What are the types of cell culture consumables ?
https://www.fdcell.com/laboratory-cell-culture.html
Laboratory Cell Culture
Fudau is a laboratory cell culture consumables manufacturer, we take immense pride in offering bulk purchasing options and OEM/ODM services tailored to your specific requirements. Our extensive range of products includes Multi-wells Cell Culture Plates, Cell Culture Dishes, Glass Bottom Petri Dishes, Cell Culture Flasks, Erlenmeyer Flask, Baffled Erlenmeyer Flask, Online GlucoseLactate Monitoring Systems, Single Use Bottles Assembly, Ultra-Low Attachment Multiple Well Plates, Wave Tube. All products are meticulously crafted from pharmaceutical-grade polystyrene, ensuring they meet the stringent purity standards of USP Class VI.
Our wholesale products are
1. Multi-wells Cell Culture Plate is ideal for high-throughput screening, offering consistent and reliable results. The plate is available in a variety of well sizes and configurations to suit your specific requirements.
2. Cell Culture Dish is designed for maximum cell attachment and growth, providing a stable platform for your experiments.
3. Glass Bottom Petri Dish is an excellent choice for live-cell imaging, allowing you to observe cells in real time without the need for transfer.
4. Cell Culture Flask is perfect for large-scale cell culture, providing a reliable and consistent environment for cell growth.
5. Erlenmeyer Flask and Baffled Erlenmeyer Flask are designed for optimal aeration and agitation, providing an ideal environment for suspension culture.
6. Online GlucoseLactate Monitoring System allows for real-time monitoring of cell metabolism, providing valuable information for your experiments.
7. Single Use Bottles Assembly is perfect for sterile media and reagent storage, minimizing contamination and simplifying your workflow.
8. Ultra-Low Attachment Multiple Well Plates are ideal for sensitive cell types, preventing cell adhesion and promoting cell viability.
9. Wave Tube provides a novel method for simulating physiological fluid flow in vitro, allowing for more accurate modeling of in vivo conditions.
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