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Influence of Oxidation Degree on the Physicochemical Properties of Oxidized Inulin

Franklin Afinjuomo, Paris Fouladian, Thomas G. Barclay, Yunmei Song, Nikolai Petrovsky, Sanjay Garg

2020Polymers36 citationsDOIOpen Access PDF

Abstract

This paper reports the oxidation of inulin using varying ratios of sodium periodate and the characterization of the inulin polyaldehyde. The physicochemical properties of the inulin polyaldehyde (oxidized inulin) were characterized using different techniques including 1D NMR spectroscopy, 13C Nuclear magnetic resonance (NMR), Fourier transform infrared spectroscopy (FTIR), thermal gravimetric analysis (TGA), differential scanning calorimetric (DSC), ultraviolet-visible spectroscopy (UV), and scanning electron microscopy (SEM). The aldehyde peak was not very visible in the FTIR, because the aldehyde functional group exists in a masked form (hemiacetal). The thermal stability of the oxidized inulin decreased with the increasing oxidation degree. The smooth spherical shape of raw inulin was destructed due to the oxidation, as confirmed by the SEM result. The 1HNMR results show some new peaks from 4.8 to 5.0 as well as around 5.63 ppm. However, no aldehyde peak was found around 9.7 ppm. This can be attributed to the hemiacetal. The reaction of oxidized inulin with tert-butyl carbazate produced a carbazone conjugate. There was clear evidence of decreased peak intensity for the proton belonging to the hemiacetal group. This clearly shows that not all of the hemiacetal group can be reverted by carbazate. In conclusion, this work provides vital information as regards changes in the physicochemical properties of the oxidized inulin, which has direct implications when considering the further utilization of this biomaterial.

Topics & Concepts

InulinHemiacetalFourier transform infrared spectroscopyChemistrySodium periodateThermogravimetric analysisAldehydeProton NMRDifferential scanning calorimetryThermal stabilityNuclear chemistryOrganic chemistryChemical engineeringCatalysisBiochemistryPhysicsEngineeringThermodynamicsMicrobial Metabolites in Food BiotechnologyMesoporous Materials and CatalysisMorinda citrifolia extract uses
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