Optimization of Approaches to Analysis of Lignin by Thermal Decomposition

The ratio of monomeric units is one of the main characteristics of lignin, which affects the possibilities and strategies for further processing. Pyrolytic and thermal desorption decomposition of lignins followed by mass detection of macromolecule fragments are the most common methods for determining the amount of lignin structural units. Two methods of thermal decomposition of lignin were studied: thermal desorption-GC/MS (TD-GC/MS) and pyrolysis-GC/MS (Py-GC/MS). It was noted that, when using different thermal decomposition modes, the composition of the products changes, which affects the accuracy of determining the amount of lignin structural fragments. This article investigated the influence of the sample weight, the thermal decomposition temperature, and the duration of the process in various modes on the quantitation of the lignin structural units. The optimal process conditions were established. It was shown that the DS-Py-GC/MS with cryofocusing, a sample weight of 0.2-0.4 mg, and heating from 50 to 400 & DEG;C at a rate of 120 & DEG;C/min are preferable. The HSQC NMR was used as a comparison method to obtain the content of the S/G/H units. The results showed the applicability of the proposed approaches to hardwood lignins close to native.

Automated summary

This study investigates the influence of sample weight, thermal decomposition temperature, and duration on lignin structural unit quantification using different thermal decomposition modes, and establishes the optimal process conditions. The thermal desorption-GC/MS and pyrolysis-GC/MS methods are studied, and the applicability of the proposed approaches to hardwood lignins close to native is validated by comparison with HSQC NMR.