If you are looking for optimized HPLC method to analyze Glucose 1- Phosphate check our HPLC Applications library

For optimal results in HPLC analysis, it is recommended to measure absorbance at a wavelength that matches the absorption maximum of the compound(s) being analyzed. The UV spectrum shown can assist in selecting an appropriate wavelength for your analysis. Please note that certain mobile phases and buffers may block wavelengths below 230 nm, rendering absorbance measurement at these wavelengths ineffective. If detection below 230 nm is required, it is recommended to use acetonitrile and water as low UV-transparent mobile phases, with phosphoric acid and its salts, sulfuric acid, and TFA as buffers.
For some compounds, the UV-Vis Spectrum is affected by the pH of the mobile phase. The spectra presented here are measured with an acidic mobile phase that has a pH of 3 or lower.

HPLC Method for Glucose 6-Phosphate, Glucose 1- Phosphate on Newcrom B by SIELC Technologies

High Performance Liquid Chromatography (HPLC) Method for Analysis of Glucose 6-Phosphate, Glucose 1- Phosphate.

Structural isomer separation poses a challenging task when using reverse-phase chromatography. However both glucose
variants, which only differ to which carbon the phosphate group is attached to, can be separated in HPLC isocratically on a
reverse-phase mixed-mode anion-exchange Newcrom B column.
What differentiates, the Newcrom B phase from other silica-based
Analysis of glucose phosphate is important because glucose-6-phosphate is the product of the first step in glycolysis
metabolic pathway and glucose-1-phosphate is the first step in glycogenolysis. Glucose-6-phosphate is converted to
glucose-1-phosphate and vice versa by the phosphoglucomutase enzyme in biological systems.