Litcius/Paper detail

Acid Hydrolyzed Pearl Millet Starch Nanoparticles: Synthesis and Characterization

Prafull Chavan, Archana Sinhmar, Rahul Thory, Somesh Sharma, Sakshi Sukhija, Gurvendra Pal Singh, Krishna Aayush, Jay Singh, Deepak Kumar

2023Starch - Stärke10 citationsDOI

Abstract

Abstract The amylose content in native starch is reduced through hydrolysis, impacting its physicochemical properties. Starch nanoparticles exhibit enhanced water and oil absorption capacities, attributed to increased hydrolysis and subsequently higher solubility. Moreover, the swelling power of starch nanoparticles is notably higher, indicating improved functionality. Pasting properties are altered, with reduced peak viscosity, breakdown viscosity, and setback viscosity in modified starches. Dynamic light scattering reveals a significant reduction in particle size for starch nanoparticles compared to native starch. Morphological analysis using field emission‐scanning electron microscopy (FE‐SEM) highlights distinct granule shapes and surfaces between the two starch types. The X‐ray diffraction patterns confirm an A‐type crystalline structure in both native and modified starches. Fourier transform infrared (FTIR) spectroscopy verifies no significant difference in functional groups due to extraction or hydrolysis methods. This comprehensive investigation provides valuable insights into the chemical modification of pearl millet starch, shedding light on its potential applications in various industries, including food and pharmaceuticals.

Topics & Concepts

StarchAmyloseFourier transform infrared spectroscopyAcid hydrolysisHydrolysisChemical engineeringDynamic light scatteringMaterials scienceNanoparticleSwellingParticle sizeModified starchChemistrySolubilityNuclear chemistryOrganic chemistryNanotechnologyComposite materialEngineeringFood composition and propertiesPolysaccharides Composition and ApplicationsProteins in Food Systems