2、近三年发表的代表性论文:
[1] Yang Q, Zhang M.Y., Song S, Yang B. Surface modification of PCC filled cellulose paper by MOF-5 (Zn3(BDC)2 ) metal–organic frameworks for use as soft gas adsorption composite materials[J]. Cellulose, 2017, 24(51):1-10(SCI收录)
[2] Qiang D.D., Zhang M.Y., Selective hydrolysis of cellulose for the preparation of microcrystalline cellulose by phosphotungstic acid[J]. Cellulose,2016,23(2):1199-1207(SCI收录);
[3] Yang B., Lu Z.Q., Zhang M.Y., et al. A ductile and highly fibrillating PPTA-pulp and its reinforcement and filling effects of PPTA-pulp on properties of paper-based materials [J]. Applied polymer science, 2016, 133, 13:43209.
[4] Zhang M.Y., Li, Q.M, Song, S. X., Hao N., Liu G. Increase of Paper Strength and Bulk by Co-Flocculation of Fines and Fly Ash-based Calcium Silicate. BIORESOURCES, 2016, 11(3): 7406-7415
[5] Li L., Zhang M.Y., Strach/sodium stearate modified fly-ash based calcium silicate: effect of different modification routes on paper properties [J]. Bioresources. 2016, 11(1), 2166-2173.
[6] Li J.B., Zhang X.R., Zhang M.Y. Ultrasonic enhance acid hydrolysis selectivity of cellulose with HCl-FeCl3 as catalyst [J].Carbohyd. Polym., 2015,117(6):917-922 (SCI收录);
[7] Zhang M.Y., Hao N., Song S.X. Investigation of the mixed refining of a novel fly ash-based calcium silicate filler with fiber [J]. BioRes. 2014,9(3):5175-5183 (SCI收录);
[8] Song S.X., Zhang M.Y., He Z. Investigation on a novel fly ash based calcium silicate filler: effect of particle size on paper properties [J]. Ind. Eng. Chem. Res., 2012, 51:16377-16384(SCI收录);
[9] Song S.X., Zhang M.Y. The potential of fly ash-based calcium silicate as paper filler: physical properties and printability[J].TAPPI J.,2014,13(10):49-57(SCI收录);
[10] Zhang M.Y., Liu Y.J., Yang B. Study of low cost and environmentally friendly fruit nursery paper using a printing method [J]. BioRes.,2014, 9(2):3152-3162 (SCI收录);