ISP MicroBeads™ encapsulates
ISP MicroBeads encapsulates are produced with JetCutter Technology, using rotating cutting wires to create hydrogel beads from a continuous jet of viscous fluid. The resulting droplets are transformed into solidified beads through immersion in a bath of hardening solution. This produces a uniform bead matrix that can contain high levels of encapsulated material. Naturally-derived materials such as chitosan, alginate and carrageenan can be used as the matrix material.
ISP MicroBeads encapsulates are produced in sizes ranging from 250 μm to 3,000 μm in diameter. They can be used to encapsulate a wide range of materials, including oils, pigments and harmless bacteria. Delivery triggers vary from dilution to pressure and temperature. Recently developed wax-based ISP MicroBeads encapsulates have been designed with melting points as high as 70°C to 75°C.
Product Availability
- Asia Pacific
- Europe, Middle East, Africa, India
- Latin America and South America
- North America
Application InformationWant to know more about how our products are used?
ISP MicroBeads encapsulates are custom-manufactured spherical particles produced in sizes ranging from 250 µm to 3,000 µm.
- Creative sensory experience
- Eco-friendly
- Formulation creativity
- High payloads of lipophilics and insolubles
- Protection and delivery of sensitive ingredients
- Targeted delivery and deposition
- Temperature, dilution and chemical triggering
- Visual differentiation
ISP MicroBeads encapsulates are custom-manufactured spherical particles produced in sizes ranging from 250 µm to 3,000 µm.
- Creative sensory experience
- Eco-friendly
- Formulation creativity
- High payloads of lipophilics and insolubles
- Protection and delivery of sensitive ingredients
- Targeted delivery and deposition
- Temperature, dilution and chemical triggering
- Visual differentiation
ISP MicroBeads encapsulates are custom-manufactured spherical particles produced in sizes ranging from 250 µm to 3,000 µm.
- Creative sensory experience
- Eco-friendly
- Formulation creativity
- High payloads of lipophilics and insolubles
- Protection and delivery of sensitive ingredients
- Targeted delivery and deposition
- Temperature, dilution and chemical triggering
- Visual differentiation