13C‐NMR spectral studies on the distribution of substituents in some cellulose derivatives

Abstract

Abstract13C‐NMR spectra of trityl cellulose (Tr‐Cell), tosyl cellulose (Ts‐Cell), cellulose S‐methyl xanthate (Cell‐M‐Xan), and cellulose formate (CF) in dimethylsulfoxide‐d6 were analyzed at 50.4 MHz. It was found that the distribution of substituents in the anhydroglucose units of these cellulose derivatives can be estimated from their ring carbon spectra. The results showed that (i) in Tr‐Cell having degree of substitution (DS) lower than 1, the hydroxyl groups at C‐6 carbon position are selectively tritylated, (ii) in the case of Ts‐Cell, the difference in the relative DS value among three different types of hydroxyl groups is not large, although the relative reactivities of hydroxyl groups toward tosylation decrease in the order C‐6 > C‐2 > C‐3, (iii) in Cell‐M‐Xan, the hydroxyl groups at C‐3 carbon position are mainly substituted, and (iv) the ease of formylation is C‐6 > C‐2 > C‐3. The 100.8 MHz 13C‐NMR spectra of O‐methyl cellulose (MC) revealed that the reactivity order in commercial MC prepared from alkali cellulose is C‐6 ⋍ C‐2 > C‐3. Concerning MC, its water solubility was also discussed in terms of the distribution of substituents along the cellulose chain.