In Situ Therapeutic Monitoring of Photosensitive Cell Death

et al. 2015

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The integration of diagnostic and therapeutic functions in a single system holds great promise to enhance the theranostic efficacy and prevent the under- or overtreatment. Herein, a folate receptor-targeted and cathepsin B-activatable nanoprobe is designed for background-free cancer imaging and selective therapy. The nanoprobe is prepared by noncovalently assembling phospholipid-poly(ethylene oxide) modified folate and photosensitizer-labeled peptide on the surface of graphene oxide. After selective uptake of the nanoprobe into lysosome of cancer cells via folate receptor-mediated endocytosis, the peptide can be cleaved to release the photosensitizer in the presence of cancer-associated cathepsin B, which leads to 18-fold fluorescence enhancement for cancer discrimination and specific detection of intracellular cathepsin B. Under irradiation, the released photosensitizer induces the formation of cytotoxic singlet oxygen for triggering photosensitive lysosomal cell death. After lysosomal destruction, the lighted photosensitizer diffuses from lysosome into cytoplasm, which provides a visible method for in situ monitoring of therapeutic efficacy. The nanoprobe exhibits negligible dark toxicity and high phototoxicity with the cell mortality rate of 0.06% and 72.1%, respectively, and the latter is specific to folate receptor-positive cancer cells. Therefore, this work provides a simple but powerful protocol with great potential in precise cancer imaging, therapy, and therapeutic monitoring.

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Ni hollow spheres as catalysts for methanol and ethanol electrooxidation

Rong

et al. 2007

Electrochemistry Communications

118

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Fluorescence detection of malachite green in fish tissue using red emissive Se,N,Cl-doped carbon dots

Gao

Luo

2021

Food Chemistry

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Yaoping Hu

Waste frying oil as a precursor for one-step synthesis of sulfur-doped carbon dots with pH-sensitive photoluminescence

How do nitrogen-doped carbon dots generate from molecular precursors? An investigation of the formation mechanism and a solution-based large-scale synthesis

Ethanol in aqueous hydrogen peroxide solution: Hydrothermal synthesis of highly photoluminescent carbon dots as multifunctional nanosensors

Aptamer loaded MoS₂ nanoplates as nanoprobes for detection of intracellular ATP and controllable photodynamic therapy

A pH-controlled synthetic route to violet, green, and orange fluorescent carbon dots for multicolor light-emitting diodes

Folate Receptor-Targeted and Cathepsin B-Activatable Nanoprobe for In Situ Therapeutic Monitoring of Photosensitive Cell Death

Ni hollow spheres as catalysts for methanol and ethanol electrooxidation

Fluorescence detection of malachite green in fish tissue using red emissive Se,N,Cl-doped carbon dots

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Yaoping Hu

Waste frying oil as a precursor for one-step synthesis of sulfur-doped carbon dots with pH-sensitive photoluminescence

How do nitrogen-doped carbon dots generate from molecular precursors? An investigation of the formation mechanism and a solution-based large-scale synthesis

Ethanol in aqueous hydrogen peroxide solution: Hydrothermal synthesis of highly photoluminescent carbon dots as multifunctional nanosensors

Aptamer loaded MoS2 nanoplates as nanoprobes for detection of intracellular ATP and controllable photodynamic therapy

A pH-controlled synthetic route to violet, green, and orange fluorescent carbon dots for multicolor light-emitting diodes

Folate Receptor-Targeted and Cathepsin B-Activatable Nanoprobe for In Situ Therapeutic Monitoring of Photosensitive Cell Death

Ni hollow spheres as catalysts for methanol and ethanol electrooxidation

Fluorescence detection of malachite green in fish tissue using red emissive Se,N,Cl-doped carbon dots

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Product

Resources

About

Aptamer loaded MoS₂ nanoplates as nanoprobes for detection of intracellular ATP and controllable photodynamic therapy