Synthesis and optimization of polyacrylamide and gum arabic graft copolymer

Abstract: Graft copolymerization of polyacrylamide onto gum arabic was carried out in aqueous medium at room temperature (30 o C) using various initiator (ceric ion) and monomer (acrylamide) concentrations. The extent of graft copolymer formation was determined in terms of percentage graft yield. The results obtained showed that the percentage yield of the graft copolymer is a function of both the initiator and monomer concentrations. The grafted copolymer was characterized by infrared (IR) spectroscopy. The IR spectral… Show more

“…The polymerization was initiated by addition of APS at temperature 60–70 °C. The occluded polyacrylamide, residual acrylamide, and other impurities were removed from the final composites by repeated solvent extraction with ethanol and methanol in succession . The crosslinked gel mass was then air dried till constant weight.…”

“…In the present study, three different types of ZMHC composites (ZMHC‐1, ZMHC‐2, and ZMHC‐3) were prepared by varying the zeolite content in feed mass keeping all other reactant ratios constant and their synthesis parameters are depicted in Table . The percent grafting yield was calculated as follows: …”

Zeolite reinforced carboxymethyl cellulose‐Na⁺‐g‐cl‐poly(AAm) hydrogel composites with pH responsive phosphate release behavior

“…The polymerization was initiated by addition of APS at temperature 60–70 °C. The occluded polyacrylamide, residual acrylamide, and other impurities were removed from the final composites by repeated solvent extraction with ethanol and methanol in succession . The crosslinked gel mass was then air dried till constant weight.…”

“…In the present study, three different types of ZMHC composites (ZMHC‐1, ZMHC‐2, and ZMHC‐3) were prepared by varying the zeolite content in feed mass keeping all other reactant ratios constant and their synthesis parameters are depicted in Table . The percent grafting yield was calculated as follows: …”

Zeolite reinforced carboxymethyl cellulose‐Na⁺‐g‐cl‐poly(AAm) hydrogel composites with pH responsive phosphate release behavior