Cindion™ Combustion Ion Chromatography System
Perform analysis of total halogens and sulfur in difficult-to-analyze samples with the Thermo Scientific™ Cindion™ Combustion Ion Chromatography (C-IC) System.
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Screen for corrosive and toxic halogens and sulfur compounds in a variety of sample types with the Cindion C-IC system. Whether you are analyzing solid, liquid, or gas samples, the Cindion C-IC system provides automated workflows with robust performance and dependable reliability. Experience a seamless, end-to-end C-IC workflow from this single-source combustion IC system.
Small System Footprint
- Novel, compact combustion tube design ensures complete combustion in a shorter distance
- Autosampler and absorption tube are integrated into the combustion/absorption module for additional space-savings
Designed for PFAS Analysis
- Incorporates non-detectable PFAS-containing components within the sample pathway
- Provides low background levels and highly sensitive detection for PFAS screening
- Perform PFAS screening following US EPA Method 1621
Single-Source Solution
Acquire the complete system, consumables, and software from a single vendor for a seamless customer experience.
Multiple Configurations for Application Flexibility
- Different system configurations to accommodate solid, liquid, and gas samples
- Specific system configuration to measure adsorbable organic fluorine (AOF) by combustion IC
TechTalk: Powering reliable industrial analysis with advanced C‑IC workflows
Friday, May 29 at 15:00 BST | 16:00 CEST | 10:00 EDT | 07:00 PDT
Combustion ion chromatography (C‑IC) has become an essential technique for laboratories needing accurate analysis of halogens and sulfur in complex industrial and environmental samples. By integrating high‑temperature combustion with ion chromatography, C‑IC overcomes the limitations of traditional IC and enables precise quantification even in challenging matrices.
In this 20‑minute SelectScience® TechTalk, Dr. Carl Fisher, Product Marketing Manager at Thermo Fisher Scientific, will demonstrate how C‑IC streamlines workflows by removing interfering matrices through sample combustion, supporting accurate and reliable analysis.
The session will also feature a detailed description of the Thermo Scientific™ Cindion™ C‑IC system, including its new LPG/Gas module, showcasing how the platform delivers strong recoveries, robust calibration, and consistent performance for routine laboratory testing.
Certificate of attendance
If you attend the live TechTalk, you will automatically receive a certificate of attendance, including a learning outcomes summary, for continuing education purposes.
If you view the on-demand TechTalk, you can request a certificate of attendance by emailing editor@selectscience.net.
TechTalk details
- Cost: Free to attend
- Location: Online
- Duration: 20 minutes
Registration is required to secure your place. If you register but can’t attend live, you will receive a link to the on‑demand recording once it becomes available.
