We are not just electrospinning R&D company, although we do make our own industrial sized machines from scratch.
We are PhDs in chemistry and technology thus specifically underpinning the processes for your needs and applications.
- The technology combines additive manufacturing (3D printing), solvent-free and solvent-based electrospinning processes.
- Produced structures have controlled fibre diameter (100 nm to 100 µm), large surface area and high porosity. A broad range of polymers can be used as raw materials.
- Depending on the properties of the polymer used, the applications include, but not limited to:
• biomedicine (tissue engineering);
• pharma (drug delivery);
• cleantech (filters, membranes, sensors);
• energy (electrodes, solar cells, fuel cells);
• food (packaging material, films);
• chemical engineering (carbon nanotubes, catalysts).
- Fibre-made materials are competitive in price, technology is characterized by the optimum energy consumption and is environment-friendly (no hazardous waste or emissions are produced during the process).
• Plaster insert with controlled release of propolis as bioactive material;
• 3D construct for cartilage regeneration;
• Efficient and low pressure drop air filter media;
• Supported TiO2 short nanowire catalyst;
• Highly sorptive polymer fibres;
The melt electrospinning technology has been presented to and discussed with the global society of aerosol researchers at the International Aerosol Conference 2018 in St. Louis, MO, USA.
We hope to contribute to solving a grand challenge for aerosol technology in creating an effective material for aerosol separation.