For a high level of automation and easy-to-use software —at a mid-range price— the PC-controlled true double beam 240 AA system combines rugged and reliable hardware with our acclaimed Windows-based worksheet software. Use multi-tasking capabilities to start a new analysis while simultaneously preparing a report on past results. The 240 AA comes standard with the world's leading flame atomization system, the Mark 7 flame atomization system. The Mark 7 spray chamber is simple to use with twist and lock assembly and made from plastic components for durability.
Designed for dusty, corrosive environments—completely sealed optics with quartz overcoated mirrors; optional air purge continually cleans the inside of the instrument to exclude corrosive vapors.
Fast response background correction—the high intensity deuterium background corrector has a fast 2-ms response time ensuring accurate correction of transient background signals.
Easy lamp maintenance—the lamp is immediately accessible for easy adjustment or replacement without needing to remove the instrument covers.
Automation to fit the need and budget—Automatic wavelength and slit selection, four fixed-lamp positions for quick, reliable lamp changes, and a next lamp warm-up feature that saves analysis time.
Expandable—analyze mercury and hydrides at trace ppb levels using the continuous flow vapor generation accessory (VGA 77). Add the ETC 60 for unattended, flameless atomization of hydride elements.
Upgradable—The 240 AA can be easily upgraded at any time.
Reduces ownership costs—Rapid troubleshooting and fault diagnosis keep your lab up and running faster. The Telediagnostics option connects to our worldwide network of on-line support personnel.
Based on the sensitive AC-modulated Zeeman technique, proven to give the best detection limits of any Zeeman spectrometer, the 240Z AA, with up to 4 fixed lamp positions offers the highest sensitivity, performance, simplicity of operation and industry-leading software in atomic spectroscopy. The instrument is supplied with the GTA 120 Zeeman graphite tube atomizer for superior graphite furnace performance and is controlled by our acclaimed Windows-based Worksheet software.
Enhanced detection limit performance—For ultra trace-level detection limits, plug in high-intensity UltrAA lamps. No additional power supply is required.
Optimized performance— PC-controlled magnetic field strength can be varied from 0.1 to 0.8 Tesla; the field strength remains locked during measurement, minimizing effects of mains voltage variations.
Versatility—Add the VGA for Zeeman adaptor and the hydride generation technique to validate Zeeman graphite furnace AA results; offers the flexibility to analyze difficult matrices.
Outstanding performance at ppb levels with the Constant Temperature Zone furnace design
Easy alignment—Only a single light source is required.
11-fold improvement in correction accuracy—Polynomial interpolation provides superior accuracy over competing systems that use simple linear interpolation (bracketing).
Develop optimum analysis conditions with the SRM Wizard and Tube-Cam—Drying, ashing and atomization temperatures, modifiers, injection volumes ensure high sensitivity, free from interferences.
Welcome to the next generation of the industry-proven Agilent MSD, the most popular GC/MS of all time. The 5977A MSD includes a new, highly sensitive Extractor Ion Source for higher Signal-to-Noise (SNR) and a statistically based, low-femtogram Instrument Detection Limit (IDL). The 5977A MS is perfectly complemented by the newly integrated intelligence of the 7890B GC. In combination, the 7890B/5977A GC/MSD delivers value in many ways: increased sample throughput, expanded analytical capabilities, reduced maintenance and decreased cost for energy and gases. The 5977A is the first MSD to include both, the classic ChemStation Data Analysis software as well as the highly productive MassHunter Quantitative and Qualitative Analysis software in a single workstation. With these sets of capabilities, the 7890B/5977A GC/MSD is an investment that will return benefits over its 10-year guaranteed life.
Confidence means a return on investment that includes quality results, time savings and the assurance of business continuity. Now with unsurpassed performance, the new 7890B GC and 5977A GC/MSD, Agilent offers the industry’s broadest, most feature-rich GC and GC/MS portfolio.
From the leader in Single Quadrupole based solutions, Agilent’s 6100 Series Single Quadrupole LC/MS Systems deliver outstanding performance, proven reliability, and consistent results. The 6100B Series LC/MS systems are the ideal match for Agilent’s 1220, 1260 and 1290 Infinity Series LC systems, which together provide best in class sensitivity. The powerful Agilent 6100 LC/MS systems deliver great value and productivity for both research and routine applications.
The Agilent Cary 8454 UV-Visible spectrophotometer builds on 30 years of experience in photodiode array (PDA) technology and delivers an updated instrument that is easy to use, is ideal for routine applications, and meets the compliance needs of global pharmaceutical companies. The 8454 UV-Vis is the spectrophotometer of choice for QA/QC, academic teaching laboratories, and the chemical industry with rugged performance for multi-user laboratories and easy to use software.
Flexible Accessories – Autosampler, thermostatted cell holders, multicell transport, sipper.
The Agilent Cary 60 UV-Vis Spectrophotometer is efficient, accurate and flexible, and is designed to meet your immediate and future challenges. With remote sampling options, proven performance and low cost of ownership, you can be sure that the Agilent Cary 60 UV-Vis will give you answers you can trust.
The Cary 100 is a cost-effective UV-visible spectrophotometer with a versatile set of accessories for routine laboratory work. It is controlled by the Cary WinUV software, a Windows-based software featuring an easy-to-use modular design. The instrument is shipped with liquid sample holders and can be fitted with a wide range of accessories to provide extra capabilities. The instrument is popular in university teaching laboratories.
The Cary 300 is a versatile UV-visible spectrophotometer with a versatile set of accessories and a large photometric range for use in research laboratories. It is controlled by the Cary WinUV software, modular Windows-based software, featuring powerful analytics run by an easy-to-use interface. The instrument is shipped with liquid sample holders and can be fitted with a wide range of accessories to provide extra capabilities. The instrument is well-suited to materials testing of both turbid liquid and solid samples.
The Cary 4000 is a high performance UV-visible spectrophotometer with excellent photometric performance in the 175-900 nm range, making it a powerful tool for analyzing biotechnology samples with minimal sample preparation. Controlled by the Cary WinUV software, a Windows-based modular software, it can be ordered with specific modules for bio and pharma. The UV-Visible spectrophotometer has a number of optional accessories for liquid samples like temperature control, autosamplers, multicell holders, and sippers.
The Agilent Cary 660 FTIR is a versatile, high performing spectrometer designed to meet routine spectrometry and research application needs. The Cary 660 FTIR is controlled using high performance operating software and can also be fitted with a wide range of accessories to provide extra capabilities. The common platform of Agilent’s Cary 660/670 FTIR spectrometers enables the performance and capabilities to be easily and cost-effectively scaled to meet challenging applications. The Cary 660 FTIR offers superb performance levels, spectral resolutions and signal-to-noise measurements. It is ideal for a wide range of applications and industries from petro/chemicals to materials/polymers and life sciences.
The Agilent Cary 670 FTIR air-bearing spectrometer provides the highest level of performance in the industry. The Cary 670 FTIR is controlled using high performance software and can also be fitted with a wide range of accessories to provide extra capabilities. The system is scalable and designed to extend performance boundaries in application areas such as polymers/materials, pharmaceuticals, biotechnology and chemicals and provides specific applications for more specific purposes. It is an essential tool for leading edge academic and government research.
With bottom location of the sample stage; for observation of the microstructure of metals, alloys, plastics, organic compounds and other opaque objects in reflected light in bright field. Used during routine work in different laboratories, as well as for training purposes.
For visual observation of the microstructure of metals, alloys and other opaque objects in reflection under direct illumination in the bright and dark fields as well as for the examination of objects in polarized light and by the differential-interference contrast (DIC) method.
Represents a microscope with top sample stage; is assigned for visual observation of the microstructure of metals, alloys, powders and other opaque objects in reflection under direct illumination. The microscope is used in metallography, metallurgy, micro-electronics, mechanical engineering, mineralogy, and other fields of science and technology for conducting routine operations in different laboratories, as well as for training purposes.
Is a new generation of inverted metallurgical microscopes, designed for research and photographs of the microstructure of metals, alloys and other opaque objects in the reflected light in the bright field under oblique and direct illumination, in the dark field, in polarized light and by differential-interference contrast (DIC) method.
A new generation of inverted metallurgical microscopes. Designed for visual observation and photography of microstructure of metals, alloys and other opaque objects in the reflected light in the bright field under direct illumination.
With bottom location of the sample stage; for studying the structure of metals in the reflected light in the bright field under direct illumination, in the dark field, as well as in the polarized light.
Designed for visual observation of the microstructure of opaque objects in the reflected light under direct illumination in light and dark field, as well as for the study of objects in polarized light.