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Self‐Assembly of Soft Cellulose Nanospheres into Colloidal Gel Layers with Enhanced Protein Adsorption Capability for Next‐Generation Immunoassays

Katariina Solin, Marco Beaumont, Sabine Rosenfeldt, Hannes Orelma, Maryam Borghei, Markus Bacher, Martina Opietnik, Orlando J. Rojas

2020Small30 citationsDOIOpen Access PDF

Abstract

Abstract Soft cationic core/shell cellulose nanospheres can deform and interpenetrate allowing their self‐assembly into densely packed colloidal nanogel layers. Taking advantage of their water‐swelling capacity and molecular accessibility, the nanogels are proposed as a new and promising type of coating material to immobilize bioactive molecules on thin films and paper. The specific and nonspecific interactions between the cellulosic nanogel and human immunoglobulin G as well as bovine serum albumin (BSA) are investigated. Confocal microscopy, electroacoustic microgravimetry, and surface plasmon resonance are used to access information about the adsorption behavior and viscoelastic properties of self‐assembled nanogels. A significant BSA adsorption capacity on nanogel layers (17 mg m −2 ) is measured, 300% higher compared to typical polymer coatings. This high protein affinity further confirms the promise of the introduced colloidal gel layer, in increasing sensitivity and advancing a new generation of substrates for a variety of applications, including immunoassays, as demonstrated in this work.

Topics & Concepts

NanogelMaterials scienceAdsorptionChemical engineeringBovine serum albuminColloidGelatinPolymerNanotechnologyCelluloseSurface plasmon resonanceProtein adsorptionSwellingNanoparticleChemistryChromatographyComposite materialOrganic chemistryDrug deliveryEngineeringAdvanced Cellulose Research StudiesPolysaccharides and Plant Cell WallsNanoparticle-Based Drug Delivery
Self‐Assembly of Soft Cellulose Nanospheres into Colloidal Gel Layers with Enhanced Protein Adsorption Capability for Next‐Generation Immunoassays | Litcius