Microcarriers

  • The P1 Microcarrier is a xeno-free, fully defined synthetic polymer bead platform for cell culture, offering adjustable stiffness from 3kPa to 500kPa to suit various cell types and conditions. Beyond flexibility in stiffness, it can be customised in charge, size, and coatings to meet specific cell culture needs, ensuring optimal culture performance.
    • Edible and Therepeutic Grade Products
    • Xeno-Free Biopolymer
    • Tuneable Stiffness, Size and Surface Charge
     
  • The P2 Microcarrier is a xeno-free and digestible biopolymer bead platform for cell culture, offering adjustable stiffness from 3kPa to 500kPa to suit various cell types and conditions. Beyond flexibility in stiffness, it can be customised in charge, size, and coatings to meet specific cell culture needs, ensuring optimal culture performance.
    • Therepeutic Grade Products
    • Xeno-Free and Digestible Biopolymer
    • Tuneable Stiffness, Size and Surface Charge
     
  • The X1 Microcarrier is a top performing, versatile, gelatin-based platform for cell culture, offering adjustable stiffness from 3kPa to 100kPa to suit various cell types and conditions. Beyond flexibility in stiffness, it can be customised in charge, size, and coatings to meet specific cell culture needs, ensuring optimal culture performance.
    • Edible and Therepeutic Grade Products
    • Maximum Cell Expansion Capacity
    • Fully Dissolvable via TrypLE or Trypsin
    • Tuneable Stiffness, Size and Surface Charge
     

Hydrogels

  • Explore the versatility of hydrogels with the Hydrogel Screening Kit by Smart MCs, designed to offer researchers a comprehensive set of hydrogel formulations for varied applications. This kit includes small samples of GelMA, AlgMA, SilkMA, and HAMA—perfect for conducting multiple tests and optimizing your research outcomes.   Custom modifications to the gel can be provided upon request, including high porosity GelMA, fluorescent GelMA, peptide, or other hydrogel combinations.
    • Light-Based Cross-Linking: Optimal control for precision experiments.
    • Well-Established Hydrogel Types: Reliable and widely used materials in bioengineering.
    • Tuneable Stiffness, Size, and Surface Charge: Adapt your hydrogel properties to fit specific research needs.
     
  • Gelatin Methacryloyl, referred to as GelMA (GM-30/60/90), comprises a kit containing methacrylated gelatin along with the photoinitiator LAP. This kit is engineered for specialized applications such as cell culture, biological 3D printing, and tissue engineering. Notably, this product is strictly intended for research use in scientific settings and is not suitable for clinical applications involving humans. Custom modofication to the gel can be provided upon request - including: high porosity GelMA, fluorescent GelMA, peptide or other hydrogel combination.
    • Light Based Cross-Linking
    • Well Established Hydrogel
    • Tuneable Stiffness, Size and Surface Charge
     
  • Alginate Methacryloyl (AlgMA) is a modified form of sodium alginate that is designed to solidify into a gel when exposed to UV or visible light, using a photoinitiator. This innovative light-curing method offers superior portability and produces gels with excellent internal uniformity compared to traditional methods that use divalent ions such as calcium. The resulting AlgMA hydrogel features a three-dimensional structure that is conducive to cell growth and differentiation, and contains active chemical sites for further reactions. This hydrogel is particularly valuable in various biomedical applications.
    Custom modofication 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
     
  • Hyaluronic Acid Methacryloyl features methacrylated hyaluronic acid alongside the photoinitiator LAP, tailored for use in cell culture, biological 3D printing, and tissue engineering among other scientific fields. It is strictly designed for scientific research and is not intended for human application.
    Custom modofication 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
     
  • Silk Fibroin Methacryloyl comprises methacryloyl-modified silk fibroin and the photoinitiator LAP, tailored for applications in cell culture, biologic 3D printing, and tissue engineering. It is designated exclusively for scientific research and is not intended for human use.
    Custom modofication 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
     

Reagents and Consumables

  • Smart Emulsifier by Smart MCs is a cutting-edge droplet generation oil designed to replace expensive fluorinated oils, delivering the same precise monosize droplet generation and stability at a fraction of the cost. This ready-to-use solution is ideal for a wide range of applications, offering both efficiency and reliability for modern lab processes.
    • No Droplet Merging During Experiment or Incubation
    • Monodispersed Microfluidic Droplet Generation
    • Biocompatible and Cell-Friendly
     

Microfluidics

  • Droplet-based microfluidics, a revolutionary technology in the realm of lab-on-a-chip devices, manipulates tiny fluid volumes to perform high-throughput, precision experiments with minimal reagent use. This technique, essential for isolating single cells, protein crystallization, and DNA sequencing, offers a shear-free environment conducive to delicate biological studies. Its application in directed evolution, chemical synthesis, and gel particle formation marks a significant advancement in biotechnology, pharmaceuticals, and materials science. Smart MCs can provide you with droplet microfluidic devices to meet your needs. Get in touch with us to discuss your needs in more details
    • Droplet Generation from 30um to 200um (diameter) and beyond
    • Straight Forward Workflow
    • Lower Limit of Detection and Rapid Reactions in PicoLitre Droplets
     
  • This Cell Sorting Device offers a user-friendly microfluidic device for label-free sorting of Circulating Tumor Cells (CTCs) from various bodily fluids. It simplifies and expedites the cell sorting process in both clinical and research settings without complex procedures.
    • Isolates CTCs and clusters from blood, urine, saliva, and other fluids.
    • Comes as a sterile, disposable device ideal for clinical applications.
    • Streamlines workflow with a rapid, gentle process.
     
  • 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
     
  • Our device is engineered to transcend traditional cell processing, offering a label-free, high-throughput solution for a myriad of applications. It's perfect for integrating with perfusion bioreactor systems, dramatically simplifying the cell harvesting process. Additionally, it serves as an essential tool for reducing sample volumes, facilitating easier and less stressful centrifugation. Beyond these applications, it offers a passive approach that allows for the effortless exchange of media in ongoing cultures, ensuring cells remain nourished without interruption. This device is the key to efficient, gentle, and continuous cell processing.
    • High Throughput Cell Recovery & Dewatering Unit
    • Shear Free Operation Preserving Cell Viability and Functionality
    • Low Cost & Rapid Reduction of Your Liquid Working Volume
     
  • Harnessing the precision of inertial microfluidics, we provide a suite of devices tailored for the size-based separation of particles ranging from 3 to over 100 microns. Our technology stands out for its ability to purify biological samples efficiently in a shear-free and high-throughput manner, making it an essential tool for both fundamental research and custom workflow integration.
    • High Throughput Purification of Biological Samples
    • Shear Free Operation Preserving Cell/Pathogen Viability and Functionality
    • Low Cost & Rapid Process
     

Title

Go to Top