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Abstract
Advances in nanofabrication methods have enabled the tailoring of new strategies towards the controlled production of nanoparticles with attractive applications in healthcare. In many cases, their characterisation remains a big challenge, particularly for small-sized functional nanoparticles of 5 nm diameter or smaller, where current particle sizing techniques struggle to provide the required sensitivity and accuracy. There is a clear need for the development of new reliable characterisation approaches for the physico-chemical characterisation of nanoparticles with significant accuracy, particularly for the analysis of the particles in the presence of complex biological fluids. Herein, we show that the Differential Centrifugal Sedimentation can be utilised as a high-precision tool for the reliable characterisation of functional nanoparticles of different materials. We report a method to correlate the sedimentation shift with the polymer and biomolecule adsorption on the nanoparticle surface, validating the developed core–shell model. We also highlight its limit when measuring nanoparticles of smaller size and the need to use several complementary methods when characterising nanoparticle corona complexes.
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Details
1 University College Dublin, Centre for Bionano Interactions, Dublin, Ireland (GRID:grid.7886.1) (ISNI:0000 0001 0768 2743); Karolinska Institutet, Department of Medicine Huddinge, Center for Infectious Medicine, Stockholm, Sweden (GRID:grid.4714.6) (ISNI:0000 0004 1937 0626)
2 University College Dublin, Centre for Bionano Interactions, Dublin, Ireland (GRID:grid.7886.1) (ISNI:0000 0001 0768 2743); Technological University Dublin, School of Physics and Optometric & Clinical Sciences, Dublin 8, Ireland (GRID:grid.497880.a)
3 Universidade de Santiago de Compostela, Centro Singular de Investigación en Química Biolóxica e Materiais Moleculares (CiQUS), Santiago, Spain (GRID:grid.11794.3a) (ISNI:0000000109410645); Universidade de Santiago de Compostela, Departamento de Química Inorgánica, Grupo de Física de Coloides y Polímeros, Santiago, Spain (GRID:grid.11794.3a) (ISNI:0000000109410645)
4 CHyN, University of Hamburg, Fachbereich Physik, Hamburg, Germany (GRID:grid.9026.d) (ISNI:0000 0001 2287 2617); Agricultural Research Center, Food Technology Research Institute, Cairo, Egypt (GRID:grid.418376.f) (ISNI:0000 0004 1800 7673); Leibniz Universität Hannover, Institut für Physikalische Chemie und Elektrochemie, Hannover, Germany (GRID:grid.9122.8) (ISNI:0000 0001 2163 2777)
5 CHyN, University of Hamburg, Fachbereich Physik, Hamburg, Germany (GRID:grid.9026.d) (ISNI:0000 0001 2287 2617); RCSI (Royal College of Surgeons in Ireland), Chemistry Department, Dublin 2, Ireland (GRID:grid.4912.e) (ISNI:0000 0004 0488 7120); Al-Azhar University, Physics Department, Faculty of Science, Cairo, Egypt (GRID:grid.411303.4) (ISNI:0000 0001 2155 6022)
6 Royal College of Surgeons in Ireland, School of Pharmacy and Biomolecular Sciences, Dublin 2, Ireland (GRID:grid.4912.e) (ISNI:0000 0004 0488 7120)
7 University College Dublin, Centre for Bionano Interactions, Dublin, Ireland (GRID:grid.7886.1) (ISNI:0000 0001 0768 2743)
8 CHyN, University of Hamburg, Fachbereich Physik, Hamburg, Germany (GRID:grid.9026.d) (ISNI:0000 0001 2287 2617)
9 University College Dublin, Centre for Bionano Interactions, Dublin, Ireland (GRID:grid.7886.1) (ISNI:0000 0001 0768 2743); University of Salford, Biomedical Research Centre, School of Science Engineering and Environment, Salford, UK (GRID:grid.8752.8) (ISNI:0000 0004 0460 5971)
10 University College Dublin, Centre for Bionano Interactions, Dublin, Ireland (GRID:grid.7886.1) (ISNI:0000 0001 0768 2743); RCSI (Royal College of Surgeons in Ireland), Chemistry Department, Dublin 2, Ireland (GRID:grid.4912.e) (ISNI:0000 0004 0488 7120)