Cellulose Bioaerogel – Sustainable High-Performance Materials from Biomass
Cellulose bioaerogel as innovative green solution for a wide range of industries and applications
Our cellulose bioaerogels are derived from non-food biomass.
Thanks to our energy-efficient production technology and green raw material base, we anticipate an excellent sustainability footprint footprint.
With our cellulose bioaerogels, we are setting new standards in sustainable material technology, offering solutions for numerous industrial applications such as thermal insulation, substance delivery and rheology modification.
Cellulose Bioaerogel CSA V – Vacuum Insulation
Cellulose Bioaerogel CSA V can be converted to bio-based core materials for vacuum-insulation panels (VIPs). Bioaerogel VIPs show performance similar to fumed silica.
Cellulose Bioaerogel CSA V is still in development. Sample quantities are available at pilot scale.
Typical properties
Thermal conductivity: <0.010 W/(m*K) (at 10°C and 10 mbar, compressed powder board) Particle size: 1-2 mm
Particle bed density: 40 kg/m³
Easily milled to powder
Powder density: 25 kg/m³
Hydrophilic
Cellulose Bioaerogel CSA L – Storage and Release of Liquids and Active Components
Cellulose Bioaerogel CSA L stores and releases large amounts of liquid. Due to the ultra-fine pore structure, the liquid does not escape under mechanical pressure. At the same time, the bioaerogel is robust and durable. This enables precise dosing and delivery of liquids or active components in solid form.
Cellulose Bioaerogel CSA L is still in development. Sample quantities are available at pilot scale.
Typical properties
High liquid loading capacity
Particle size: 1-2 mm
Particle bed density: 40 kg/m³
Hydrophilic
Cellulose Bioaerogel CSA R – Rheology Modification
Cellulose Bioaerogel CSA R offers excellent rheology modification for aqueous and non-aqueous systems. These properties are particularly relevant for oil and fat phases for example in cosmetic formulations.
Cellulose Bioaerogel CSA R is still in development. Sample quantities are available at pilot scale.
Typical properties
High liquid loading capacity
Particle size: 1-2 mm
Particle bed density: 40 kg/m³
Easily milled to powder
Powder density: 25 kg/m³
Hydrophilic
