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Triart Hybrid Advantages

The core material for all of the YMC-Triart products – the particle – is inspired by YMC’s flow chemistry technology. Inherent in YMC’s process is a high level of temperature and particle formation control. As a result, Triart particles are consistent, reproducible, and scalable across many particle sizes. The hybrid Triart particles produce a material that is highly resilient and robust when used at extreme pH and elevated temperature. This allows the chromatographer to use temperature and pH as tools to optimize suitable separation conditions and worry less about the limitations of stationary phase ruggedness. In addition, these particles are very stable under mechanical stress such as high pressure.



YMC’s UHPLC column offerings are based on our 1.9μm Triart particle, which is a novel, multi-layered, organic/inorganic hybrid material.  Users of Triart are not limited by the usual constraints of pH, temperature, or pressure.  Triart is recognized for its mechanical and chemical durability, making it ideal for application at elevated temperature, high pressure, and over a wide pH range.


For more information on a specific UHPLC Triart product, click the appropriate button below.


YMC-Triart C18
Suitable as a first choice column with excellent durability
YMC-Triart C18 ExRS
High carbon loading (25%)
YMC-Triart C8
Effective for fast analysis of compounds with low polarity or for separation of isomers

YMC-Triart Bio C4
Wide-pore (300Å) butyl stationary phase designed for large-molecule bioseparations
YMC-Triart Phenyl
Effective for separating compounds with long conjugated systems by utilizing π – π interactions
YMC-Triart PFP
Effective for separating polar compounds or isomers by polar interaction

YMC-Triart Diol-HILIC
Effective for separating highly polar compounds not easily retained in reversed phase
YMC-Triart PEEK-Lined Columns
PEEK-lined stainless steel columns (including PEEK frits) for a completely inert separation environment


SemiPrep / Prep

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