Microcarriers

Hydrogels

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    Poly(ethylene glycol) diacrylate (PEGDA)

    Polyethylene Glycol Diacrylate (PEGDA) features polyethylene glycol functionalised with acrylate groups, customisable for use in cell culture, biological 3D printing, tissue engineering, and photolithography applications. It is strictly designed for scientific research and is not intended for human application.

    Custom modification to the gel can be provided upon request – including peptide or other hydrogel combination.

    • Light Based Cross-Linking
    • Xeno-Free Hydrogel
    • Tuneable Stiffness, Size and Surface Charge
     
    Details

  • PLMA (poly-L-lysine methacrylate)

    Poly-Lysine Methacrylate (PLMA) features methacrylated poly-lysine tailored for antimicrobial wound dressings, antibacterial coatings, tissue engineering, and 3D bioprinting applications. It is strictly designed for scientific research and is not intended for human application.

    Custom modification to the gel can be provided upon request – including peptide or other hydrogel combination.
    • Light Based Cross-Linking
    • Xeno-Free Hydrogel
    • Tuneable Stiffness, Size and Surface Charge
     
    Details

  • G1

    G1 Hydrogel is an animal-free hydrogel designed for simple, room-temperature operation. It gels instantly upon addition of your cell culture media, making it ideal for cell culture, regenerative medicine, tissue engineering, and biomedical research.

    Custom modification to the gel can be provided upon request – including peptide or other hydrogel combination.
    • One-Step Room Temperature Gelation
    • Animal-Free Hydrogel
    • Tunable Stiffness & Bioactivity
     
    Details

Reagents and Consumables

Laboratory Equipment

Microfluidics

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    Micromixers

    Smart MCs introduces advanced micromixers, essential devices engineered for precision fluid mixing at the micron scale. Catering to the chemical, pharmaceutical, analytical chemistry, and biotechnology industries, our micromixers leverage mechanical micro-parts to revolutionize mixing efficiency and reduce material use in various processes. Whether it's for antibody binding, enzyme treatments, or high-throughput synthesis, our customizable solutions meet the diverse needs of modern scientific endeavors.
    • Rapid and Efficient Mixing Efficiency
    • Wide Range of Biological and Chemical Applications
    • Liquid Handling at Micron-Scale
     
    Details

  • Organ-on-a-chip Devices

    At Smart MCs, we provide cutting-edge technology of organs-on-chips (OoCs), offering versatile microfluidic systems to model the tissue microenvironment accurately. Our organ-on-a-chip systems simulate the activities, mechanics, and physiological responses of human organs, providing an advanced in vitro alternative for drug development, toxin testing, and the study of disease pathophysiology.
    • Versatile Fluidic Systems
    • Wide Range of Biological
    • Integration with Extracellular Matrix Hydrogels
     
    Details

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