Microplate readers deliver flexibility and ease of use over a range of applications. Agilent BioTek multimode microplate readers offer modularity and upgradability to enable laboratories to address multiple workflow and data analysis requirements, now and as the laboratory’s assay needs change in the future. Agilent BioTek single mode microplate readers feature ease of use and excellent specifications for performance and economy. Microplate readers integrated into automated stackers and robotic systems expand throughput and efficiency.
Microplate readers deliver flexibility and ease of use over a range of applications. Agilent BioTek multimode microplate readers offer modularity and upgradability to enable laboratories to address multiple workflow and data analysis requirements, now and as the laboratory’s assay needs change in the future. Agilent BioTek single mode microplate readers feature ease of use and excellent specifications for performance and economy. Microplate readers integrated into automated stackers and robotic systems expand throughput and efficiency.
Microplate readers deliver flexibility and ease of use over a range of applications. Agilent BioTek multimode microplate readers offer modularity and upgradability to enable laboratories to address multiple workflow and data analysis requirements, now and as the laboratory’s assay needs change in the future. Agilent BioTek single mode microplate readers feature ease of use and excellent specifications for performance and economy. Microplate readers integrated into automated stackers and robotic systems expand throughput and efficiency.
The Agilent BioTek range of compact, yet configurable microplate washers and dispensers offer a variety of solutions to meet your laboratory’s specific liquid handling needs. Agilent BioTek dispensers and washers can be integrated into many robotic systems for increased automation and efficiency.
The automated microplate dispensers perform across a range of volumes from millilitres down to 500 nanoliters. They offer simple, repeatable and precise liquid delivery throughout their defined volume range. Modular single-channel, multi-channel, and bulk reagent dispensers help to meet varied liquid handling requirements.
Lionheart FX automated microscope is a compact system for a broad range of imaging workflows. It offers up to 60x and 100x oil immersion magnification, with fluorescence, brightfield, color brightfield, and phase contrast channels for maximum application reach.
Small footprint with no need for excess instrumentation or a darkroom enables easy installation on most standard lab benches
High-quality Olympus objectives and Semrock filters drive excellent image quality and performance
Wide field of view (WFOV) camera provides fast automated imaging in microplates and slides, enabling researchers to get the answers they need quickly
Gen5 imaging software offers unique, full automation to capture, process, analyze, and publish workflows
Environmental controls enable Lionheart FX to image and analyze live cell assays over time
Laser-based and software-based autofocus capture sharp, in-focus images in automated microscopes
Open design of the Lionheart FX stage allows researchers to work with microfluidic devices
Dual reagent injector module for Lionheart FX allows fast cellular reactions to be imaged after the addition of a reagent
Agilent BioTek automated imagers and cell imaging multimode readers deliver versatility, performance, and value, while bringing your science to life. Gen5 software drives the automated process known as Augmented Microscopy to help capture spectacular images, apply powerful image processing and analysis tools and produce high quality images and data. The Agilent BioTek Lionheart automated microscopes enable fixed and live cell imaging and analysis. The modular Cytation instrument line are configurable and can include confocal and widefield inverted microscopes, an automated upright microscope, and multimode detection on a single platform for application versatility with quantitative and phenotypic results from one instrument.
Instruments for trace analysis of metals and other electrochemically active substances with voltammetry, polarography, and CVS i.e Professional CVS, Professional VA and Portable VA Analyzer.
Advanced process analyzers for industrial inline, online, and atline analysis: petrochemical, energy, semiconductor, metal, paper, mining, and (waste)water applications.
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.
Near-infrared (NIR) spectrometers for non-destructive analysis of a wide variety of samples in the lab and the process, from liquids, solids, and pastes to slurries, tablets, and capsules. Our portfolio of near-infrared spectrometers includes laboratory NIR analyzers for quality assurance and quality control as well as process NIR analyzers for online monitoring of chemical parameters in various industries. Use the filters to refine your search and find the perfect NIR spectrometer for you. Are you looking for Raman instruments?
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.
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