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Spectrum 400 FT-IR and FT-NIR Spectrometer
The winning platform...
No Matter What You Measure… There is One Answer.
The Spectrum™ 400 is a dual system, single platform for optimized near-infrared (NIR) and optimized mid-infrared (MIR) spectroscopy in a single, research-grade instrument.
Productivity, versatility and simplicity are now yours at the push of a button. The Spectrum™ 400 features fully automatic switching between NIR and MIR measurement modes and dual sampling positions, enabling fast changing between applications to drive productivity with automatic, push-button ease.
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Nicolet iS10 FT-IR Spectrometer
The Nicolet iS10 FT-IR spectrometer offers performance, reliability and simplicity, giving analysts and technicians complete confidence in their results. Empowered with automatic system suitability tests, efficient sampling accessories and innovative task-oriented software, the Nicolet iS10 takes you from sample to answer quickly, simply and accurately.
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Varian 670/680-IR FT-IR spectrometer
The World's Best FT -IR Spectrometers
The Varian 600-IR series spectrometers and microscopes deliver the highest energy throughout, making them the ideal solution for research or method development applications. Run samples faster, while maintaining the highest accuracy and reproducibility, saving both time and money. Intuitive, easy-to-use software and "plug and play" hardware simplify analyses and maximize output for both novice and expert users.
The Varian 670-IR air-bearing FT-IR spectrometer redefines the meaning of high performance. Designed to extend performance boundaries in application areas such as polymers/materials, pharmaceuticals, biotechnology and chemicals.
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A multi-point, multi-stream FTIR analyzer. Designed for remote, real-time monitoring of continuous and batch processes. Our spectrometers provides information needed for process optimization in the refining, chemical, pharmaceutical, food, semiconductor and other industries.
Real-time monitoring of chemical composition and physical properties is key to providing tight control of industrial processes.
- Higher yields
- Higher throughput
- Improved quality or your analysis
- Near-infrared (NIR) portion of the electromagnetic spectrum (800 to 2500 nm)
- Quantitative analysis of organic compounds
- Quantitative analysis of inorganic aqueous solutions and salts.
- Flexible Siting
- Flexible Sampling
- Flexible Multi-detector module
- Flexible communication
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Bruker Optics offers a wide variety of laboratory FT-IR spectrometers, from the world's smallest to the highest resolution for all your Routine, Research and Life Science applications.
VERTEX Series FT-IR Spectrometers
When we set the bar for research FT-IR spectrometers, we knew that someday we would feel obliged to raise it. The new VERTEX Series is the culmination of everything Bruker Optics has pioneered and developed in over 30 years.
The VERTEX Series is built on a fully upgradeable optics platform that is designed with the utmost flexibility in mind. VERTEX spectrometers share a wide range of features, including the Bruker Artificial Intelligence Network (BRAIN), Automatic Component Recognition (ACR), the Plug & Play Ethernet connection and Automatic Accessory Recognition (AAR).
VERTEX70/70v FT-IR Spectrometers
Bruker's VERTEX 70 Series FT-IR Spectrometers are based on the well-known RockSolid™ interferometer and the ideal entry level systems for Advanced Research applications. The newly available vacuum optics bench provides class leading specifications.
VERTEX 80/80v FT-IR Spectrometers
The new VERTEX 80 and the VERTEX 80v vacuum FT-IR spectrometer is based on the actively aligned UltraScan™ interferometer, which provides PEAK spectral resolution. The precise linear air bearing scanner guarantees the ultimate sensitivity and stability.
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The Interspec 200-X series of FTIR spectrometers represent a low cost Fourier transform infrared spectrometers and employ a number of unique features that ensure high performance from a compact instrument. The Interspec 200-X measures just 59 X 39 X 19 cm and is regarded as one of compact and versatile infrared FTIR spectrophotometers. The design of the 200-X is unique both in terms of optical design and the software and firmware designed specifically to significantly reduce overall analytical times. The interferometer geometry is employing a new compact Michelson self compensating optical system that eliminates many of the optical alignment problems found in conventional type optical interferometers. The Interspec 200-X design avoids the use of conventional corner cube optics and dynamic alignment. In practice this means that the instrument can be used in the research laboratory, in any university or college environment and if required, can also be used outside laboratory or in remote locations.
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M Series spectrometers provide a full range of resolution, from 2cm -1 for routine analysis up to 0.5cm -1 for high resolution work such as gas and multicomponent analysis. All models are step selectable down to 32cm -1 . The generous sample compartment is accessible from three sides and accepts sampling accessories from most major suppliers.
Current generation M4000 spectrometers truly represent evolved technology. They represent over two decades of product development, incorporating many of the features that allow our high performance dedicated analyzers to achieve low ppb detection levels in complex gas matrices. This includes dual 16 bit ADC architecture, and advanced mirror drive electronics providing six different scan speeds and superior stability. You can select from KBr, ZnSe and BaF2 optics to suit your spectral region of interest. Three available detectors, including air cooled DTGS and liquid nitrogen cooled MCT or InSb provide further flexibility. Thermo-electrically cooled MCT and InSb detectors that do not require liquid nitrogen for cooling are also available. You can even specify a dual detector system, where switching detectors is as easy as turning a key.
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Shimadzu, one of the world leaders in analytical instrumentation, offers the whole line of Spectroscopy equipment as e.g.
Infrared Spectrophotometers(IR/FTIR):
- NEW: IRAffinity-1
- FTIR-8400S
- IRPrestige-21
- IRsolution
- AIM-8800 Microscope
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The Antaris NIR product line presents an industry-driven migration of NIR spectroscopy from laboratory to industry with fit-for-purpose NIR analyzers. This initiative creates a solution that migrates process analysis from the lab into production and directly measures points in product manufacturing. Antaris NIR analyzers share the same software, qualification tools, method tools, and support. All Antaris NIR Analyzers use state of the art NIR technology.
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The award winning MATRIX™-F is a new generation of Fourier Transform Near Infrared (FT-NIR) spectrometer. It is the first industry hardened FT-NIR system that can directly withstand harsh environments. This instrument incorporates state-of-the-art optics for outstanding sensitivity and stability, in a compact package. Its innovative design provides consistent high quality results, less downtime, direct methods transfer and the possibility of new applications that less sensitive and precise instruments are incapable of. In addition, the same instrument can go directly from the lab to the factory, eliminating the need for a new instrument when your method is ready for integration into your process control system. Full support of industry standard communication protocols make integration simple.
MATRIX™-F is the complete solution for all your process FT-NIR needs, from Raw Material Identification to Quality Control of your finished products. Utilizing the built-in and external multiplexer options up to 48 reactions can be monitored by a single instrument. A wide range of probe adaptations are available for determining analytic concentrations in liquid and emulsions in addition to powders and pellets.
The MATRIX™-F is also at home in the laboratory. It can be used as a standalone system for method development and then move directly into your process application. The MATRIX™-F and its peripherals are individually enclosed modules designed to easily fit into standard 19 inch racks and enclosures. This allows you to completely customize your process control system, as the modules can be used as standalone units or mounted within a single enclosure.
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FTIR Laboratory Spectrometer
Step up to the new MB3000 FTIR spectrometer from ABB.
It is the most reliable FTIR system in the market with the lowest cost of ownership. Combined with the intuitive Horizon MBTM FTIR software, the MB3000 will facilitate acquisition, processing and analysis of samples.
Easy to use and maintenance free, it will provide constant analysis results for years to come. The MB3000 offers ease of use, reliability and constant results in order to address the concerns of lab users.
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Features:
- A modular industrial spectrometer designed for versatile external sample interfacing
- A selection of optimized gas cells
- Powerful AutoQuant Pro software
- High quality spectral reference libraries
- Assistance with method development, (including EPA and SEMATEC protocols)
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The multi EA 4000 introduces a new generation of elemental analyzers for determining C, S and Cl in solid samples. Simple and straightforward determinations - TS, TC, TX, TOC, TIC, EC and AOC parameters in inorganic and organic solids.
It is versatile, reliable and easy to operate, yet offers real macro elemental analysis. Sample weights up to 3 g can be analyzed with ease using the multi EA 4000 – no laborious sample homogenization is necessary.
The High Temperature Ceramic technology is extremely robust and needs no catalyst; it’s easy to run precise analyses, even with aggressive and corrosive samples at high temperatures!
The special wide-range NDIR detector allows the simultaneous detection of carbon and sulfur over a broad, dynamic measuring range, all the way from ppm up to percent.
Elemental carbon or decomposable organic carbon determinations are also easy with the multi EA 4000.
A broad-range coulometer with a patented combination electrode is available for chlorine analyses across a wide range.
A large-capacity is optionally achieved thanks to a fully automated solid sampler which transfers the sample boats to the combustion furnace to get automated C, S and Cl analyses with amazingly high sample throughput. The sampler is also optimized for automated TOC determination.
The multi EA 4000 gives you fully automated determination of TOC and TIC samples, with autosampler control in a single analysis cycle.
- Highly convenient operation
- Unique application diversity
- Intuitive software navigation
- Preset standard methods
- Minimal maintenance requirement
- Self-Check-System
- Low operating costs
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AM Open Path FTIR Air Monitoring Systems bring the versatility of multicomponent analysis and the immediacy of real-time results to a variety of field applications. Now you can avoid the "hit or miss" guesswork of point sampling and the inaccuracy and delays of "bag and carry" offsite analysis. You no longer need heavy, complicated, and trouble-prone backpacks - and you don't have to wait for days or even weeks for analysis of your canisters to return from the lab.
MIDAC air monitoring systems are extremely compact, lightweight, and easy to set up and dismantle. A single technician can move the system and have it up and running on battery power in a remote location in less than 15 minutes. And you'll get almost immediate feedback from your measurements.
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Automated infrared detection system for real-time remote sensing of atmospheric compounds. Clouds of hazardous emissions from chemical accidents or diffuse emissions from waste disposals can be observed with an operating range of up to several kilometers.
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The Mobile-IR is a self-contained, rugged mobile infrared spectrometer for identification of unknown substances. Unlike other portable instruments, Bruker’s Mobile-IR offers benchtop FT-IR performance, providing wider spectral coverage and higher spectral resolution. The Mobile-IR is available as a powders and liquids analyzer or a dedicated liquid analyzer. Its embedded computer with large touchscreen display offers validation. OPUS/Mentor software guides the users in every step of the analysis, can rapidly identify the unknowns from the built-in library. Additional libraries can easily be added.
Fourier Transform Infrared (FTIR) Spectroscopy provides information on molecular vibrations and allows chemical fingerprinting of samples. It is widely used for the analysis of both organic and inorganic materials. This non-destructive technique requires only a small amount of sample for analysis. Unknown substance may be identified by comparison with library reference spectra. Moreover, the ATR (attenuated total reflection) sampling technique eliminates sample preparation, offers easy and fast sampling of liquids and solids.
Bruker is the leading manufacturer and worldwide supplier of Fourier Transform Infrared, Near Infrared and Raman spectrometers. It offers the world’s most comprehensive FT-IR product line that includes routine to research grade FT-IR spectrometers; from the world’s smallest to the highest resolution spectrometers for various quality control.
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The Interspec 300-X series of FTIR portable spectrometers represent a low cost Fourier transform infrared and near infrared portable spectrometers and employ a number of unique features that ensure high performance from a compact instrument. The Interspec 300-X measures just 49 X 39 X 20 cm and is regarded as one of compact and versatile infrared FTIR spectrophotometers. The design of the 300-X is unique both in terms of optical design and the software and firmware designed specifically to significantly reduce overall analytical times. The interferometer geometry is employing a new compact Michelson self compensating optical system that eliminates many of the optical alignment problems found in conventional type optical interferometers. The Interspec 300-X design avoids the use of conventional corner cube optics and dynamic alignment. In practice this means that the instrument can be used in the research laboratory, in any university or college environment and if required, can also be used outside laboratory or in remote locations.
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Raman IdentiCheck Portable Raman System
The PerkinElmer® Raman IdentiCheck™ is a unique instrument that combines the convenience of a portable, hand-held triggered probe system with the performance of a highly specified laboratory instrument. It is the perfect choice for in-situ Raman analyses performed away from the normal laboratory but where high-quality data is essential, such as:
- Laboratory-based or field-based forensic analysis
- Homeland security
- Laboratory or warehouse QA/QC analysis
- In-situ conservation analysis
- Analysis of samples in specialist enclosures such as fume-cupboards
- Laboratory or in-field geological analysis
- Any field-based material identification analysis such as chemical spillage
or environmental analysis.
Raman IdentiCheck is packed into a portable, wheeled case, with retractable handle suitable for transportation.
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The MiniRam™ Raman spectrometer system is a powerful and versatile instrument with a miniature design. Lightweight and with a small footprint, this highly affordable system delivers high resolution and low noise without cumbersome cooling schemes. Fast data acquisition through an easy plug-and-play USB interface and open-framed operating software with multiple data formats and easy data transfers makes this system diverse to a wide range of applications; Raman feasibility studies, university teaching labs, and with our external battery option becomes portable for field applications.
Key Features
- Lightweight
- Small size
- Highly portable
- USB interface connection
- Optional external battery
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BaySpec's SafeInspec-0TM Handheld Raman Analyzer delivers high sensitivity and repeatability in an affordable, ruggedized battery-operated form factor.
1st Generation Raman Analyzers were limited to laboratory instruments. 2nd Generation Analyzers, although portable, were costly and struggled with repeatability. BaySpec's 3rd Generation SafeInspecTM delivers highly repeatable results in a sleek handheld package. High reliability (MIL STD 810F shock and vibration) is achieved through a rugged mechanical design with no moving parts based on Volume Phase Gratings (VPG®), the same components used in today's head-up fighter jet displays. Periodic calibration is not required. A convenient Windows®-based Handheld PC is included for qualitative and quantitative measurements.
Features:
Can identify both commonplace and rare chemicals through glass, plastic, transparent- and even translucent- materials
Ergonomically-optimized, ultra light weight
Single-handed or wireless hands-free analysis to maximize field performance
Can accurately identify chemicals in mixtures at concentrations as low as 30%, dependent on mixture's specific chemica(s) and substance(s)
Boothtooth access to external PC or Smart Phone (PC/phone not provided)
Rapid automated calibration to ensure operational accuracy
Helps reduce the likelihood of human error by eliminating sample preparation and test interpretation
Non-destructive testing preserves samples for additional tests and/or as evidence
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The Inspector Raman™ is a robust, portable Raman spectrometer that fits in your hand for analysis of solids, liquids, pastes, and slurries. This lightweight, dispersive spectrometer has no moving parts and may be used in any position. Raman spectroscopy offers the advantage of identifying various substances by their unique fingerprint, based on the chemical structure of the unknown, and can do so through walls of sealed bags, transparent bottles, flasks, vials, and ampoules without opening the container. Data is retrieved remotely with Bluetooth technology or USB with a laptop and NuSpec™ software. Spectral libraries are developed using DeltaNu's library development software for identification of unknown substances.
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The AvaRaman Raman System is a fully integrated, low-cost system for applications requiring Raman techniques. The AvaRaman system consists of a laser diode, an AvaSpec 2048 CCD-array spectrometer and an expanded range of fiber optic probes. The AvaRaman System is available for multiple Raman wavelengths in 2 basic versions:
The low-cost non-cooled version with 25 cm–1 resolution, standard built-in solid state laser .
The high performance, TE-cooled version with a stabilized Laser that can achieve an optical resolution of 8 cm-1.
Both AvaRaman systems come with special AvaSoft-Raman software (see software section). The AvaRaman System is optimized for maximum sensitivity. The maximum integration time is 60 seconds.
The AvaRaman is especially useful for analysis, such as reaction monitoring, product identification, remote sensing, and the characterization of highly scattering particulate matter in aqueous solutions, gels and other media.
The AvaRaman System is also available with different Laser types than the standard 785nm, such as Ar-Ion 514 nm, solid-state 50 or 100 mW green (532 nm) lasers or HeNe lasers 633nm.
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Raman Systems
Raman spectroscopy provides rapid and reliable non-destructive analysis of aqueous solutions, powders, tablets, gels and surfaces.
Applications
» Art measurements
» Biology analysis
» Catalyst monitoring
» Corrosion studies
» Forensic identification
» Material characterisation
» Gemology measurements
Ocean Optics offers different kinds of Raman Systems:
» QE65000 Modular Raman Systems
Features a laser, a spectrometer and probe and can be configured to fit your specific application.
» Turnkey Raman Systems
Features a high performance system for quick material identification and verification.
» Portable Raman Systems
Features a hand held system for field deployment and fast incident response.
Advantages
» Comparable information to IR
» Can analyse liquids, gels, powders and solids
» Contact with sample is not necessary
» Real time qualitative analysis
» Excellent resolution
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Renishaw manufactures a wide range of optical spectroscopy products, including: Raman microscopes, compact process monitoring Raman spectrometers, Raman analysers for scanning electron microscopes, lasers for spectroscopy, and state-of-the-art cooled CCD detectors.
The Renishaw Raman systems exploit the Raman effect to identify and characterise the chemistry and structure of materials in a non-contacting, non-destructive manner.
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The DXR SmartRaman spectrometer is designed for use in busy mult-purpose analytical labs that require reproducible and accurate results from dependable, low maintenance instrumentation. DXR SmartRaman delivers all of the benefits of Raman- no sample preparation, sampling through packaging, and high specificity with organics and many inorganics, in a validatable package that does not require that the user become a Raman expert.
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The innoRamTM is the first Raman spectrometer system featuring an integrated
touch screen computer with research grade performance. The combined portability and versatility this system features will provide you with the tools needed to tackle the dynamic Raman spectroscopy industry in a lab or a mobile environment.
Highlights
- Spectral Resolution of 2cm-1
- 65cm-1 of the Raleigh Line
- Detector Cooled to -20oC
- Double Pass Transmission Optics
- Integrated Touch Screen Computer
- Network and Bluetooth Capabilities
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The intuitive, easy-to-use OPUS software controls all data collection and manipulation functions for the MultiRAM. The real-time spectrum display permits software control of the analysis conditions, including optimization of the laser power and the sample position.
High Performance
Combine advanced digital electronics with Bruker Optics’ high quality optics and you have the ultimate in a high performance FT-Raman system. The heart of the MultiRAM is Bruker Optics’ patented interferometer with gold coated optics and permanent RockSolid alignment, which provides the superb stability and throughput required for demanding emission experiments.
For ultimate flexibility, the MultiRAM can accommodate a second laser and detection system, automated polarization accessory, and two-fiber optic coupling ports. Other features include easy switch between 90° and 180° scattering geometry, and defocusing optics (necessary for colored samples which can heat by the laser beam). A motorized sample stage for sample position optimization, and a white light source to correct the spectra for instrument responses are included in the standard configuration of the MultiRAM. Additional sampling accessories, such as automatic sample changers, low and high temperature stages are optional. The FT-Raman microscope RamanScope expands FT-Raman spectroscopy to samples in the µm size range.
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The Advantage series is our classic low cost and high performance bench top models with the option of 532 nm, 633 nm, 785 nm (NIR) or 1064 nm excitation. Determining the most appropriate model for your application is dependent upon the sample properties. Call us today so that we can help you determine the most appropriate analyzer for your application.
Advantage 633
This is DeltaNu's classic low cost, high performance 633 nm Raman system. The Advantage 633 Raman spectrometer is easy to use on solutions, gels, powders, and coatings. Sampling accessories are available for various sample types. The Advantage 633 covers a wide spectral range for analysis of inorganic anions to aliphatic hydrocarbons. It is used in industrial applications, academic research, and teaching labs.
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Main features of this system are an adaptation a super stable single mode 500-picosecond pulsed Diode Pumped Solid State Lasers (DPSSL) with more than 8 kW peak power as a probe beam. Combining with high sensitive CCD camera it gives possibility to detect Raman spectra of different media at broad dynamic range of scattered light intensities from extremely week up to saturated signals. This Raman Spectrometer, equipped by confocal microscope could be used for Micro Raman 3D imaging
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Raman spectroscopy uses a laser excitation source to induce scattering from the targeted sample. The spectrometer is used to detect this low-level return signal to identify the sample makeup. The popularity of Raman is growing over the competitive IR analysis technique because no sample preparation is required and silica fiber optics and detectors are efficient and low cost in the VIS and NIR wavelength regions. There are several popular laser excitation wavelengths such as 532, 632, 670, and 785nm.
The standard StellarNet Raman spectrometer is configured for a 785nm laser with optics to handle measurements in the NIR range from 785-1150nm. If another range is desired, specify the laser wavelength after the R in the spectrometer model number. This provides a Raman shift range of 200-4000cm-1 wave numbers to the right of the laser line (Stokes). A slit is installed to set the optical resolution and should match the laser line width. A 50um slit provides 2.4nm (~40 cm-1) resolution. A 25um slit would double that resolution and unfortunately reduce the signal by 50%. Maximizing the signal input, from the Raman probe, using fiber bundle circular-end to line-end is important when a slit is used.
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FT-IR-spectrometers, Raman spectrometers
