ARRALYZE Glass Nanowell Dish
ARRALYZE Glass Nanowell Arrays feature precisely engineered nanowells in borosilicate glass, created with our patented LIDE technology. Each array contains up to 897 individual wells (0.4 × 0.4 × 0.225mm) with dimpled bottoms for optimal single-cell isolation and analysis.
The glass microwells are smooth and well-made, and the company's responsive support has made for a posi
Experimental scientific research
The glass microwells are well-made, with a smooth and round design that works well for our needs. The quality is consistent, and they perform as expected. I also appreciate the responsive and helpful customer support. The company has been communicative, addressing our questions in a helpfull and polite manner. Overall, a positive experience!
Review Date: 2 Apr 2025 | Arralyze
The ARRALYZE Glass Nanowell Dish is designed for high-precision cell analysis, enabling researchers to isolate, monitor, and analyze individual cells with unprecedented accuracy. Our proprietary Laser Induced Deep Etching (LIDE) technology creates perfectly defined nanowells in borosilicate glass, providing an inert environment that minimizes contamination risks while maintaining optimal optical properties for advanced microscopy. The glass bottom ensures reliable experimental conditions while supporting high-resolution imaging across various microscopy techniques, making it ideal for applications requiring detailed cellular analysis at the single-cell level.
Key Features & Benefits:
- 897 precision-etched nanowells (0.4×0.4×0.225mm) with dimpled bottoms
- Ultra-thin glass bottom (0.175μm) under wells for superior optical clarity
- Inert glass environment for contamination-free experiments
- Compatible with standard microscopy techniques and imaging systems
- Each 35mm dish contains 897 precisely engineered nanowells arranged with strategic fiducial markers for easy navigation and tracking.
Applications:
- Single-cell isolation and analysis
- Live cell imaging and monitoring
- High-throughput screening
- Cell line development
- Drug discovery and development
- Immunology research
- Cell and gene therapy development
- Synthetic biology