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3D Atomic Force Microscopy Offers Insights into Chitin Nanocrystals

Researchers employed atomic force microscopy (AFM) and molecular dynamics (MD) simulations to reveal the structural details of the chitin nanocrystal (chitin NC)-water interface at the molecular level.

Malpolon shutterstockSusha cheriyedathBhavna kavetijunBhavna kavetiD atomic force microscopy offers insightsResearch findingsDimensional atomic force microscopyAtomic force microscopy offers insightsChitin nanocrystalsStructural detailsChitin nanocrystalWater interfacesThree dimensional atomic forceImage creditSmall methods

Low-Cost Colorimetric Method to Modeling Protein-NP Interactions

Researchers adopted a colorimetric approach toward quantitative analysis of adsorbed proteins onto the surface of gold nanoparticles.

Angel soler gollonet shutterstockSusha cheriyedathBhavna kavetijunBhavna kavetiResearch findingsProperties of nanoparticlesAnalytical chemistryCost colorimetric methodModeling protein nanoparticle interactionsHigh throughput colorimetric analysisProtein interactions basedEnzyme mimic propertiesImage creditAngel solerBetween nanomaterialsThroughput colorimetric analysis

Showcasing the True Potential of SERS-based Raman Imaging

Researchers presented a library of individually unique surface-enhanced Raman spectroscopy (SERS) nanoparticles (NPs), composed of approximately 60 nanometers gold (Au) core, a Raman reporter molecule, and a silica coating.

Ratiometric ramanSusha cheriyedathBhavna kavetijunBhavna kavetiResearch findingsTrue potentialRaman imagingBiological analysisMultiplexing capabilitiesReveal highly specific molecular expressionEnable spatialImage credit

How is Raman Spectroscopy Used to Support Electrocatalysis Research?

This article discusses the application of Raman spectroscopy in electrolysis research to understand the electrode-potential induced redox-state changes in catalyst materials, detect surface-bound products and reaction intermediates, and determine the pH values at the catalyst-electrolyte interface.

Forance shutterstockBhavna kavetijunOperando ramanBhavna kavetiRaman spectroscopyRedox states using operando ramanResolved raman spectroscopyApplied surface sciencePhysical chemistry chemical physicsReseda lakeFurther readingCurrent opinionPerando raman spectroscopy

Rheological Analysis of 3D Printed Edible Food Inks

Three-dimensional (3D) food printing methods have received considerable attention due to growing living standards and higher consumer demand for innovative food. Rheology fills the gap between edible inks and printability, and its principles determine the flowability, shearing dependence, and therma

Kittyvector shutterstockBhavna kavetijunBhavna kavetiRheological propertiesD printing in food technologyFood hydrocolloidsFood engineering3d printingDible inks

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