Eppendorf \u00b5Cuvette\u00ae G1.0<\/h1><\/div><\/div><\/div>
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\nOne droplet is the limit?<\/b>
\nThe \u00b5Cuvette G1.0 is in your range: Only 1.5 \u00b5L of a sample is needed. The optical path length of only 1 mm enables a light path that is 10x shorter than the light path on standard cuvettes: Measure high nucleic acid and protein concentrations.<\/p>\n<\/div><\/section>
\n\n<\/span>Contact Us<\/span><\/a>\n<\/span>Request for Quote<\/span><\/a>\n<\/div><\/p><\/div><\/div><\/div><\/main><\/div><\/div>\n<\/span><\/span><\/div>\n<\/p>\n<\/div><\/div><\/div><\/div><\/div>\n\n\nProduct Information<\/div>\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nProduct Information<\/h2>\n
The Eppendorf \u00b5Cuvette G1.0 microvolume measuring cell is a high-quality cuvette made of aluminum and quartz glass. It is the perfect tool for measuring high concentrations in small volumes. With a fixed optical path length of only 1\u00a0mm, the \u00b5Cuvette G1.0 features a light path that is ten times shorter than in standard cuvettes. This allows nucleic acid and protein concentrations to be measured with high reproducibility in a much higher concentration range without prior dilution.
\nDue to the hydrophobic coating on the quartz glass, only 1.5 \u00b5L nucleic acid or 3 \u00b5L protein sample is required for precise formation of the liquid column. The self-absorption of the \u00b5Cuvette G1.0 is very low, meaning that the entire measuring range of the photometer can be used. Furthermore, 5 \u00b5L of the sample solution can be used for specific fluorometric assays saving reagent.<\/p>\n
In general, the lower the concentration of a sample, the longer the optical path length should be. The same physical model (Beer\u00b4s Lambert Law) claims, if the concentration of a sample is very high, the light path length being used should be shortened to ensure enough light can pass through the sample to reach the detector. Microvolume measurements with light path lengths equal or shorter than 1mm are recommended for concentrations above 25\u00a0ng\/\u00b5L dsDNA. If you are not sure which cuvette is the right solution for your sample, please visit our \u201cAbout Detection\u201d overview and check with the Cuvette Navigator. Please notice that the BioSpectrometers and BioPhotometers both accommodate standard cuvettes and the \u00b5Cuvette\u00a0G1.0. Thus, Eppendorf provides the flexibility of choosing the optimal light path length to detect a wide variety of sample concentrations!<\/p>\n<\/article>\n<\/a>Determining concentration via extinction factor and light path length is commonly performed in a cuvette format. In the case of standard cuvettes, the path length is determined by the width of the cuvette because the light beam travels through the cuvette horizontally. When using the \u00b5Cuvette\u00a0G1.0, the distance between the upper and the lower portion of the cuvette determine the path length. Thus, the measurements and the calculations can be performed identical to those in standard cuvettes. Once set in the parameters, the software automatically utilizes the right light path length when calculating concentrations. A defined angle for opening and closing the cuvette allows for easy and reproducible handling. Furthermore, the hydrophobic surface coating on the quartz glass guarantees simple cleaning, precise sample positioning and stable formation of the liquid column.<\/article>\n\n<\/a>Easy loading<\/b><\/h4>\nThe Eppendorf \u00b5Cuvette_G1.0 can easily be filled by pipetting the sample solution into the circle.<\/p>\n<\/article>\n<\/article>\n<\/article>\n\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n\n<\/article>\n<\/article>\n<\/article>\n<\/div>\n<\/div>\n\n\n\n\n\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n\n\n\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n\n\n<\/article>\n<\/article>\n<\/article>\n<\/article>\n\n<\/article>\n<\/article>\n<\/article>\n\n<\/div>\n<\/article>\n\n<\/div>\n<\/div>\n<\/section>\n\nFeatures<\/div>\n\n\n\n\n\n\n\n\nFeatures<\/h2>\n\n- Microvolume measuring cell for measuring 1.5\u00a0\u2013\u00a010\u00a0\u00b5L sample volumes<\/li>\n
- Concentration determination of nucleic acids and proteins, amongst other target analytes<\/li>\n
- Measurement of highly concentrated samples without prior dilution<\/li>\n
- Suitable for fluorescence assays<\/li>\n
- Low self-absorption (\u22640.05\u00a0A at 260\u00a0nm)<\/li>\n
- The hydrophobic surface coating on quartz glass for precise formation and positioning of the sample volume<\/li>\n
- Simple cleaning to minimize the risk of sample carry-over<\/li>\n
- A defined angle for folding the sides of the cuvette guarantees reproducible handling<\/li>\n
- One-component hinged design prevents the loss of individual parts<\/li>\n
- Exclusively available for use with Eppendorf BioPhotometer and Eppendorf BioSpectrometer.<\/li>\n<\/ul>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n<\/div>\n<\/div>\n<\/section>\n\n<\/div>\n
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One droplet is the limit?<\/b> The Eppendorf \u00b5Cuvette G1.0 microvolume measuring cell is a high-quality cuvette made of aluminum and quartz glass. It is the perfect tool for measuring high concentrations in small volumes. With a fixed optical path length of only 1\u00a0mm, the \u00b5Cuvette G1.0 features a light path that is ten times shorter than in standard cuvettes. This allows nucleic acid and protein concentrations to be measured with high reproducibility in a much higher concentration range without prior dilution. In general, the lower the concentration of a sample, the longer the optical path length should be. The same physical model (Beer\u00b4s Lambert Law) claims, if the concentration of a sample is very high, the light path length being used should be shortened to ensure enough light can pass through the sample to reach the detector. Microvolume measurements with light path lengths equal or shorter than 1mm are recommended for concentrations above 25\u00a0ng\/\u00b5L dsDNA. If you are not sure which cuvette is the right solution for your sample, please visit our \u201cAbout Detection\u201d overview and check with the Cuvette Navigator. Please notice that the BioSpectrometers and BioPhotometers both accommodate standard cuvettes and the \u00b5Cuvette\u00a0G1.0. Thus, Eppendorf provides the flexibility of choosing the optimal light path length to detect a wide variety of sample concentrations!<\/p>\n<\/article>\n The Eppendorf \u00b5Cuvette_G1.0 can easily be filled by pipetting the sample solution into the circle.<\/p>\n<\/article>\n<\/article>\n<\/article>\n <\/p>
\nThe \u00b5Cuvette G1.0 is in your range: Only 1.5 \u00b5L of a sample is needed. The optical path length of only 1 mm enables a light path that is 10x shorter than the light path on standard cuvettes: Measure high nucleic acid and protein concentrations.<\/p>\n<\/div><\/section>
\nProduct Information<\/h2>\n
\nDue to the hydrophobic coating on the quartz glass, only 1.5 \u00b5L nucleic acid or 3 \u00b5L protein sample is required for precise formation of the liquid column. The self-absorption of the \u00b5Cuvette G1.0 is very low, meaning that the entire measuring range of the photometer can be used. Furthermore, 5 \u00b5L of the sample solution can be used for specific fluorometric assays saving reagent.<\/p>\n<\/a>Easy loading<\/b><\/h4>\n
Features<\/h2>\n
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