The non-toxic, affordable, and renewable advantages of carbohydrates have attracted widespread attention in the biomedical field and have been used to develop degradable carbohydrate-derived materials. CD BioGlyco continues to focus on natural carbohydrate-based biopolymers produced from various organisms, including animals, plants, and microorganisms and studies their applications in fields such as drug development, gene delivery, wound healing, biorecognition, and sensing. With a first-class team of experts and years of accumulated experience, we provide clients with the development, modification, characterization, and application development services of carbohydrate-based degradable biomaterials. Our service process is as follows:
Fig.1 Flowchart of carbohydrate-based biodegradable material development. (CD BioGlyco)
After receiving your inquiry, our sales will communicate with you as soon as possible to learn more about your goals and specific requirements. Afterward, our expert team led by PhDs actively conducts research and combines many years of experience to design the optimal experimental plan for you, and continuously communicates with you on the development details.
We have developed specialized degradable material development services based on the characteristics of different carbohydrates, including monosaccharide-based biodegradable material development, disaccharide-based biodegradable material development, oligosaccharide-based biodegradable material development, and polysaccharide-based biodegradable material development. Our services are as follows:
| Monosaccharide-based Biodegradable Material | Monosaccharides are extensively modified to produce various sugar derivatives and create different kinds of forms. CD BioGlyco provides high-quality monosaccharide-based biodegradable material development services for global clients to meet clients' research in biomedical materials. |
| Disaccharide-based Biodegradable Material | We are committed to helping clients around the world develop the most comprehensive range of disaccharide-based biodegradable materials for use in biomedical fields, such as drug delivery. |
| Oligosaccharide-based Biodegradable Material | CD BioGlyco is based on the structure of oligosaccharides and uses physical or chemical modification strategies to develop oligosaccharide-based nanocarriers and apply them to drug delivery. |
| Polysaccharide-based Biodegradable Material | We have established a variety of strategies for the development of polysaccharide-based biodegradable materials for biomedical applications to meet our clients' extensive scientific research needs. |
We are committed to providing a wide range of carbohydrate modification methods to help our clients prepare modified carbohydrates with desirable physicochemical properties and bioactivities. Our carbohydrate modification services include but are not limited to:
We provide researchers and scientists with specialized chemical, physical, and biological characterization techniques to comprehensively understand the various properties of carbohydrate-based biodegradable materials.
| Chemical Characterization | Chemical characterization is a powerful tool for analyzing degradable carbohydrate-related materials and is used to analyze the compound composition and active sites of degradable materials. CD BioGlyco has professional chemical characterization technology to help clients analyze the structure and biophysical properties of biological materials. |
| Physical Characterization | Physical properties affect the product performance, stability, and processing performance of degradable materials. We have a variety of advanced physical characterization techniques to help clients perform structural analysis, thermal analysis, mechanical property analysis, and particle distribution measurements. |
| Biological Characterization | Some carbohydrate materials have antibacterial, antioxidant, anti-inflammatory, and other biological activities and are widely used in the biomedical field. CD BioGlyco has developed methods to help enterprises, universities, and research institutes around the world characterize the bioactivity of carbohydrate-based degradable materials. |
| Biodegradability Determination | CD BioGlyco designs methods for biodegradability determination of different types of products or materials in different ways to assess their extent and rate of degradation. |
We focus on advanced technologies for the development of polysaccharide-based biodegradable materials and extend their use in many fields, including but not limited to:
| Delivery Vector | Tissue Engineering | Microarrays |
| Wound Repair and Tissue Reconstruction | Food Packaging | Wastewater Treatment |
Technology: SEM, XRD, and DSC
Journal: Carbohydrate Polymers
IF: 11.2
Published: 2021
Results: The author incorporated copolymer pluronic F127 into degradable biomaterials whose main components are corn starch and chitosan at various concentrations. The physical and chemical properties of the film material are characterized through SEM, XRD, DSC, water solubility, mechanical properties, and water vapor permeability. The results showed that after adding pluronic 127 at a concentration of 3%, the film material had better water solubility, water vapor permeability, and mechanical properties.
Fig.2 The XRD patterns of composite films of starch-chitosan mixtures with different concentrations of pluronic F127. (Fonseca-García, et al., 2021)
As a leading service provider in the field of glycobiology, CD BioGlyco is committed to providing clients with a one-stop shop for the development of carbohydrate-based biodegradable materials. We provide expertise and comprehensive quality assurance and help you meet and exceed quality and regulatory standards. If you have scientific needs in the development of carbohydrate-based biodegradable materials, please feel free to contact us for more details.
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