Showing results: 61 - 75 of 120 items found.
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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.
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Raman Imaging -
Headwall Photonics, Inc.
Headwall's Raman spectrometers provide exceptionally high signal-to-noise efficiency and signal throughput. They are based on a patented aberration-corrected, all-reflective design using Headwall's own diffraction gratings.Aberration-corrected diffractive technology enables the use of large fiber bundles within the spectrometer. Sampling of larger target areas is thus possible while maintaining enhanced signal integrity.
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AFM-Raman & TERS -
Nanonics Imaging Ltd.
AFM-Raman is a synergistic tool combining a sample's topography and chemical signature. The Nanonics platform provides true upright or inverted integration without altering the Raman's path allowing for the ultimate in Raman and AFM imaging. This seamless integration provides many advanced features such as: All modes of TERS operation on both conducting and non-conducting surfaces.
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HORIBA, Ltd.
UV Raman (with laser wavelengths below 400nm) can be used to probe specific sample properties, and benefit from experiment properties different from typical visible Raman measurements – for example, greatly increased Raman scattering efficiency, modified laser penetration within the sample, and resonance coupling to different chemical moeities. However, UV analyses come with a number of technical challenges, that require considered instrument design to allow UV Raman to be a truly useful tool for the researcher.
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TriVista -
Teledyne Princeton Instruments
TriVista spectrometers are 2-stage or 3 stage spectrographs designed for demanding spectroscopy applications in material science, chemistry and life science. It is the most versatile and customizable spectroscopy platform for Raman, photoluminescence, resonance Raman and fluorescence.
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LabRAM Soleil Nano -
HORIBA, Ltd.
Fully integrated system based on our OmegaScope scanning probe microscope and LabRAM Soleil Raman microscope. LabRAM Soleil Nano offers unprecedented capabilities for direct co-localized AFM-Raman and photoluminescence measurements. AFM imaging modes (topographic, electrical, mechanical, etc.) and Raman acquisition can be performed either sequentially or simultaneously at the same location of the sample surface. Optical nano-resolution is also achievable with Tip-Enhanced Raman Spectroscopy and Photoluminescence (TERS/ TEPL). LabRAM Soleil Nano is compatible with the environmental chamber for AFM and Raman measurements in controlled atmosphere and at low temperatures.
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Raman -
Wasatch Photonics
Our f/1.3 modular spectrometers can be configured for fiber couple or free space. They use our proprietary volume phase holographic gratings paired with f/1.3 optics. This allows us to build a high-performance spectrometer in a small package. These spectrometers constantly outperform larger more expensive units. They have high throughput and are ideal for applications that demand fast integration times or for low light applications.
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Teledyne Princeton Instruments
The spectrometer cubes allow the flexibility to perform various techniques such as Raman, absorption, and transmission. Cubes are compatible with all spectrometers and are available for: focusing incoming light; beam splitting; housing sample; filtering for Raman light; generic filtering for order-sorting or band-limiting.
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WITec
All WITec''s Raman microscopes are operated with ultra-high throughput spectrometers (UHTS) that were distinctively developed for high speed and high resolution Raman imaging. The UHTS series comprises of six models in several focal lengths to accommodate multiple laser excitation wavelengths (UV to IR) and spectral resolution requirements.
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HFA5000 -
Hangzhou Huatai Optic Tech. Co., Ltd.
1. Erbium-doped Fiber Amplifier, due to multiple cascades and the accumulation of noise caused by spontaneous emission, will reduce the system CNR greatly and thus it will limit the transmission capacity and distance of the system. Raman Fiber Amplifier (RFA) is a newly designed fiber amplifier based on Stimulated Raman Scattering (SRS) effect. It is considered as the core technology of new generation DWDM fiber over-long communication. Compared with Erbium-Doped Fiber Amplifier, Raman amplifier has the advantage of low Noise Figure (NF), wider gain bandwidth, flexible gain spectral region and stable temperature. It is the only device that can operate in 1300~1600nm.
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IsoPlane® 81 -
Teledyne Princeton Instruments
The IsoPlane® 81 (previously known as FERGIE) is a compact, imaging spectrograph encompassing UV-NIR wavelengths ideal for microspectroscopy such as Raman, fluorescence, and absorption.
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DYNEOS AG
*Femtosecond multi-pulse transient absorption and reflection measurements *Femtosecond fluorescence upconversion *Time-resolved femtosecond stimulated Raman scattering (FSRS) *Hundred picoseconds-to-microsecond time-correlated single-photon counting (TCSPC)
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HORIBA, Ltd.
HORIBA Scientific is the world leader in Raman spectroscopy, with a long history in the technique. HORIBA OEM has pioneered Raman systems for spectroscopy, designing and manufacturing them for over four decades. We provide miniature spectrometers and systems for industrial applications such as process control, security, pharmaceutical, medical and semiconductor. The CiCi-Raman-785 is our high performance spectrometer featuring an aberration-corrected concave holographic grating configured with Horiba Scientific's Syncerity™ TE-cooled CCD camera with a VIS-NIR 2048 x 70 detector, in a TE-cooled Head at -50° C.
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RAMANdrive -
Nanophoton Corp.
RAMANdrive is the specialized Raman microscope for wafer analysis equipped with our dedicated 300 mm stage. RAMANdrive gives you an ultra-fast, highest resolution analysis of the whole wafer with unique stability and accuracy