Based on the GlycoNano™ Platform, CD BioGlyco is dedicated to developing and providing advanced Glyconanoparticle Synthesis services. Our researchers combine quantum dots (QDs) with various glycans to provide clients with nanoparticles with unique optical and biological properties. These QD glyconanoparticles show great potential in the fields of bioimaging, drug delivery, biosensors, and diagnostic reagent development.
We provide customized synthesis services for different types of QD glyconanoparticles to meet the specific needs of different clients in research and applications. If you are interested in other types of QD glyconanoparticles, our professional synthesis team provides personalized QD glyconanoparticle production services.
We provide different types of QD preparation services according to the different research needs of our clients. Our common preparation methods include the chemical solution growth method, epitaxial growth method, and electric field confinement method. Moreover, our researchers provide carbohydrate molecules and nanoparticle coupling services.
We provide services for functionalized modification of nanoparticles, including but not limited to coupling of targeted ligands and immobilizing biomolecules.
We perform stringent quality control on the synthesized glyconanoparticles to ensure that their size, shape, fluorescence, and properties meet the client's requirements. Our researchers evaluate the biological compatibility of synthetic QD glyconanoparticles to ensure their safety in living organisms.
Technology: Fourier transform infrared (FT-IR) spectroscopy, X-ray diffraction (XRD), High-resolution transmission electron microscopy (HRTEM)
Journal: ACS Omega
Published: 2024
IF: 3.7
Results: In this study, the researchers employed a one-step mild pyrolysis process to realize the green synthesis of carbon quantum dots (CQDs). The process has significant advantages and it exhibits higher efficiency compared to traditional methods such as the hydrothermal method. By studying the reaction temperature, 220°C was identified as the optimal reaction temperature for CQD synthesis. Moreover, the synthesized CQDs have excellent biocompatibility and optical stability, which are suitable for use in the fields of bio-detection, cellular imaging, and biomedicine.
Fig.1 Analytical detection profiles of CQDs. (Fang, et al., 2024)
CD BioGlyco provides high-performance QD glyconanoparticle manufacturing services. Our company supports customized size, shape, fluorescence properties, and carbohydrates. No matter what type of QD glyconanoparticle you want, please feel free to contact us to customize it for you.
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