Selective Periodate Oxidation of Birch Polysaccharides: Enhancing Solubility and Enabling Advanced Material Development
- Lucas Kurth de Azambuja
- Periodate oxidation is a selective method for cleaving vicinal diols in polysaccharides, converting them into dialdehyde groups. This process predominantly targets the hydroxyl groups on the C2 and C3 positions of hexose units in polysaccharides such as cellulose and hemicellulose, leading to significant changes in their properties. Specifically, the introduction of aldehyde groups enhances the solubility of polysaccharides in water and other solvents, making extraction and purification more efficient and broadening their potential for various industrial applications.In our study, birch wood was directly mixed with sodium periodate at a 1:1 ratio of NaIO4 to hemicellulose, with the reaction monitored over time. Key parameters, including periodate consumption, aldehyde generation, extraction yield, hydrocarbon analysis, and molecular weight, were evaluated. Our results indicated that the majority of periodate was consumed within the first 20 minutes, with a corresponding rapid generation of aldehydes. After 60 minutes of interaction, the extraction yield improved by 20%. The periodate primarily targeted the xylan groups within birch, while the molecular weight of the polysaccharides remained relatively stable after 60 minutes.These findings provide valuable reference points for optimizing reaction conditions in future studies. Furthermore, the generation of aldehyde functionalities through periodate oxidation opens new avenues for chemical modifications, enabling the development of advanced materials with tailored properties. Overall, periodate oxidation is a powerful tool for modifying the structure and solubility of polysaccharides, with significant implications for industrial applications.