Search results for "Patch halloysite"

showing 2 items of 2 documents

Effect of Morphology and Size of Halloysite Nanotubes on Functional Pectin Bionanocomposites for Food Packaging Applications

2017

Pectin bionanocomposite films filled with various concentrations of two different types of halloysite nanotubes were prepared and characterized in this study as potential films for food packaging applications. The two types of halloysite nanotubes were long and thin (patch) (200-30 000 nm length) and short and stubby (Matauri Bay) (50-3000 nm length) with different morphological, physical, and dispersibility properties. Both matrix (pectin) and reinforcer (halloysite nanotubes) used in this study are considered as biocompatible, natural, and low-cost materials. Various characterization tests including Fourier transform infrared spectroscopy, field emission scanning electron microscopy, rele…

PectinScanning electron microscopeHalloysite nanotube02 engineering and technology01 natural sciencesPackaging machineContact angleBionanocompositeHeat resistanceGeneral Materials ScienceComposite materialSettore CHIM/02 - Chimica FisicapectinNanotubesYarn Antimicrobial filmFourier transform infrared spectroscopypatch halloysiteSalicylic acidDynamic mechanical analysis021001 nanoscience & nanotechnologyReinforcementPackagingPolyethylenepectin Kaoliniteantimicrobial filmPectinsAluminum SilicatesBiocompatibility0210 nano-technologyScanning electron microscopyMicroorganismMaterials sciencefood.ingredientBiocompatibilityengineering.materialDynamic mechanical analysi010402 general chemistryHalloysiteFood packagingfoodUltimate tensile strengthFourier transform infrared spectroscopyContact angleBacteriaField emission microscopeFunctional foodthermal resistanceHalloysite0104 chemical sciencesNanotubeBiological materialengineeringClayACS Applied Materials & Interfaces
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A structural comparison of halloysite nanotubes of different origin by Small-Angle Neutron Scattering (SANS) and Electric Birefringence

2018

The structure of halloysite nanotubes (Hal) from different mines was investigated by Small-Angle Neutron Scattering (SANS) and Electric Birefringence (EBR) experiments. The analysis of the SANS curves allowed us to correlate the sizes and polydispersity and the specific surfaces (obtained by a Porod analysis of the SANS data) of the nanotubes with their specific geological setting. Contrast matching measurements were performed on patch Hal (from Western Australia) in order to determine their experimental scattering length density for a more precise analysis. Further characterization of the mesoscopic structure of Hal was carried out by Electric Birefringence (EBR), which allowed to study th…

Yarn Electric birefringenceSuperconducting materialPatch halloysiteHalloysite nanotube02 engineering and technologyengineering.materialNeutron scattering010402 general chemistry01 natural sciencesHalloysiteMolecular physicsPlants (botany)Structural descriptionGeochemistry and PetrologyKaoliniteRotational diffusion coefficientSettore CHIM/02 - Chimica FisicaMesoscopic physicsBirefringenceBirefringenceScattering length densityStructural analysiElectric BirefringenceRotational diffusionStructural comparisonScattering lengthGeologyHalloysite021001 nanoscience & nanotechnologySmall-angle neutron scattering0104 chemical sciencesCharacterization (materials science)NanotubeStructural knowledge Neutron scatteringengineeringSmall Angle Neutron Scattering0210 nano-technology
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