Search Thermo Fisher Scientific
Search Thermo Fisher Scientific
Catalog Number | Wells | Material | Description | Unit Size |
---|---|---|---|---|
155361 | 1 | Borosilicate Glass (1.0) | 1-well Chambered Coverglass w/ non-removable well | Case of 96 |
155361PK also known as 155361 | 1 | Borosilicate Glass (1.0) | 1-well Chambered Coverglass w/ non-removable well | Pack of 16 |
155380 | 2 | Borosilicate Glass (1.0) | 2-well Chambered Coverglass w/ non-removable wells | Case of 96 |
155380PK also known as 155380 | 2 | Borosilicate Glass (1.0) | 2-well Chambered Coverglass w/ non-removable wells | Pack of 16 |
155383 | 4 | Borosilicate Glass (1.0) | 4-well Chambered Coverglass w/ non-removable wells | Case of 96 |
155383PK also known as 155383 | 4 | Borosilicate Glass (1.0) | 4-well Chambered Coverglass w/ non-removable wells | Pack of 16 |
155411 | 8 | Borosilicate Glass (1.0) | 8-well Chambered Coverglass w/ non-removable wells | Case of 96 |
155411PK | 8 | Borosilicate Glass (1.0) | 8-well Chambered Coverglass w/ non-removable wells | Pack of 16 |
Ordering Information:
Image cells with the help of extracellular matrix (ECM)
Learn how to coat glass chamber slides with ECM to help with cell attachment during IHC ›
The upper structure on our Nunc Lab-Tek Chambered Coverglass is not removable, and therefore not designed for coverslipping.
Please review the following possible causes and solutions:
- The microscope could be dirty from fingerprints or oils. We recommend cleaning your microscope prior to use and always after oil immersion. When using oil immersion, it is important to use the specific brand of oil designed and recommended for that particular microscope.
- An incorrect type of coverslip or coverglass can cause poor resolution. We recommend Nunc Lab-Tek Chambered Coverglass (made from 1.0 borosilicate glass) and Nunc Lab-Tek II Chambered Coverglass (made from 1.5 borosilicate glass) for the best resolution. Plastic coverslips may affect resolution at high magnification due to refractive index differences between the glass and plastic.
- An incorrect thickness for the coverglass can cause poor resolution. Please consult your microscope's manual for the best information.
- The coverslipping procedure may affect resolution. A clear seal is required, free of debris and particles. When performing oil immersion, bubbles may result in poor resolution under high magnification.
Lab-Tek and Lab-Tek II chambered coverglass products can be plated with cells, incubated, and handled in the same way. The two products differ in the thickness of the glass and the chamber size. Lab-Tek coverglass uses Borosilicate coverglass No. 1 that is 0.13 - 0.16 mm thick and Lab-Tek II coverglass uses Borosilicate coverglass No. 1.5 thath is 0.16 - 0.19 mm thick. Lab-Tek II coverglass chambers hold 10 - 50% more media than Lab-Tek coverglass chambers, depending on the format. Studies have shown that Lab-Tek II chambered coverglass works well with fastidious cells such as neuronal, as well as poorly adherent cell lines.
Lab-Tek products are compatible with all common fixatives, including paraformaldehyde. Acetone at 100% and some mixtures of acetone and alcohols are not compatible with the polystyrene upper well structure and will result in clouding or other effects of chemical attack. We encourage careful testing within planned operating conditions before working with high-value samples.
Lab-Tek chambered coverglasses are not accessories to Lab-Tek chamber slides, but another complete product for cell culture. The chambers are simply adhered to a borosilicate coverglass (to serve as the culture surface) rather than a soda lime glass or Permanox microscope slide. Most customers select this format for compatibility with confocal imaging systems that require a #1.0, approx. 120 micron (Lab-Tek) or #1.5, approx. 180 micron (Lab-Tek II) substrate. Because the coverglass is very thin and fragile, the chambered coverglasses (unlike chamber slides) cannot be disassembled.
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