In this elucidation, we synthesized novel molecularly imprinted polymers (MIP_OH1-4) that were used as organic fillers on bagasse pulp to form cellulosic paper sheets, the formation of MIP_OH1-4 from the reaction of enaminone 3 with methyl methacrylate monomer in the presence of ethylene glycol dimethyl acrylate and 2,2’-azobisisobutyronitrile. The obtained MIP_OH1-4 was confirmed via FT-IR and SEM with different pore sizes. And we noticed that the increase of template 3 increases the hydrogen bond between monomer and template and gave sponge surface of MIP_OH4. Furthermore, the computational energies of the template with different monomers utilize DFT/B3LYP/6-31G (d) level to know the stability of polymers and hydrogen bonding between them. So that we applied that in paper manufacture through the adsorption of MIP_OH4 as an organic filler on bagasse pulp to form novel cellulosic paper sheets with different concentrations and these sheets which characteristic through FT-IR, SEM, sizing test, tensile strength, and elucidation their antimicrobial activity with theoretical and docking studies. The MIP_OH4 and cellulosic paper sheets showed the thermal stability and high tendency of sizability of these paper sheets and concluded the interaction between cellulose fibers of pulp with MIP_OH polymer with physical hydrogen bonding.

在此说明中，我们合成了新型分子印迹聚合物（MIP _OH1-4），将其用作甘蔗渣纸浆上的有机填料，以形成纤维素纸片，由烯胺3与甲基丙烯酸甲酯单体的反应形成MIP _OH1-4。乙二醇二甲基丙烯酸甲酯和2,2'-偶氮二异丁腈的存在。通过FT-IR和SEM确认所获得的MIP _OH1-4具有不同的孔径。并且我们注意到，模板3的增加增加了单体与模板之间的氢键，并产生了MIP _OH4的海绵表面。。此外，具有不同单体的模板的计算能量利用DFT / B3LYP / 6-31G（d）级来了解聚合物的稳定性以及它们之间的氢键。因此，我们将其应用到造纸中，方法是将有机溶剂MIP _OH4吸附在蔗渣纸浆上，以形成具有不同浓度的新型纤维素纸片，这些纸片通过FT-IR，SEM，施胶试验，拉伸强度和澄清度进行表征其抗菌活性与理论和对接研究有关。MIP _OH4和纤维素纸片显示出这些纸片的热稳定性和较高的适度化趋势，并得出了纸浆纤维素纤维与MIP _OH之间的相互作用的结论。 具有物理氢键的聚合物。