Showing results: 76 - 90 of 115 items found.
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08-01 Series -
HÜBNER Photonics
*405 nm, 532 nm, 561 nm & 785 nm up to 500 mW*SLM diode pumped lasers (DPL) and narrow linewidth diode lasers (NLD)*Integrated optical isolator immune to optical feedback*Integrated spectral filter*Perfect for Raman, interferometry
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CRAIC Technologies
Photoluminescence Microspectrometer: an instrument designed to measure the fluorescence, photoluminescence, and emission spectra of microscopic samples with excitation in the UV, visible and NIR regions. our revolutionary technologies that include a range of microspectrophotometer, UV-Vis-NIR microscope, Raman microspectrometer, NIST traceable standards, accessories and software solutions.
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NuVant Systems, Inc.
The operando cells, designed to interface with certain IR and Raman spectrometers, enable study of electrode surfaces during normal operation. Choose between the "fuel cell" and "solid electrode" configurations. These custom - designed tools can help your research lab understand how materials behave under operation.
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SpectraView 2500 -
DYNEOS AG
* Ultra-low noise SPM* Colocalized nanochemical analysis by IR, THz, Raman, AFM* Cantilever probes are completely transparent* Versatile configurations: Kelvin Probe chemical potential, electrical, thermal and photon force
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ProEM® -
Teledyne Princeton Instruments
The ProEM® is a high-resolution, back-illuminated EMCCD with exclusive eXcelon™3 sensor technology providing high sensitivity within the UV-NIR range while reducing etaloning. With spectral rates of up to 20 kHz and single-photon sensitivity, the ProEM is ideal for low-light-level applications such as hyperspectral Raman imaging and single-molecule fluorescence.
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Kymera 328i -
Andor Technology Ltd
Intelligent and multi-modal spectroscopy platform for Physical and Life science. Adaptive Focus, automated optimization for the best quality of focus. 328 mm focal length, F/4.1 aperture; Ideal combination for a wide range of applications ranging from luminescence/photoluminescence spectroscopy to more demanding, higher resolution Raman spectroscopy or plasma studies.
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B&W Tek, Inc.
We offer a full suite of software for spectroscopic data collection and analysis designed for users at all levels, and varying applications. Our standard BWSpec® spectral data acquisition software allows for easy collection of data from our Raman systems and modular spectrometers. It includes tools for instrument control for data collection and spectral manipulation. The raw data and corrected data are stored and can be easily viewed. Data manipulation tools include smoothing, baseline correction and derivatives. Data can be saved in different formats for use in additional application software. For spectral identification against Raman spectral libraries with a simple interface for immediate identification for verification with a pass/fail result, our BWID® software provides qualitative analysis. Users of BWID software can create their own Raman spectral libraries, or select from our numerous ready to use libraries. For identification with portable Raman in regulated environments, the US FDA 21 CFR part 11- complaint version of BWID can be used. B&W Tek’s unique see-through identification using the STRam® can also be done using the BWID software operating on the embedded tablet computer of the STRam system. For quantitative analysis, data collected with BWSpec or other packages can be imported into the BWIQ® multivariate data analysis software, offering a full suite of data preprocessing, regression and classification analysis algorithms. PLS regression models from the BWIQ software an be used in rel-time in our BWAnalyst software, for use with the QTRam , as well as in Metrohm’s Vision® software. The i-Raman series portable Raman instruments can also be operated for single acquisition, or for real-time analysis in the Routine Analysis mode of the Vision software.
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NS3 NanoSpectralyzer -
Applied NanoFluorescence, LLC
A customizable, modular NanoSpectralyzer: In addition to its core function as a sensitive short-wave IR fluorometer and absorption spectrometer, the NS3 can be configured with any of the following spectral capabilities: Visible emission, extended SWIR emission, UV absorption, visible absorption, extended SWIR absorption, Raman. Up to 5 excitation lasers (405 to 830 nm).
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LabRAM Nano -
HORIBA, Ltd.
Fully integrated system based on SmartSPM state of the art scanning probe microscope and LabRAM HR Evolution fully automated Raman micro-spectrometer. LabRAM HR Nano offers full automation and versatile compatibility with outstanding performance.
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PicoTweezers -
Ionovation GmbH
Single or dual beam optical tweezers system based on an inverted microscope • 3D real-time video-based force measurements with sub-pN resolution • Huge free space above optical trap for all kinds of sample chambers and carriers • Manipulate and navigate trapped objects with nanometer precision • Easily extendable to fluorescence, STED, Raman spectroscopy, TIRF, or CLS.
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Omni-λTripple Series -
ZOLIX
Omni-λ 500 Triple Monochromator/ SpectrographThe Triple Monochromators/Spectrographs include three 500 mm focus monochromators which are with fine alignment. The first two monochromators as the dispersion subtraction are used to reduce the stray light. The third monochromator as dispersion sum configuration is used to improve the resolution. And each unit can work well as the monochromator, and the two unit can also be used as the double monochromator. The first and the second monochromator are the side entrance and double exits, the third monochromator is the double entrances and double exits, it is easy to connect the CCD and PMT, the single channel detectors. There are three import gratings in each monochromator, and the spectral range is located in deep UV region, the middle UV and visible region. Each grating reflectivity can be up to 70% in their spectral region. Mainly used in high grade Raman spectroscopy measurement, such as UV-resonance Raman spectroscopy.
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HORIBA, Ltd.
Aqualog® is the only instrument to simultaneously measure both absorbance spectra and fluorescence Excitation-Emission Matrices. EEMs are acquired up to a 100 times faster than with other instruments. Dedicated software automates traceable Quinine Sulfate Unit calibration and correction of inner-filter effects and Rayleigh and Raman scattering lines, enabling rapid export to modeling algorithms like PARAFAC.
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Aqualog -
HORIBA, Ltd.
Aqualog® is the only instrument to simultaneously measure both absorbance spectra and fluorescence Excitation-Emission Matrices. EEMs are acquired up to a 100 times faster than with other instruments. Dedicated software automates traceable Quinine Sulfate Unit calibration and correction of inner-filter effects and Rayleigh and Raman scattering lines, enabling rapid export to modeling algorithms like PARAFAC.
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NuVant Systems, Inc.
The spectroelectrochemical cell enables acquisition of infrared and Raman spectra of working electrode discs (variable sizes, up to 10 mm OD) under flowing solution. Working electrodes available include: Pt, Au, Ag, Cu, glassy carbon, etc. The cell uses a Pt-wire counter electrode and a Ag/AgCl reference electrode. For use with the EZpump peristaltic pump. Adapts to the Harrick Praying MantisTM Diffuse Reflection Accessory.
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Edmund Optics Inc.
Spectrometers are used to measure the properties of light for a variety of applications including environmental or chemical analysis, fluorescence, or Raman. Spectrometers are optical instruments that can detect spectral lines and measure their wavelength or intensity. Spectrometers are ideal for determining compositional makeup for detecting weak light signals. Spectrometers can also be used to test the efficiency of an optical filter in order to determine whether a filter has properly blocked or transmitted specific wavelengths.
