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Typical Properties | |
CAS | 9000-70-8 |
Catalog | ACM9000708-49 |
Molecular Weight | <300 kDa |
Melting Point | > 226 °C (dec.) |
Purity | ≥70 % protein basis (biuret) |
Density | 1.2 g/cm3 |
Solubility | H2O: 67 mg/mL at 50 °C, slightly hazy, slightly yellow |
Appearance | Powder |
Storage | -20 °C |
Biological Source | Bovine Bone/Bovine Skin/Pork Skin/Fish Skin |
Cation Traces | Ca: ≤2000 mg/kg Cd: ≤5 mg/kg Co: ≤5 mg/kg Cr: ≤10 mg/kg Cu: ≤50 mg/kg Fe: ≤50 mg/kg K: ≤500 mg/kg Mg: ≤500 mg/kg Mn: ≤5 mg/kg Na: ≤5000 mg/kg Ni: ≤5 mg/kg Pb: ≤5 mg/kg Zn: ≤10 mg/kg |
Color | White to pale yellow |
Composition | (C6H12O6)n |
EC Number | 232-554-6 |
Grade | Reagent Grade |
Loss | < 14 % loss on drying |
MDL Number | MFCD00081638 |
Mesh | 8-60 Mesh |
pH | 4.0-7.0 at 66.7 g/L at 60 °C |
Precautions for use | Instructions: 1. Under sterile conditions, prepare 5%-15% GelMA solution and dissolve at 80°C; 2. Mix with cells and blue light initiator LAP, and put it into the cartridge of blue light bio 3D printer; 3. 3D printing, blue light curing. Note: If the room temperature is below 25°C, the GelMA solution will solidify, and it needs to be heated and melted before use. |
Quality Level | 200 |
Shipping | Dry ice |
Stability | Sensitive to humidity, light, heat |
Transmittance | 90 % |
Overview |
Description |
Methacrylated gelatin (GelMA) is a double bond modified gelatin, which can be cross-linked and cured into a gel by UV and visible light under the action of a photoinitiator within 10s. GelMA combines the characteristics of natural and synthetic biomaterials, contains bioactive peptide sequences for cell adhesion and proliferation, has a three-dimensional structure suitable for cell growth and differentiation, excellent biocompatibility and cell response properties, and can be well the simulated extracellular matrix. In addition, GelMA has good thermosensitive gel properties and degradability, and its mechanical properties can be highly regulated by changing the degree of substitution through synthetic conditions, which can provide a variety of viscoelastic properties, and has been widely used in cell 3D culture, tissue engineering, and biological 3D printing. and other research fields. |
Features |
·Good biocompatibility |
Application |
·3D cell culture |
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