AI Article Synopsis
- The study uses RP-HPLC with stepwise gradients of DMF in a phosphate-buffered mobile phase to analyze various types of lignins from softwoods and hardwoods.
- The combination of spectrophotometric and fluorimetric detection techniques enhances the understanding of lignin behavior, identifying distinct features through a ten-step gradient.
- The method demonstrates high reproducibility with low relative standard deviations in retention times, indicating reliability and consistency in characterizing lignins and related substances.
Article Abstract
RP-HPLC using stepwise gradients of N,N-dimethylformamide (DMF) in a phosphate-buffered (pH 3.00) aqueous mobile phase and a wide-pore (30 nm) octadecylsilica column has been applied to the analysis of a variety of lignins--organocell lignin, dioxane lignin, Björkman lignin, and Klason lignins from both softwoods and hardwoods, respectively, in order to demonstrate the usefulness of the approach for their characterization. Tandem combination of spectrophotometric diode array detection and fluorimetric detection was used to acquire more detailed information about the chromatographic behavior of lignins. The results show that a ten-step gradient can reveal distinct features of lignins and humic substances. Combination of good solvating properties of DMF for lignins together with a wide-pore RP sorbent improves surface interactions of the analytes and suppresses the influence of size exclusion effects. Thus it provides reproducibility of characterization profiles and robustness of the method. The calculated repeatability of the retention time of selected peaks was +/- 0.46% RSD. The reproducibility of the data within one week (set of seven data) was +/- 1.1% RSD. These data are also representative of the other well-shaped peaks of analyzed substances.
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