A visual or odour check is not sufficient to verify whether the quality of the cooking oil is still good. Chain restaurateurs with the testo 270 cooking oil tester only need to change the cooking oil once critical TPM values are reached. This saves them from changing the cooking oil more frequently than is necessary, enabling them to also benefit from the associated cost savings.
Capacitive oil sensor from Testo, together with its needs-based design, make it possible to take measurements in hot oil (user is protected from the heat of the deep fat fryer)
IP 65: protected against water jets without a protective cover
Clear, visual alarm indication via highly-visible alarm backlight in traffic light colours
Washable case for hygienically stowing away at the application site
Handheld and laboratory Raman instruments as well as Surface Enhanced Raman Scattering (SERS) analyzers for material identification and verification. Our portfolio of Raman systems includes handheld Raman spectrometers for in-field use, benchtop Raman spectrometers for measurements in the laboratory, and process analyzers for in-line process development. Our Raman devices cater to various industries, from defence and security to food, pharma, and more. Use the filters to refine your search and find the perfect Raman solution for you.
Our range of ion chromatography (IC) instruments covers cost-effective, compact, and stand-alone options for routine analysis as well as modern, fully automated, and hyphenated systems for advanced applications. Our IC portfolio includes detectors, columns, sample preparation and automation solutions. Use the filters to refine your search and find the perfect ion chromatography system for you.
The use of UV transilluminators for the detection of DNA or RNA in agarose gels, is still very common, although we know quite well that the shorter the wavelength is, the more the DNA will be damaged quickly, which is dangerous especially if the separated DNA should be used in downstream experiments like cloning or sequencing. Just seconds of UV light is enough to reduce the cloning efficiency significantly.
In contrast to UV instruments, the new innovative LED technology uses a much higher wavelength, which means energy-less light. This will lead to the fact that the nucleic acids are not damaged but sometimes sensitivity is lower as compared to UV light. Furthermore, regular BLUE LED technology is working well with green dyes but couldn’t be recommended with red dyes like Ethidium Bromide, because the longer wavelength is favourable for green dyes but not for red components.
F&S Scientific is a leading provider of laboratory and field testing solutions in East Africa. We serve
customers in Healthcare, Industries, Research and Academia