(VAOB16) 16ml Absorption Cuvette, Bonded, Lightpath 10mm, 63x31x14 mm, 2 Clear Windows
$ 91.53
Description VAOB16 Bonded Quartz Absorption Cuvette is a 2-window cuvette with a 10 mm optical path length and a 16 ml volume. It features a wide clear wall design, ideal for UV/VIS absorbance measurements where standard path length and stable light transmission are required. Bonded fabrication offers a cost-effective solution for general laboratory applications with good chemical compatibility under typical conditions. Key Features 10 mm optical path length — the industry standard for UV/VIS absorbance measurements. 2-window design — optimized for straight-beam absorbance spectroscopy. Bonded fabrication — cost-effective construction with good resistance to most mild solvents. Wide wall geometry — supports stable light transmission for routine measurements. Broad wavelength range — 190 – 2500 nm, suitable for UV/VIS and NIR applications. Typical Applications UV/VIS absorbance and transmission studies. General laboratory assays and routine measurements. Protein and nucleic acid quantification at 260/280 nm. Environmental pollutant analysis (e.g., nitrates, phosphates). Quality control in chemical and pharmaceutical testing. Bonded Fabrication Notes Bonded fabrication provides an economical choice for standard applications. Not recommended for high-temperature use or aggressive organic solvents. Best suited for aqueous and mild solvent environments. Typical path length tolerance is ±0.06 – 0.08 mm. Cuvette Specifications Type Absorption Quartz Cuvette Optical Path Length 10 mm Article No. VAOB16 Volume 16 ml Measuring Method Absorption Cells Clear Walls 63 × 31 mm Number of Windows 2 Wavelength Range UV/VIS (190 – 2500 nm) Height 63 mm Width (Inside) 27 mm Width (Outside) 31 mm Depth (Inside) 10 mm Depth (Outside) 14 mm Center Height (Z) 8.5 – 20 mm Fabrication Method Bonded* Package Cell Only Note: Bonded fabrication is ideal for routine UV/VIS absorbance work at standard path lengths. It is not recommended for high-temperature or aggressive solvent environments. The 2-window design ensures stable light transmission for most laboratory applications. Comparison of Fabrication Types 1234 *Molded*Fused*Bonded / Glued UV vis ( 190- 2500 nm)YesYesYes Transmission Matched On RequestNoNo Transmission > 80%YesYesYes Resistant to Acids and Bases (except hydrofluoric acid)YesYesNo Resistant to Organic SolventsYesYesNo Usable upto 600°C (1112°F)YesYesYes Usable upto 1200°C (2192°F)YesNoNo 0 Variations ReadingOn RequestNoNo FabricationMoldedAssembled with Quartz PowderAssembled with Glue AdhesivesNoNoYes StorageShort Term StorageClean After UseClean After Use Available MaterialFused Quartz Material NoteMolded and fused cuvettes and cells are assembled by direct fusion without the use of adhesives throughout the production process. This guarantees resistance against corrosive chemicals and high temperature. Each quartz cuvette and cell has excellent transmission from 190nm to 2500nm. 1 QVARZ Cuvettes Transmission Characteristics The following table is our cuvettes and cells made of quartz material suitable for wavelength from 190nm to 2500nm and depicts the percentage transmission for the material. IR or Glass material is not included. Why QVARZ Cuvettes and Cells?QVARZ is world-renowned as the producer of premium quartz cuvettes. Over fifteen years of experience manufacturing quartz cuvettes ensures that every QVARZ cuvettes are manufactured to the most exacting standards for reproducible results. Spectrophotometry cuvettes - Most spectrophotometry applications in the visible and UV ranges benefit from QVARZ spectrophotometry cuvettes. Our cuvettes made of fused quartz material deliver precise and reliable readings even at wavelengths as low as 190 nm. QVARZ cuvettes are compatible with most spectrophotometers and photometers with standard 0.2 - 100 mm path lengths. Fluorometry cuvettes - QVARZ brings two decades of experience molding high-quality spectrophotometry cuvettes to new four-sided clear cuvettes for fluorometry. Available in standard quartz material with ultra-low auto-fluorescence for the highest precision measurements. Protective packaging - QVARZ cuvettes are encased in dust-free, low scratching expanded polystyrene packaging. This ensures that premium cuvettes arrive in the laboratory ina the same pristine condition they were in at the factory, with optical quality windows and free of contaminants. Volumes for most purposes - Our cuvettes are available in a variety of ranges from macro to macro semi-micro sizes to respond to the needs of most scientific applications. We are also able to customize sample volume to deliver consistent, accurate findings. Perform consistently - QVARZ Cuvettes are constructed from high-quality fused quartz materials and are grouped by manufacturing mold cavities to ensure the lowest fluctuation in extinction coefficient. Customization - Custom cuvettes and cells are encouraged and available upon request; mechanical drawings with specifications and tolerances are prerequisites. Awesome pricing and flexibility on small quantities. To the best of our knowledge, the technical information provided here is accurate. However, Qvarz.com assumes no liability for the accuracy of this information. The values provided here are typical at the time of manufacture and may vary over time and from batch to batch. Related products Add to Wishlist Add to Wishlist (VAOF16) 16mL Colorimeter Cuvette, Fused, Lightpath 10mm, 62.5 x 32 x 14 mm 100 gIn Stock$219.00Add to cart Add to Wishlist Add to Wishlist Add to Wishlist Add to Wishlist (VAOF40B) 14mL Macro Window Clear Cuvette, Fused, Lightpath 40mm, 45×42.5×12.5 mm 100 gIn Stock$132.00Add to cart Add to Wishlist Add to Wishlist Add to Wishlist Add to Wishlist (VAOF20B) 7mL Macro Window Clear Cuvette, Fused, Lightpath 10mm, 45×22.5×12.5 mm 100 gIn Stock$99.00Add to cart Add to Wishlist Add to Wishlist Add to Wishlist Add to Wishlist (VAOF30B) 10.5mL Macro Window Clear Cuvette, Fused, Lightpath 30mm, 45×32.5×12.5 mm 100 gIn Stock$114.00Add to cart Add to Wishlist Add to Wishlist



