Products
Hydrogels have many applications, consisting of three-dimensional structures with hydrated polymer networks. As a pioneer in hydrogel research, Matexcel offers excellent hydrogel-related products including hydrogel kits, raw Materials, crosslinkers, initiators, proteins, and adhesive Peptides. Please get in touch with us if you have any need for all types of hydrogel products.
By Type
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Product details
| Product Name | Catalog No. | Application | Price |
|---|---|---|---|
| Carboxymethyl chitosan | PS007 | The carboxymethyl chitosan derivatives can also interact with cells for applications in cell growth, tissue regeneration, and wound healing. | Inquiry |
| Sodium carboxymethyl cellulose | PS008 | CMC can be used to stabilize palladized iron nanoparticles, which can further be utilized in the dichlorination of contaminated subsurfaces. It may also be used as a polymeric matrix to form a composite with a crystalline nanofibril for the development of sustainable bio-based polymers. CMC can also bind with a hard carbon electrode for the fabrication of sodium ion-batteries. | Inquiry |
| Hyaluronic Acid | PS009 | Tissue engineering including cartilage tissue engineering, bone tissue engineering, and other musculoskeletal tissues Drug delivery and a carrier of small molecules, large molecules, and biomolecules Biosensors, films and transdermal microneedles development Medical device coatings, wound healing, and cosmetics | Inquiry |
| Carrageenan | PS010 | Carrageenans are used to suppress immune response in vivo and in vitro via mechanisms believed to involve selective cytopathic effect on macrophages. As ι-, κ-, and λ-carrageenans have varying degress of sulfation, they may be studied comparatively for differences in protective, antiviral, and immunosuppression activities. Carrageenan may be used in the development of biomaterials such as bone graft substitutes; entrapping vessels such as biobeads and encapsulation vehicles for drug delivery. Carrageenan can be used to develop hydrogels. | Inquiry |
| β-Cyclodextrin polymer | PS011 | Beta-cyclodextrin (β-Cyclodextrin) may be used in the development of biocompatible drug delivery vehicles and membrane constructs to improve compound solubility in aqueous environments. β-cyclodextrin polymer and its ester derivatives are used for the development and construction of biomaterials such as hydrogels, nanoassemblies and biomatricies. β-cyclodextrin may be used for the development of biosensors. | Inquiry |
| SG-Dextran | PS012 | 3-D cell cultures Embedment and immobilization of cells or tissues Subsequent recovery of specimens by hydrogel dissolution | Inquiry |
| Mal-Dextran | PS013 | 3-D cell cultures Embedment and immobilization of cells or tissues Subsequent recovery of specimens by hydrogel dissolution | Inquiry |
| Silk Fibroin | PS014 | The ability to produce a variety of forms and formats scaffold types (e.g. coatings, films, sponges, hydrogels, electro-spun fibers, micro/nanospheres, etc.) offers a number of advantages over other biopolymer systems like collagen, chitosan, and alginate that have less variety in processing choices. The silk material properties can then be modified through a variety of processing techniques to change degradation rate, hydrophobicity/hydrophilicity, transparency, mechanical strength, porosity, oxygen permeability, and thermal stability. In this regard, silk proteins represent a class of biopolymers with definable material properties for a given application. | Inquiry |
| Sericin Protein | PS015 | Sericin, a prominent natural polymer produced by silkworms, demonstrates significant potential for utilization in medicinal applications due to its natural infection resistance, biocompatibility, and coagulation properties. | Inquiry |
| Fibronectin (Human) (Solution) | PS016 | Fibronectin is ideal for coating of surfaces and is typically used at a concentration of 1-5 μg/cm2 . | Inquiry |