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ChromCore application-specific columns are designed to address separation challenges for specific applications. Each of these columns provides guaranteed separation for its targeted applications under prescribed chromatographic conditions.
Designed for nonionic surfactant analysis in (bio)pharmaceutical, chemical industry and environmental samples.
Designed for preservatives analysis in food and beverage.
Designed for determination of 16 regulated polycyclic aromatic hydrocarbons.
Designed for determination of ephedra in natural plants.
ChromCore Sugar-HILIC is a family of high-performance HILIC columns designed for separating sugars and related substances.
ChromCore Sugar columns are prepared from monodispersed spherical PS/DVB particles by a unique sulfonation process to generate H+, Na+, and Ca2+ forms. ChromCore Sugar-10H (H+ form) is generally used to separate organic acids and sugars mainly based on ion exclusion and size exclusion mechanism. And ChromCore Sugar-10Na (Na+) and ChromCore Sugar-10Ca (Ca2+) are designed for separating sugars and sugar alcohols based on ligand exchange and size exclusion mechanism.
ChromCore Sugar columns are prepared from monodispersed spherical PS/DVB particles by a unique sulfonation process to generate H+, Na+, and Ca2+ forms. ChromCore Sugar-10H (H+ form) is generally used to separate organic acids and sugars mainly based on ion exclusion and size exclusion mechanism. And ChromCore Sugar-10Na (Na+) and ChromCore Sugar-10Ca (Ca2+) are designed for separating sugars and sugar alcohols based on ligand exchange and size exclusion mechanism
ChromCore Sugar columns are prepared from monodispersed spherical PS/DVB particles by a unique sulfonation process to generate H+, Na+, and Ca2+ forms. ChromCore Sugar-10H (H+ form) is generally used to separate organic acids and sugars mainly based on ion exclusion and size exclusion mechanism. And ChromCore Sugar-10Na (Na+) and ChromCore Sugar-10Ca (Ca2+) are designed for separating sugars and sugar alcohols based on ligand exchange and size exclusion mechanism.