Your search keyword '"Estela Climent"' showing total 2 results

1. Multifunctional Polystyrene Core/Silica Shell Microparticles with Antifouling Properties for Bead-Based Multiplexed and Quantitative Analysis

Author

Estela Climent, Dominik Sarma, Knut Rurack, Peter Carl, and Rudolf J. Schneider

Subjects

Materials science, High-refractive-index polymer, Dispersity, Core (manufacturing), 02 engineering and technology, Bead, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chemical engineering, Polymerization, visual_art, visual_art.visual_art_medium, Surface modification, General Materials Science, Polystyrene, BODIPY, 0210 nano-technology

Abstract

Commercial bead-based assays are commonly built upon polystyrene particles. The polymeric carrier can be encoded with organic dyes and has ideal material properties for cytometric applications such as low density and high refractive index. However, functional groups are conventionally integrated during polymerization and subsequent modification is limited to the reactivity of those groups. Additionally, polystyrene as the core material leads to many hydrophobic areas still being present on the beads’ surfaces even after functionalization, rendering the particles prone to nonspecific adsorption during an application. The latter calls for several washing steps and the use of additives in (bio)analytical assays. In this contribution, we show how these limitations can be overcome by using monodisperse polystyrene (PS) core/silica (SiO2) shell particles (SiO2@PS). Two different hydrophobic BODIPY (boron–dipyrromethene) dyes were encapsulated inside a poly(vinylpyrrolidone) (PVP) -stabilized polystyrene core in...

Published

2018

2. Correction to 'Multifunctional Polystyrene Core/Silica Shell Microparticles with Antifouling Properties for Bead-Based Multiplexed and Quantitative Analysis'

Author

Dominik Sarma, Peter Carl, Estela Climent, Rudolf J. Schneider, and Knut Rurack

Subjects

Polymers, Surface Properties, Caffeine, Polystyrenes, General Materials Science, Particle Size, Silicon Dioxide, Hydrophobic and Hydrophilic Interactions, Microspheres, Addition/Correction

Abstract

Commercial bead-based assays are commonly built upon polystyrene particles. The polymeric carrier can be encoded with organic dyes and has ideal material properties for cytometric applications such as low density and high refractive index. However, functional groups are conventionally integrated during polymerization and subsequent modification is limited to the reactivity of those groups. Additionally, polystyrene as the core material leads to many hydrophobic areas still being present on the beads' surfaces even after functionalization, rendering the particles prone to nonspecific adsorption during an application. The latter calls for several washing steps and the use of additives in (bio)analytical assays. In this contribution, we show how these limitations can be overcome by using monodisperse polystyrene (PS) core/silica (SiO

Published

2019