FLOW CELLS

Organization Name

ILLUMINA, INC.

Inventor(s)

Johan Sebastian Basuki of Singapore (SG)

Tyler J. Dill of San Diego CA (US)

Justin Fullerton of San Diego CA (US)

Tanmay Ghonge of San Diego CA (US)

Brian D. Mather of San Diego CA (US)

Wei Wei of Singapore (SG)

FLOW CELLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18542447 titled 'FLOW CELLS

Simplified Explanation: The patent application describes a flow cell with a substrate, reactive regions separated across the substrate, and removable coatings over each reactive region, each containing a polymeric hydrogel layer and a reactive entity.

Key Features and Innovation:

• Flow cell design with spatially separated reactive regions.
• Removable coatings over each reactive region.
• Polymeric hydrogel layer in each reactive region.
• Reactive entities attached to the polymeric hydrogel layer.

Potential Applications: This technology could be used in:

• Biomedical research for cell culture and analysis.
• Environmental monitoring for detecting pollutants.
• Drug development for screening compounds.

Problems Solved:

• Facilitates controlled reactions in specific regions.
• Enables easy removal and replacement of coatings.
• Enhances the efficiency of processes requiring spatially separated reactions.

Benefits:

• Improved precision in reactions.
• Simplified maintenance and cleaning.
• Increased flexibility in experimental setups.

Commercial Applications: Potential commercial uses include:

• Biotechnology research labs.
• Pharmaceutical companies.
• Environmental monitoring agencies.

Prior Art: Readers can explore prior art related to flow cells, hydrogel layers, and reactive coatings in the fields of biotechnology, chemistry, and materials science.

Frequently Updated Research: Stay updated on advancements in flow cell technology, hydrogel materials, and reactive coatings for potential improvements and applications.

Questions about Flow Cells: 1. What are the key advantages of using flow cells in research and industry? 2. How do flow cells with removable coatings improve experimental flexibility and efficiency?

Original Abstract Submitted

An example of a flow cell includes a substrate; a plurality of reactive regions spatially separated from one another across the substrate; and a plurality of independently removable coatings respectively positioned over each of the plurality of reactive regions. Each of the plurality of reactive regions includes a polymeric hydrogel layer; and a reactive entity attached to the polymeric hydrogel layer.