High Pressure Ion Chromatography (HPIC)
With the ability to operate with ease at high backpressures, Thermo Scientific Dionex HPIC systems deliver a new level of speed and resolution.
Learn about our latest innovations in ion chromatography (IC). Developed with you in mind, they provide leading edge capabilities that help you meet the ever increasing requirements of productivity, performance and simplicity.
Written by leading renowned international expert in Analytical Chemistry, Dr. Joachim Weiss, “Basics of Ion Chromatography” provides a comprehensive introduction to IC with more than 250 pages.
This industrial IC compendium presents summaries of the latest releases in each of the following areas: Chemicals, Materials, Batteries, Electronics, Oil and Gas, Biofuels, and Power.
Our analytical instruments are used to provide solutions for environmental water testing for a wide range of regulated and emerging inorganic elements and organic compounds. Complete this form for your free copy.
Utilize mass detection when you need to ensure analytical confidence and dramatically improve the detection capability of your Thermo Scientific Dionex Integrion or ICS-6000 HPIC System. IC-MS maximizes the ability to detect and quantify unexpected co-elutions of components and to confirm trace components.
With the ability to operate with ease at high backpressures, Thermo Scientific Dionex HPIC systems deliver a new level of speed and resolution.
Simplify eluent generation using an RFIC-EG system. All you need is a high-purity source of deionized water. Learn about the benefits of this "just add water" eluent generation technology.
An ideal method for identifying different versions of a molecule, ion chromatography-inductively coupled plasma mass spectrometry (IC-ICP-MS), can be imperative for the sample's toxicity.
Ion-exchange chromatography with suppressed conductivity for amine analyses is ideal for organic amine analysis.
Ammonia is a hazardous substance that can be found in drinking water, pharmaceuticals, and even soil.
Weak-acid preservatives are anions widely used to prevent microbial spoilage of acidic foods and beverages. Some require concentrations on food labels.
It is important to distinguish between the toxic and nontoxic arsenic forms when measuring arsenic in drinking water or other consumables.
Consuming high concentrations of biogenic amines such as histamine and serotonin—which are naturally present in many foods—can result in unwanted symptoms.
Using IC with HPAE-PAD, there’s no need for derivatization or a chromophore.
The plating and mining industries can release cyanide into the air from burning coal and plastics. The metal cyanides can dissociate to release the toxic substance HCN into water.
Halides are binary compounds formed by combining a metal with one of the five halogen elements (chlorine, bromine, fluorine, iodine, and astatine).
Various industries use organic acids to prevent and treat corrosion, while the beverage industry uses them to enhance flavor, color, and aroma for stability and microbiological control.
The use of ion chromatography to characterize, quantitate, and analyze pharmaceuticals for purity, counter ions, and excipients.
Ion chromatography with suppressed conductivity detection is a widely-used technique to help determine inorganic anions such as phosphate.
Some transition metals have been linked to disease and can contaminate soil or water when disposed of incorrectly.
Here’s a collection of resources to learn about the feature sets that make this chromatography data system both powerful and easy to use.