Microcarriers

  • P2 Dissolvable Microcarriers for Cell Culture

    P2 dissolvable microcarriers are designed for cell culture processes where efficient cell expansion and simplified harvesting are required. These microcarriers for cell culture are made from a plant-based biopolymer and can be removed through a controlled dissolution step, eliminating the need for filtration or mechanical separation.P2 supports a range of adherent cell types and can be tailored in stiffness, size, and surface properties depending on process requirements.

    Key Features

    • Dissolvable microcarriers for simplified cell harvesting
    • Designed for adherent cell culture applications
    • Plant-based core with xeno-free or animal-derived coating options
    • Available in Soft, Medium, and Hard stiffness profiles
    • Tunable particle size, surface charge, and coatings
    • Rapid dissolution (10 minutes) using TrypLE and our proprietary P2 Dissolving Buffer
    Details

  • P1 Synthetic Microcarriers for Cell Culture

    P1 synthetic microcarriers are microcarriers for cell culture designed to support the expansion of adherent cells, including more demanding cell types. Made from a fully defined synthetic polymer, P1 provides a controlled and consistent surface for cell attachment.These microcarriers are not dissolvable and are suited to processes where stable, non-degradable carriers are required. P1 can be tailored in stiffness, size, and surface properties depending on application needs.

    Key Features

    • Synthetic microcarriers for cell culture
    • Fully defined polymer composition
    • Positively charged surface to support cell attachment
    • Available in Soft, Medium, and Hard stiffness profiles
    • Tunable particle size, surface charge, and coatings
    • Suitable for user-applied extracellular matrix coatings
    • Not dissolvable
    Details

  • X1 Dissolvable Microcarriers for Cell Culture

    X1 dissolvable microcarriers are microcarriers for cell culture made from a gelatin-based material, designed to support attachment and expansion of adherent cells. These dissolvable microcarriers can be removed through enzymatic digestion using TrypLE or Trypsin, enabling cell harvest without mechanical separation.X1 provides a biologically derived surface that supports a wide range of commonly used cell types and can be tailored in stiffness, size, and surface properties depending on application needs.

    Key Features

    • Gelatin-based dissolvable microcarriers
    • Designed for adherent cell culture applications
    • Enzymatic dissolution using TrypLE or Trypsin
    • Available in Soft, Medium, and Hard stiffness profiles
    • Tunable particle size, surface charge, and coatings
    • Suitable for a wide range of cell types
    • Edible and therapeutic grade options
    Details

Hydrogels

  • G1 Hydrogel

    G1 Hydrogel is an animal-free hydrogel designed for simple, room-temperature operation. It forms a stable gel instantly upon the addition of cell culture media, making it ideal for cell culture, tissue engineering, and biomedical research.

    Custom modifications are available upon request, including peptide functionalisation and composite hydrogel systems.

    • One-step, room-temperature gelation
    • Animal-free formulation
    • Tunable stiffness and bioactivity
    • One-step, room-temperature gelation
    • Animal-free formulation
    • Tunable stiffness and bioactivity
    Details

  • Gelatin Methacryloyl (GelMA) Hydrogel

    Gelatin Methacryloyl (GelMA) is a widely used hydrogel for 3D cell culture, tissue engineering, and bioprinting. It combines the biological properties of gelatin with the control of a crosslinkable material, supporting cell attachment, growth, and organisation. At Smart MCs, we supply GelMA in three variants (GM-30, GM-60, GM-90), giving researchers flexibility to match different applications and mechanical requirements.Each kit includes methacrylated gelatin and a compatible photoinitiator (LAP), allowing fast and reliable light-based crosslinking.For research use only. Not intended for human clinical applications.
     
    Details

  • Alginate Methacryloyl (AlgMA) Hydrogel

    Alginate Methacryloyl (AlgMA) is a photocrosslinkable hydrogel used in 3D cell culture, tissue engineering, and bioprinting. It is derived from sodium alginate and modified to enable light-based crosslinking, offering a more controlled and uniform alternative to traditional ionic (calcium) gelation.At Smart MCs, AlgMA is supplied with a compatible photoinitiator (LAP), allowing fast and consistent hydrogel formation under UV or visible light.For research use only. Not intended for human clinical applications. 
    Details

  • Hyaluronic Acid Methacryloyl (HAMA) Hydrogel

    Hyaluronic Acid Methacryloyl (HAMA) is a light-curable hydrogel used in 3D cell culture, tissue engineering, and bioprinting. Derived from hyaluronic acid, it provides a biologically relevant environment that supports cell behaviour while allowing control over mechanical properties.At Smart MCs, HAMA is supplied with a compatible photoinitiator (LAP), enabling fast and reliable light-based crosslinking.For research use only. Not intended for human clinical applications. 
    Details

  • Silk Fibroin Methacryloyl (SilkMA) Hydrogel

    Silk Fibroin Methacryloyl (SilkMA) is a photocrosslinkable hydrogel derived from natural silk fibroin. It combines the strength and stability of silk with the flexibility of light-based crosslinking, making it suitable for 3D cell culture, tissue engineering, and bioprinting.At Smart MCs, SilkMA is supplied with a compatible photoinitiator (LAP), enabling fast and reliable hydrogel formation under UV or visible light.For research use only. Not intended for human clinical applications. 
    Details

  • PLMA (poly-L-lysine methacrylate)

    Poly-L-lysine Methacrylate (PLMA) is a photocrosslinkable hydrogel designed for antimicrobial applications, tissue engineering, and 3D bioprinting. It is derived from poly-lysine, a naturally occurring antimicrobial polypeptide, and modified to enable light-based crosslinking.At Smart MCs, PLMA is supplied with a compatible photoinitiator (LAP), allowing rapid and consistent gel formation under UV or visible light.For research use only. Not intended for human clinical applications.
     
    Details

  • Poly(ethylene glycol) diacrylate (PEGDA) Hydrogel

    Poly(ethylene glycol) diacrylate (PEGDA) is a widely used photocrosslinkable hydrogel for 3D cell culture, tissue engineering, and bioprinting. It is based on polyethylene glycol (PEG) and modified with acrylate groups, allowing fast and controlled light-based crosslinking.At Smart MCs, PEGDA is available in multiple molecular weights (PEGDA-400, PEGDA-600, PEGDA-1000), giving flexibility to tune mechanical properties and hydrogel structure.For research use only. Not intended for human clinical applications.
     
    Details

Reagents and Consumables

  • Non-Adherent Coating for Cell Culture

    Reliable Non-Adherent Surface Coating for Suspension, Microcarrier, and 3D Cell Culture Systems

    Smart MCs’ Non-Adherent Coating is a high-performance, research-grade solution designed to create uniform ultra-low attachment (ULA) surfaces on standard laboratory plasticware and glassware. It effectively prevents non-specific cell adhesion, ensuring cells remain in suspension or selectively attach to intended substrates such as microcarriers.Optimised for modern cell culture workflows, this coating improves experimental reproducibility, enhances cell distribution, and supports scalable microcarrier-based systems. 
    Details

  • Smart Emulsifier: High-Performance Droplet Generation Oil for Microfluidics

    A Cost-Effective Mineral Oil Alternative to Fluorinated Systems
     Smart Emulsifier is a proprietary, research-grade droplet generation oil developed by Smart MCs. Engineered specifically for microfluidic applications, it provides a stable, low-cost alternative to expensive fluorinated oils while maintaining consistent monodispersity and biocompatibility in cell-based and biomaterial workflows. 
    Details

  • Cell Strainer

    Cell Strainers deliver efficient and precise particle separation, perfectly fitting Falcon tubes and supporting applications across cell culture, isolation, and analytical research.

    Available pore sizes include 5 µm, 10 µm, 20 µm, 40 µm, 70 µm, 100 µm, 200 µm, 300 µm, and 420 µm.

    • Microcarrier-Based Culture
    • Cell Isolation
    • Sample Preparation
     
    Details

  • Syringe Filter

    Sterile Syringe Filters provide reliable, efficient sterilization and particle removal, essential for maintaining sample integrity and ensuring accuracy in scientific and clinical applications. Available in 0.22 µm and 0.45 µm

    • Sterile Filtration
    • Particle Removal
    •  Solutions Preparation
     
    Details

  • Monodisperse Microspheres

    Our extensive range of microbeads, including magnetic and antibody-coated beads, supports diverse applications from cell separation to particle filtration, available in sizes from 20 nm to 1000 µm depending on material and requirement.

    • Cell Separation
    • Biological Research and Diagnostics
    • Particle Sorting and Filtration
     
    Details

Laboratory Equipment

  • Magnetic Spinner Flask

    An advanced laboratory vessel designed for seamless scaling of microcarrier-based cell cultures and suspension cultures, providing smooth and consistent agitation through a magnetic stir bar. Ideal for scaling from traditional T-Flasks or roller bottles to spinner systems, it ensures optimal cell growth conditions and improved yields. Works best with the recommended magnetic stirrer.
    • Microcarrier-Based Culture
    • Suspension Cell Cultures
    • General Mixing Applications
     
    Details

  • Large Culture Vessel

    An advanced laboratory culture vessel designed for seamless scaling of microcarrier-based and suspension cell cultures, featuring a built-in mixing unit that eliminates the need for external magnetic stirrers. Designed to fit inside an incubator, it provides smooth, controlled agitation for optimal cell growth and improved yields. With a wide speed range, including low RPM settings as little as 30 RPM, it ensures gentle mixing ideal for delicate cell cultures. Available in 1L to 5L volumes, this cost-effective alternative to expensive bioreactors offers a practical and scalable solution for research and production applications.

    • Microcarrier-Based Culture
    • Suspension Cell Cultures
    • General Mixing Applications
     
    Details

  • Magnetic Stirrer

    The Magnetic Stirrer provides precise, reliable stirring, ideal for cell culture and general laboratory use, perfectly complementing spinner flask systems for optimal cell growth and uniform solution preparation.
    • Microcarrier-Based Culture
    • Suspension Cell Cultures
    • General Mixing Applications
     
    Details

  • Orbital Shaker

    The Orbital Shaker offers precise control, reliable mixing performance, and quiet operation, perfectly suited for diverse laboratory mixing applications and high-throughput processing.

    • Cell Culture and Biological Research
    • Chemical and Pharmaceutical Mixing
    • General Laboratory Use
     
    Details

Microfluidics

  • Droplet Microfluidic Devices

    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
     
    Details

  • Label-Free Circulating Tumour Cell Isolation

    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.
     
    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

  • Cell Harvester: Dewatering Unit

    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
     
    Details

  • Micron-Particle Sorting

    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
     
    Details

  • Pathogen Purification

    Smart MCs harnesses the precision of inertial microfluidics to offer cost-effective, high-throughput, and shear-free purification of biological samples. Our tools excel in separating micron-sized particles by size, overcoming common obstacles like debris contamination and the presence of unwanted cells or parasites from human and animal samples.
    • High Throughput Purification of Biological Samples
    • Shear Free Operation Preserving Cell/Pathogen Viability and Functionality
    • Low Cost & Rapid Process
     
    Details

  • 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

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