@article{Hello_Mihsen_Mosa_2024, title={Modification of silica with 2,4-dinitrophenylhydrazanomethylphenol for monosaccharide productions}, volume={4}, url={https://oiccpress.com/iranian-journal-of-catalysis/article/modification-of-silica-with-24-dinitrophenylhydrazanomethylphenol-for-monosaccharide-productions/}, abstractNote={2,4-dinitrophenylhydrazanomethylphenol (DNPHMP) was immobilized onto silicate rice husk ash to form a heterogeneous catalyst denoted as RHDNPH. The elemental and EDX analysis of RHDNPH showed the nitrogen is incorporated into silica. The RHDNPH had 154.6 m2g-1 as a specific surface area. The FT-IR clearly showed the appearance of –NH and C=N absorption band at the expected range. The TGA curve shows that the RHDNPH was stable at the temperature of less than 200 °C. Hydrolysis experiments of cellulose were conducted in liquid face reaction at 140 °C, and 150 mg of catalyst mass in 11 h. The maximum hydrolysis of cellulose was 84 % with 100 % selectivity of glucose over the catalyst. The catalyst was simple in its preparation, stable during the cellulose hydrolysis in addition to repeatedly without a significant loss of its catalytic activity.}, number={3}, journal={Iranian Journal of Catalysis}, publisher={OICC Press}, author={Hello, Kasim Mohammed and Mihsen, Hayder and Mosa}, year={2024}, month={Feb.}, keywords={Surface modification, Hydrolyses of cellulose, Salicylaldehydephenylhydrazone, Glucose, Rice Husk Ash} }