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Supplier: optek-Danulat, Inc.
Description: The model AF26 is a dual channel absorption sensor designed for inline applications. It accurately measures color or color changes and can be used in a variety of industrial processes, from sanitary CIP/SIP applications to high-pressure, high-temperature industrial applications.
- Measured Parameter: Ammonia, Total Chlorine, Free Chlorine, Chlorine Dioxide, Hexavalent Chromium, Copper, Hydrogen Peroxide, Iodine, Iron, Ozone, Peracetic Acid, Phenols
- Instrument Type: Fixtured or Permanent
- Operating Temperature: 32 to 104 F
Supplier: Emerson, Rosemount
Description: of acetic acid (vinegar) and potassium iodide into the sample. The acid lowers the pH to between 3.5 and 4.5 and allows total chlorine in the sample to quantitatively react with the potassium iodide to produce iodine. The sensor measures the iodine concentration, and the analyzer displays the total
- Electrode Type: Chlorine (Cl2)
- Electrode Configuration: Combination
- Mounting Options: In-Line (Insertion)
- Sample Type: Aqueous
Supplier: Mil-Ram Technology, Inc.
Description: Mil-Ram's New RS 485/4-20mA 3 or 4-Wire smarter Transmitter for Iodine I2 Gas Detection. Sensor chemistry eliminates common interfering gases. Mil-Ram patented technology eliminates zero drift and corresponding false alarms. Now available suitable for use in SIL 2 environments. Features: Iodine
- Number of Gases Sensed: Single Gas
- Measurement Type: Trace
- General Gas Types: Toxic Gas
- Specific Gas Types: Other
Supplier: Konica Minolta Sensing Americas, Inc.
Description: The LCS IV spectrophotometer is a highly precise color instrument which spectrally measures all color shades of optically clear, transparent liquids using the dual beam principle. Besides the conventional visual color numbers (Gardner, Iodine, Hazen etc.), the LCS IV can also measure opponent color
- Application Type: True Color Recognition
- Color Types Detected: RGB (Visible)
- Light Source: Halogen Lamp
- Input Voltage: AC Input
Supplier: Analytical Technology, Inc.
Description: the reacted sample containing iodine and uses a membraned gas sensor rather than exposed electrodes. The gas permeable membrane allows only iodine to permeate into the sensor. Sample contaminants are eliminated from coming in contact with measuring electrodes, providing better stability and reducingShow More
Description: • Universal sensor body, PPS construction. Models available for pH, ORP, low ionic strength solutions, and HF-resistant electrodes for solutions with up to 2% hydrofluoric acid. Order pH electrode adapter at left to connect the new ERP-series electrodes to olderstyle cartridge electrode cap
- pH Range: 0.0 to 14 ph
Supplier: Dontech Incorporated
Description: properly designed, they provide a very effective glare reduction for various optical systems including displays, touch screens, cameras, and sensors. Particularly in high ambient light environments, circular polarizers benefit electronic displays such as: • Electro Luminescent (EL) &bull
- Polarizer Type: Circular Polarizer
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Adsorption of molecular iodine on the surface of sulfur-doped carbon nanotubes: theoretical study on their interactions, sensor properties, and other applicati...
In the present work, regarding the development of iodine sensors based on the use of SCNTs, we have focused our attention on the adsorption of 1 and 2 iodine molecules on the surface of various zigzag (5,5) SCNTs.
A fluorescent sensing membrane for iodine based on intramolecular excitation energy transfer of anthryl appended porphyrin
Since that time there have been several notable fluorescent iodine sensors , the quenching kinetics of which can be de- scribed by the various different models[10－13] .
Large-area hyphenated fiber optic chemical sensor platforms
The concept has been demonstrated for an iodine sensor by co-polymerizing methyl, phenyl siloxane into di-methyl siloxane.
Optical halide sensing using fluorescence quenching: theory,
simulations and applications - a review
Chem. 66 4133–41 Yang R-H, Wang K-M, Xiao D and Yang X-H 2000 Development of an iodine sensor based on fluorescence energy transfer Analyst 125 1441–5 .
Solvent and pH Effects of Coumarin-Terminated Monolayer on Silver Particles
These include the control of cell cancer [1, 2], as a P-glycoprotein inhibitor , an iodine sen- sor , a fluorescence probe in thiol-disulfide exchange  and in the development of highly sensitive sensors .
Briefly iodized Ag foils: microstructure, structure, optical response and potential as iodine detectors
Thus, even from a fundamental point of view, brief iodization of Ag foil could be exploited as an iodine sensor .
Solid‐state amperometric sensors for gas phase analytes: A review of recent advances
For example, a planar integrated optical waveguide was coated with a porous, glass film and employed as a gaseous iodine sensor [l].
The electrical conductivity of phospholipid films as an iodine-sensing mechanism.
The electrical response of the lipid films, upon exposure to iodine, suggests their possible use as iodine sensors .
Monitor for detecting nuclear waste leakage in a subsurface repository
selective iodine sensor via the quenching of rubrene fluorescence by .
Improvements in VAMCIS: A 1E on-line monitoring system for continuous measurement of steam generator leak rates
The VAMCIS system includes three main components: (1) sodium iodine sensor , coupled with its photomultiplier, (2) electrical cabinet, which provides the output signal spectral analysis, and (3) digital rate meters with software to transform the gross count rates into leak rate physical …