3,3′-Diaminobenzidine by LCMS – AppNote

Retention and Separation is easy with the Cogent Diamond Hydride Column with the Method below. Normally this compound is very hard to get good peak shapes in Reversed Phase. Peak: 3,3′-Diaminobenzidine 215.1291 m/z (M+H)+ Method Conditions: Column: Cogent Diamond Hydride™, 4µm, 100Å Catalog No.: 70000-15P-2 Dimensions: 2.1 x 150 mm Solvents: A: 50% DI Water/ […]

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Bisphenol A, S, & F Separated by HPLC – AppNote

Separation of Epoxy Resins Found in Consumer Products & Food Many consumer products are using BPA alternatives in recent years due to health concerns regarding toxicity of these compounds.  An analytical HPLC method is shown in this AppNote to distinguish amongst these various Bisphenol compounds potentially in chemicals and foods. Excellent resolution was obtained for […]

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EDTA Analysis by HPLC – AppNote

EDTA does not have a significant Chromophore, so to achieve UV Detection, in the Method shown below we used a pre-Column reaction of a Solution of Ferric Chloride with the Sample. The resulting EDTA/Fe3+ has significant UV absorbance making this a very Sensitive Method. Ethylenediaminetetraacetic acid is extremely difficult to analyze by itself however in […]

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Morphine Sulfate Tablet HPLC Method Transferred to Near UHPLC – AppNote

Standard 4um Particle Size Transferred to 2.o™ This application illustrates how methods developed using the 4µm Cogent Diamond Hydride Columns may be adapted for Cogent Diamond Hydride 2.o™ phases. Morphine shows slightly higher retention on the 2.o™ Column (average 7.311 min vs. 5.588 min). The efficiency is almost twice as high when using the smaller […]

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Organic Alcohols Separated by HPLC – AppNote

Separation of the Organic Alcohols, 1-Phenyl-2-propanol and 2-Phenyl-1,2-propanediol by HPLC in 5 different lots to show excellent precision and very low RSD. Organic Alcohols Method Conditions: Column: Cogent Bidentate C18™, 4µm, 100Å Catalog No.: 40018-75P Dimensions: 4.6 x 75 mm Solvents: A: DI H20 / 0 .1% Formic Acid (v/v) B: Acetonitrile/ 0.1% Formic Acid […]

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Organic Bases and Isomers at a Low pH – AppNote

Separation of Four Amine Containing Test Solutes The four test solutes selected for this application are both well-retained and well-resolved. In particular, the separation between the two isomers is readily accomplished, which may be difficult to achieve in Reversed Phase. This Method uses only Formic Acid as the Mobile Phase additive and is LCMS compatible. […]

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Pyrilamine & 4-Amino-3-Chloropyridine – AppNote

Unique Selectivity on an Amide Stationary Phase The Cogent Amide Column offers unique selectivity that may not be readily attainable with other phases. Two test solutes shown in this application note (Pyrilamine and 4-Amino-3-Chloropyridine) were baseline separated on the Cogent Amide Column (Figure A), but  they co-eluted with no resolution on a different Cogent Column […]

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Separation of Polar Solutes by HPLC – AppNote

Niacin, Riboflavin, Folic Acid, Pyridoxine, Metformin, Thiamine The Cogent Diol Column is a good addition to the TYPE-C™ Silica line of HPLC stationary phases. Here, a variety of common polar analytes are well-retained and separated. Peaks: 1. Ascorbic acid 2. Niacin 3. Riboflavin 4. Folic acid 5. Pyridoxine 6. Metformin 7. Thiamine Method Conditions Column: […]

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Transfer HPLC Method to UHPLC with Hydrophobic Compounds – AppNote

Separation of Hydrophobic Compounds by HPLC & UHPLC This AppNote shows separation of analytes within a range of hydrophobicity. A simple gradient is used to elute all the compounds and baseline separation is obtained for the critical pair (peaks 4 and 5) and the least hydrophobic compound is adequately retained. A comparison is shown in […]

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