Ibidi µ-Dish 35 mm, high ESS Variety Pack Uncoated 81199
The Ibidi µ-Dish 35 mm, high ESS Variety Pack Uncoated 81199 is a microfluidic cell culture dish that allows for the precise manipulation and observation of cells in a controlled environment. It provides a high-performance surface that enables optimal cell attachment and growth, making it ideal for a wide range of applications including live cell imaging, cell migration assays, and drug screening.
- Benefits/Advantages:
- Versatile: With its high ESS (Extra Small Sample) design, the dish enables the cultivation of cells with minimal reagent consumption, making it suitable for limited sample sizes and expensive reagents.
- Enhanced cell visualization: The transparent material and low-profile design offer exceptional optical properties, ensuring great image quality and allowing for accurate data analysis.
- Exceptional cell viability: The dish's innovative design facilitates optimal gas exchange, nutrient supply, and waste removal, leading to improved cell survival rates and functionality.
- Convenient: The variety pack offers different geometries within the same package, providing flexibility and cost-effectiveness in experimental setups.
Product Details
Model | |
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Product Type | Consumables |
Part Number | 81199 |
Brand | ibidi GmbH |
Gross Dimensions (WxDxH cm) | |
Net Dimensions (WxDxH cm) | |
Gross Weight (kg) | |
Net Weight (kg) |
Coverslip Material | Glass Coverslip |
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ibidi GmbH
ibidi is a leading global supplier for functional cell-based assays and advanced products for cellular microscopy. A shared passion among the team for innovation, quality, service and a strong relationship to the customers, are the keys to ibidi's excellence and success.
ibidi is committed to supplying the highest quality products and service at a good value. Its innovative research tools enabling scientists to achieve outstanding success and breakthroughs in life sciences, pharma, biotechnology, and medical diagnostics. ibidi’s goal is to provide scientists with standardized workflows that result in reproducible and truly objective scientific data, which can also be translated into therapies.