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Examples of Cell Cultures compared to Benchmarks.



Add Functionality of Choice to your Plate Surfaces - How the Products work.


Key Features and Properties

The polymers remove the disadvantages of artificial flat surfaces, which do not ensure the natural environment for your cells. Our technology allows higher levels of your projects not to be restricted or limited to just simple R&D approaches. Your high-level degree of advanced coating makes the starting surface properties invisible and establishes a predefined perfect natural environment, yielding better analysis and measurement of your experiments.

Using the Polymer you determine the Surface Characteristics based on three different Options.

1. Anchor Coating
Modification of the consumable surface eliminating risk of chemical reactions. The coating contains molecules that rapidly anchor themselves to surfaces through strong physical interactions and self-assembly.

2. Coating Shield
Prevention of non-specific interactions caused by inert layers, considerably enabling 3D cell culturing, shielding proteins and establishing a surface-cell barrier. The surface repels biomolecules creating an ultra-low attachment surface - an ideal interface for noise-free biological and biochemical assays.


3. Creation Biotags
A predefined biomolecule can be engineered to be highly cell-adhesive for your project. Our expertise in bioconjugation makes it possible to tailor the presentation and density of ligands and biochemical signals.


Best-in-Class Coatings create unprecedented Advantages and benefits to our Customers.

Customers gain ease of use, time and money, reproducibility, and flexibility concerning the preferred geometry.

We offer one of the fastest single spheroid built-up technology compared to low attachment or cell repellent surfaces. The advantage of our solutions accelerates your lab activities by about 40 hours or about one-third, lowering the risk to repeat your cell culturing efforts.

Superior round shape and uniformity of spheroids are of highest importance.
The 3D cell culture and maintenance on the BIOFLOAT™ surfaces result in highly uniform spheroids and perfect data consistency. Cell satellites and irregular aggregations are eliminated. As a result, for your spheroids, a round shape and level of uniformity can be achieved in a short time, shortening the incubation time substantially and delivering about 15 percent more perfect precision in circularity.

The quality of generated polymer-induced surfaces is part of your premium tool for spheroid and organoid cultures. Our development efforts produce perfectly shaped spheroids as demonstrated for human spheroid cultures at day 8 (see picture column Day 8 at the image carousel). Spheroid sizes can easily be predetermined by the number of cells per well.


Additional Facts which matter:

Summary of specific application properties for achieving superior project results:
  • Screening of compounds in 3 D cell culture systems
  • Use of stem cells in extracellular environments
  • Establishment of novel and challenging cell cultures, following potential novel composition for discovery
  • Generation of biochemical assays without noise
Key Features and Properties

The polymers remove the disadvantages of artificial flat surfaces, which do not ensure the natural environment for your cells. Our technology allows higher levels of your projects not to be restricted or limited to just simple R&D approaches. Your high-level degree of advanced coating makes the starting surface properties invisible and establishes a predefined perfect natural environment, yielding better analysis and measurement of your experiments.

Using the Polymer you determine the Surface Characteristics based on three different Options.

1. Anchor Coating
Modification of the consumable surface eliminating risk of chemical reactions. The coating contains molecules that rapidly anchor themselves to surfaces through strong physical interactions and self-assembly.

2. Coating Shield
Prevention of non-specific interactions caused by inert layers, considerably enabling 3D cell culturing, shielding proteins and establishing a surface-cell barrier. The surface repels biomolecules creating an ultra-low attachment surface - an ideal interface for noise-free biological and biochemical assays.


3. Creation Biotags
A predefined biomolecule can be engineered to be highly cell-adhesive for your project. Our expertise in bioconjugation makes it possible to tailor the presentation and density of ligands and biochemical signals.
Best-in-Class Coatings create unprecedented Advantages and benefits to our Customers.

Customers gain ease of use, time and money, reproducibility, and flexibility concerning the preferred geometry.

We offer one of the fastest single spheroid built-up technology compared to low attachment or cell repellent surfaces. The advantage of our solutions accelerates your lab activities by about 40 hours or about one-third, lowering the risk to repeat your cell culturing efforts.

Superior round shape and uniformity of spheroids are oh highest importance.
The 3D cell culture and maintenance on the BIOFLOAT™ surfaces result in highly uniform spheroids and perfect data consistency. Cell satellites and irregular aggregations are eliminated. As a result, for your spheroids, a round shape and level of uniformity can be achieved in a short time, shortening the incubation time substantially and delivering about 15 percent more perfect precision in circularity.

The quality of generated polymer-induced surfaces is part of your premium tool for spheroid and organoid cultures. Our development efforts produce perfectly shaped spheroids as demonstrated for human spheroid cultures at day 8 (see picture column Day 8 at the image carousel). Spheroid sizes can easily be predetermined by the number of cells per well.
Additional Facts which matter:

Summary of specific application properties for achieving superior project results:
  • Screening of compounds in 3 D cell culture systems
  • Use of stem cells in extracellular environments
  • Establishment of novel and challenging cell cultures, following potential novel composition for discovery
  • Generation of biochemical assays without noise