Using citric acid to suppress lignin repolymerization in the organosolv pretreatment of corn stalk

The esterification reactions that occur between citric acid (CA) and lignin on hydroxyl groups of side chains can inhibit the formation of reactive intermediates in acid-catalyzed pretreatments. The effects of CA on dilute hy-drochloric acid (1.0%) pretreatments of corn stalk in hydrated 1,4-dioxane were investigated with sodium hypophosphite (0.5%) as the catalyst at 95 degrees C for 3.5 h. The resulting cellulose recovery (62.5-80.9%) and lignin removal (72.5-85.0%) after adding CA were significantly higher than those in the pretreatment without CA. Water content influenced pretreatment and delignification when CA was added into the treatment systems. The highest yield of total reducing sugar (97.1%) was achieved during the enzymatic hydrolysis of cellulose-rich materials obtained from the pretreatment with 11.4% water content. Meanwhile, beta-O-4 ' in the extracted lignin increased from 22.4/100Ar to 41.2/100Ar with increasing water content from 11.4% to 25.9%. These findings implied that CA as a stabilization agent could inhibit the repolymerization of degraded lignin fragments due to the esterification between CA and lignin and then improved the enzymatic saccharification of cellulose.

Automated summary

The esterification reactions between citric acid and lignin inhibit the formation of reactive intermediates in acid-catalyzed pretreatments. Adding citric acid to the pretreatment leads to higher cellulose recovery and lignin removal. Water content also plays an important role in the pretreatment and delignification process. The presence of citric acid improves enzymatic saccharification of cellulose by inhibiting repolymerization of degraded lignin fragments.