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Fluorescence

Absorbed light emission.

See Also: Fluorometers


Showing results: 226 - 238 of 238 items found.

  • Handheld Raman Analyzer

    TacticID®-1064 - B&W Tek, Inc.

    The TacticID®-1064 is a field-ready handheld spectral analysis instrument designed for non-contact forensic analysis by safety personnel and first responders, including law enforcement personnel, bomb squads, customs and border patrol, hazmat technicians, and more. The TacticID®-1064 utilizes proven Raman spectroscopy, allowing users to get real-time actionable identification of unknown chemicals, explosives, narcotics, pharmaceutical drugs and many other substances while reducing operational uncertainty and response time. The TacticID®-1064 includes a comprehensive library of over 10,000 substances. In addition, users have flexibility to create their own libraries. By utilizing the 1064nm wavelength, the TacticID®-1064 avoids fluorescence, allowing users to get results in less than 1 minute even when working with tough street samples.

  • Photon Counting Cameras

    Sydor Technologies

    Photek photon-counting camera systems are unique as they provide the ability to capture and integrate an image in real time. These systems are ideal for extremely low photon emission applications such as bio-luminescence, chemi-luminescence and weak fluorescence. The ability to accurately analyze transient events is a key feature of this product. The length of time that the image can be integrated is limited only by disc space, and allows the user to fully capture real-time events. X, Y and time co-ordinates for post acquisition analysis is also recorded. X-ray and vacuum imaging camera options are also available.

  • Precious Metal Analyzer

    MIDEX - SPECTRO Analytical Instruments GmbH

    Small spot energy dispersive X-ray fluorescence (ED-XRF) spectrometer optimized for precious metal testing. Analyzing precious metals alloys, SPECTRO MIDEX provides high precision and accuracy for a wide range of concentration levels — plus record-setting testing times (as low as 15 seconds). For small jewelry items or drill cuttings from remelted samples, it analyzes a small spot (typically 1.2 mm). For silver samples, which may be relatively inhomogeneous, averaged results from an optional larger spot size maintain high-accuracy results.

  • Handheld ED-XRF Spectrometers

    SPECTRO xSORT - SPECTRO Analytical Instruments GmbH

    The SPECTRO xSORT family of handheld ED-XRF spectrometers supplies elemental testing and spectrochemical analysis of myriad materials in widely varying conditions. These energy dispersive X-ray fluorescence devices are recognized for ruggedness and reliability on the job. They offer metals or nonmetals identification in seconds, with innovative technologies and designs that provide repeatable, laboratory-quality results. Simple, user-friendly displays and efficient ergonomics make these instruments extremely easy to use. At a range of affordable prices, SPECTRO xSORT spectrometers are leaders in their class for a broad spectrum of applications. - See more at: http://www.spectro.com/products/xrf-spectrometer/xsort-xrf-gun-handheld-analyzer#sthash.18piI4Px.dpuf

  • SERS (Surface Enhanced Raman Scattering) Substrate & SERS Reader – Mini Chemistry Analytic Pack

    BaySpec, Inc.

    The porous carbon SERS substrate provides not only high signal enhancement due to its strong broadband charge-transfer resonance for large chemical enhancement (as opposed to electromagnetic enhancement in traditional metal-based SERS substrates), but also extraordinarily high reproducibility or substrate-to-substrate, spot-to-spot, sample-to-sample, and time-to-time consistency in SERS spectrum (which is not possible with traditional metal-based SERS) due to the absence of "electromagnetic hot spots" by making the entire surface of the substrate "chemically hot", high durability due to no oxidization, and high compatibility to biomolecules due to its fluorescence quenching capability.

  • High Resolution, Low Noise CCD USB 3.1 Gen 1 Camera

    Lt1265R - Teledyne Lumenera

    The Lt1265R USB 3.1 Gen 1 camera builds on leading edge EXview HAD II technology to deliver high sensitivity, low noise and high dynamic range. High-grade electronics ensure clear, sharp and low noise images that render details with amazing accuracy. Superior responsivity up to 1000nm positions it as a good choice for Near-Infrared (NIR) imaging. This industrial-grade camera is ideally suited for a variety of applications including unmanned vehicles, surveillance, traffic, tolling, high-speed inspection and machine vision. A scientific-grade variant is available for the most demanding life science applications such as ophthalmology and fluorescence. The Lt1265R can also be customized to suit OEM designs.

  • FLIM Camera Systems

    Excelitas Technologies Corp.

    The Excelitas pco.flim camera system consists of the pco.flim camera and pco.flim laser, with a complete frequency synthesizer, which is required for the generation of the modulation signals in the frequency domain. The pco.flim series features a high frequency modulated CMOS image sensor that enables pixel-wise measurements of sample luminescence lifetime distributions in frequency domain suitable for fluorescence lifetime imaging. At a maximum speed of 10 Hz, full luminescence lifetime distributions can be measured at 1 Mpixel resolution. With flexible coupling and easy setup, the pco.flim is an ideal choice for wide-field FD-FLIM instruments and suitable for a variety of biomedical applications requiring a large frame and high-speed acquisition.

  • Color and Monochrome Camera

    DP74 - Olympus Corp.

    The DP74 color camera for fluorescence not only advances the speed and ease with which you can obtain detailed, accurate images but also introduces for the first time the concept of Intelligent Imaging. With Intelligent Imaging, the camera analyzes the live image and automatically applies its technology to reduce processing time and produce quality images of even dim and challenging samples. Furthermore the camera can follow your stage movements to create in real-time a panoramic image with mapped zoom-outs, a great time saver for documenting your sample. The DP74’s wide field of view and unsurpassed live speed provide an on-screen experience closely matching the traditional ocular view, thanks to its expertly calibrated colors. Maximize your investment return on a shared laboratory instrument with the camera’s top resolution of 20.7 megapixels and the capability to work with brightfield and fluorescent samples alike. These features are compatible with any microscope, whether manual or motorized, making the DP74 a perfect solution for a smarter and faster imaging workflow.

  • Photoluminescence Spectrometer

    FLS1000 - Edinburgh Instruments Ltd

    The FLS1000 sets the standard in both steady state and time-resolved photoluminescence spectroscopy for both fundamental research and routine laboratory applications. The system is a modular fluorescence and phosphorescence spectrometer for measuring spectra from the ultraviolet to the mid-infrared spectral range (up to 5,500 nm), and lifetimes spanning from picoseconds to seconds. All of this can be achieved through various upgrade routes, either at the time of order or in the future. Whether you are studying photophysics, photochemistry, biophysics, biochemistry, material or life sciences, the FLS1000 will enable you to reliably and accurately measure luminescence spectra and kinetics using state-of-the-art sources, detectors, acquisition techniques, quality optics and precision mechanics. The large sample chamber will house practically any type of sample accessory.

  • Near Field Scanning Optical Microscope

    MCL-NSOM - Mad City Labs Inc.

    The MCL-NSOM is a fully operational near field scanning optical microscope. It has been built on Mad City Labs versatile RM21™ inverted optical microscope which allows users to convert between NSOM, SPM, and fluorescence optical microscopy techniques. The MCL-NSOM builds on our successful resonant probe SPM and incorporates common elements such as the MadPLL® phase lock loop controller. The NSOM also exploits our expertise in precision motion control by including six axes of motorized positioning, for the sample and NSOM probe, and three axes of closed loop nanopositioning to provide exceptional position resolution and accuracy. The MCL-NSOM also includes a 635nm laser excitation source, fiber launch, oil immersion objective lens (100x, 1.25 N.A.), CMOS alignment camera and avalanche photodiode detector. The microscope configurable design allows researchers to tailor the instrument for many different optical microscopy techniques including near field spectroscopy. The MCL-NSOM is operated in aperture mode with shear force feedback. The standard 5 modes are supported: illumination, collection, illumination and collection, reflection and reflection collection. We supply a LabVIEW™ based software package which automates the motion control features.

  • EDXIR-Analysis Contaminant Finder/Material Inspector

    Shimadzu Corp.

    EDXIR-Analysis software is specially designed to perform qualitative analysis using data acquired by an energy dispersive X-ray (EDX) fluorescence spectrometer and a Fourier transform infrared spectrophotometer (FTIR). This software is used to perform an integrated analysis of data from FTIR, which is excellent at the identification and qualification of organic compounds, and from EDX, which is excellent at the elementary analysis of metals, inorganic compounds and other content. It then pursues identification results and the degree of matching. it can also be used to perform EDX or FTIR data analysis on its own. The library used for data analysis (containing 485 data as standard) is original to Shimadzu, and was created through cooperation with water supply agencies and food manufacturers. Additional data can be registered to the library, as can image files and document files in PDF format.  It is also effective for the linked storage of various types of data as electronic files.

  • EDX-FTIR Contaminant Finder/Material Inspector

    EDXIR-Analysis Contaminant Finder/Material Inspector - Shimadzu Corp.

    EDXIR-Analysis software is specially designed to perform qualitative analysis using data acquired by an energy dispersive X-ray (EDX) fluorescence spectrometer and a Fourier transform infrared spectrophotometer (FTIR). This software is used to perform an integrated analysis of data from FTIR, which is excellent at the identification and qualification of organic compounds, and from EDX, which is excellent at the elementary analysis of metals, inorganic compounds and other content. It then pursues identification results and the degree of matching. it can also be used to perform EDX or FTIR data analysis on its own. The library used for data analysis (containing 485 data as standard) is original to Shimadzu, and was created through cooperation with water supply agencies and food manufacturers. Additional data can be registered to the library, as can image files and document files in PDF format.  It is also effective for the linked storage of various types of data as electronic files.

  • Widely Tunable Ultrafast Laser System For Multiphoton Imaging

    InSight X3 - Spectra-Physics

    Spectra-Physics’ new InSight® X3™ is the third generation of Spectra-Physics’ industry leading InSight platform, specifically designed for advanced multiphoton microscopy applications. Based on patented technology1, InSight X3 features a broad 680 nm to 1300 nm continuous, gap free tuning from a single source, nearly double the tuning range of legacy Ti:Sapphire ultrafast lasers. InSight X3 delivers high average and peak power levels across the tuning range, including critical near infrared wavelengths above 900 nm for deepest penetration in-vivo. With Spectra-Physics’ integrated patented DeepSee™, the industry standard dispersion pre-compensator, the short pulses are optimally delivered through a microscope to the sample for maximum fluorescence and penetration depth. InSight X3 also has exceptional beam pointing stability, beam quality and output power stability, as well as fast wavelength tuning, making it ideal for microscopy.

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