Environmental Laboratory
Precise TOC Analysis - the Right Injection Technique Makes the Difference
For TOC analysis of particle containing samples, the multi N/C series, from Analytik Jena (Germany), offers the direct injection system and waste water specialist multi N/C 2100 or the all-rounder multi N/C 3100. By direct injection of multi N/C 2100 the sample is drawn up directly into a micro liter syringe and introduced into the combustion system, without tubing and valve. The wide-bore needle and the septum-free injection head ensure the optimum particle handling capability and leak-free continuous operation. The all-rounder multi N/C 3100 brings highest sample throughput. This flow injection system guarantees robust, representative sample transfer by large inner tubing diameters. The back-rinse technique prevents blockages. Teflon wear in the dosing syringe is prevented. Inside the dosing valve the approved and robust ceramic technique is used. Thus, the highest operation standard in terms of particle handling, productivity and low wear is realised.
New Benchtop Spectrofluorometer Expands on Performance and Sensitivity of Previous Version
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HORIBA Scientific (USA) have recently launched the new FluoroMax Plus, a convenient, affordable, and easy-to-use benchtop spectrofluorometer.
The new FluoroMax Plus expands on the already class-leading capabilities of our FluoroMax series with the option of a second detector and two position grating turret, providing an extended range out to 1650 nm, and TCSPC performance down to 25 ps. The higher sensitivity offered by FluoroMax Plus enables faster measurement of weaker and smaller samples.
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“The FluoroMax Plus was designed for maximum versatility while retaining the convenience of a benchtop unit,” said Ishai Nir, Director of Fluorescence at HORIBA Scientific. “With the expanded choice of detectors and gratings, many new experiments are now possible using the FluoroMax series.”
HORIBA Scientific offers a broad range of gratings, detectors, and accessories for the FluoroMax series to fit any research application needs. These include measurement of solid and liquid samples, high throughput screening, cryogenic or elevated temperatures, absolute quantum yields, microliter volumes, and even micron-scale measurements with a fibre optic coupling to a microscope.
Thermostatically Controlled Cabinets Ideal for Temperature Controlled Samples
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The TC series of thermostatically controlled cabinets, from Tintometer (Germany) is used for continuous temperature control over a range of 2 °C to 40 °C. This makes them ideal for a wide range of different applications in industrial and research laboratories. In particular they are ideal for the temperature-controlled storage of samples or BOD determination in effluent analysis work.
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The temperature can be set in increments of 0.1 °C and an LED display shows both the set temperature and the current temperature in the cabinets. Devices such as magnetic agitators, which require a power supply, can be connected to sockets incorporated in the interior of the cabinet. The integral temperature control unit meets the requirements of the EMC directive issued as IEC 61326: “Electrical devices for measurement, monitoring and for use in laboratories“.
Improved, robust, insulated housing and highly efficient components provide maximum energy efficiency. There are 4 models available with standard doors from 135 to 445 litres net capacity, and 2 models with glass doors with 140 and 255 litres net capacity.
Setting New Standards in Bench Technology
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Hanna (USA) EDGE becomes the latest flagship product to join an advanced range of analytical instruments from Hanna. Raising the game in the market with its sophisticated bench technology, high precision and versatile, slimline design, the range of new Edge bench meters is an example of the strength and ingenuity of the global Hanna brand.
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Well known for their technology, Hanna products are widely used in the water and wastewater industries to measure pH, conductivity, dissolved oxygen and chemical oxygen demand. In a complex marketplace, Hanna offer excellent provenance and support with all products researched, developed, manufactured and sold by Hanna Instruments.
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For the first time Chem Service, Inc. (USA) is offering cyantraniliprole (CAS# 736994-63-1) standards. As well as being one of the few companies that carries standards for this broad-spectrum, selective insecticide, Chem Service has 50 years of experience, a team of trained chemists and a proven track record of quality, high purity chemicals.
Cyantraniliprole is an anthranilic diamide pesticide that works to eliminate pests by manipulating the ryanodine receptor and forcing an overproduction of calcium through the insect’s muscles. This leads to paralysis and death in many common crop pests. The chemical compound was registered for use in 2014 by the Environmental Protection Agency, with specific tolerances set to avoid the pesticide’s potential residue toxicities.
Cyantraniliprole was discovered by DuPont Crop Protection, and is the active ingredient in the pesticide compound Cyzapyr. Syngenta also applied for registration with its cyantraniliprole product, Fortenza. Cyantraniliprole is registered for a variety of crops including berries, coffee, turf and citrus fruit. It is used worldwide with recent registrations in Canada, Argentina, Brazil and China.
The chemical formula for Cyantraniliprole is C19 H14 BrClN6 O2 ,
and the International Union of Pure and Applied Chemistry name is 3-bromo-1-(3-chloro-2-pyridyl)-4′-cyano-2′-methyl-6′- (methylcarbamoyl)pyrazole-5-carboxanilide. It is similar structurally to phenylpyrazole pesticides, but functionally different.
Although Cyantraniliprole is not expected to be a carcinogen or have many negative effects when working in the lab, it can be particularly toxic to aquatic life for an extended period of time. Much of the criticism and potential environmental danger surrounding Cyantraniliprole has to do with its impact on bees. Environmentalists have compared it to sulfoxaflor in its potential danger to bees, due to its toxicity.
The environmental impact of cyantraniliprole underscores the importance of proper use and standards testing when working with this chemical compound, now available from Chem Service, Inc.
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ANALYTICAL SOLUTIONS FOR THE PETROCHEMICAL INDUSTRY
Learn more about the full range of Sigma-Aldrich®
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products for your industry
Topics featured include: • Sample preparation (SPE, SPME) • Analytical standards • Gas chromatography • Ionic Liquid GC columns • Karl Fischer titration • Air sampling • Carbonyl analysis by HPLC
Request your copy of our NEW Petrochemical Brochure by visiting
sigma-aldrich.com/petro
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Cyantraniliprole (CAS# 736994-63-1) Standards now Offered
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www.envirotech-online.com IET September / October 2014
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