Liquid quality control with

NanoCuvette™ One

Do you want to do quality control for transparent industrial liquids?

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Refractive measures are widely used in the industry for rapid density quantification along with spectrophotometry for color and chemistry. However, this requires two instruments.

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For various applications in the pharmaceutical, food, cosmetic, automotive and chemical industries, it is important to determine the concentration exactly to ensure proper quality of the products. Since some liquids do not absorb light within the visual range, a standard absorbance measurement using a spectrophotometer will not be effective at determining the concentration. Therefore, the concentration is determined by measuring the refractive index and holding it against a standard curve.
Glycerol also called glycerine or glycerin) is a simple polyol compound.
For example, glycerol is a colorless, odorless, non-toxic, viscous and sweet-tasting liquid. It is used in a large variety of applications including as an emollient, humectant, sweetener, solvent, or antifreeze agent. Glycerol belongs to the alcohol family of organic compounds and contains three hydroxyl groups (-OH), which makes it soluble in water. It can be derived naturally and is stable under normal storage conditions and temperatures, but still requires quality control to ensure a good product quality.

Introducing clear liquid quality control with UV-Vis instruments

Conventionally a specialized refractometer has been required for the refractometric quantification of sugar. However, with the innovative NanoCuvetteTM One, a nanosensor is installed in a cuvette, allowing quantification of sugar to be carried out in a standard spectrophotometer. Because sugar does not absorb light in the UV-visible spectrum, traditionally, spectrophotometers have been unable to quantify sugar.

Absorbance + Refractive index with NanoCuvette™ One

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All that is needed is our NanoCuvette™ One and an UV-VIS spectrophotometer for instance Shimadzu, PerkinElmer, Thermo Ficher, Mettler Toledo, VWR or similar.

Conclusion

Traditionally a specialized refractometer has been required for determination of the refractive index. However, with the innovative NanoCuvette™ One, an optical filter is installed in a cuvette, allowing determination of the refractive index to be carried out over time in a standard spectrophotometer. This both clear and coloured liquids can be measured with a conventional spectrophotometer down to 0.5 µL of sample.