Polymer Brush/Metal Nanoparticle Hybrids for Optical Sensor Applications: from Self-Assembly to Tailored Functions and Nanoengineering
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Stephanie Christau
Abstract
This review article summarizes the progress of research in the field of polymer brush/metal nanoparticle hybrid materials. We will discuss the mutual influence of polymer brush matrix and particles. Self-assembly of particles within polymer brushes, and ways to control the loading and location of nanoparticles inside polymer brushes will be described, as well as the possibility to use the brush templates as nanoreactors to generate metal nanoparticles. The combination of stimuli-responsive polymer brushes and nanoparticles exhibiting surface plasmon resonance, such as gold or silver, enables the design of optical sensors based on reversible variations of the brush conformation. Sensing devices are capable of detecting a variety of extrinsic variations in their surrounding enviroments. The progress in the development of such optical sensors using brush/particle hybrids will be discussed in more detail.
©2014 Walter de Gruyter Berlin/Boston
Articles in the same Issue
- Frontmatter
- Preface
- Gerhard Findenegg: A Scientific Life in Soft Matter at Interfaces
- Nanoparticles via Oil-in-Water Microemulsions: a Solvent-Reduced, Energy-Efficient Approach
- Formation of Anisometric Fumed Silica Supraparticles – Mechanism and Application Potential
- Multidirectional, Multicomponent Electric Field Driven Assembly of Complex Colloidal Chains
- Polymer Brush/Metal Nanoparticle Hybrids for Optical Sensor Applications: from Self-Assembly to Tailored Functions and Nanoengineering
- Poly-acrylic Acid Brushes and Adsorbed Proteins
- Interactions of Two Fragments of the Human Antimicrobial Peptide LL-37 with Zwitterionic and Anionic Lipid Monolayers
- Depletion Interaction Mediated by fd-Virus: on the Limit of Low Density and Derjaguin Approximation
- Transport Properties of Polyelectrolyte Solutions. Effect of Confinement in Thin Liquid Films
- Relationship Between Pore Structure and Sorption-Induced Deformation in Hierarchical Silica-Based Monoliths
- Ammonia Dissociation on Graphene Oxide: An Ab Initio Density Functional Theory Calculation
- Responsive Microgels at Surfaces and Interfaces
- Buckled Topography to Enhance Light Absorption in Thin Film Organic Photovoltaics Comprising CuPc/C60 Bilayer Laminates
Articles in the same Issue
- Frontmatter
- Preface
- Gerhard Findenegg: A Scientific Life in Soft Matter at Interfaces
- Nanoparticles via Oil-in-Water Microemulsions: a Solvent-Reduced, Energy-Efficient Approach
- Formation of Anisometric Fumed Silica Supraparticles – Mechanism and Application Potential
- Multidirectional, Multicomponent Electric Field Driven Assembly of Complex Colloidal Chains
- Polymer Brush/Metal Nanoparticle Hybrids for Optical Sensor Applications: from Self-Assembly to Tailored Functions and Nanoengineering
- Poly-acrylic Acid Brushes and Adsorbed Proteins
- Interactions of Two Fragments of the Human Antimicrobial Peptide LL-37 with Zwitterionic and Anionic Lipid Monolayers
- Depletion Interaction Mediated by fd-Virus: on the Limit of Low Density and Derjaguin Approximation
- Transport Properties of Polyelectrolyte Solutions. Effect of Confinement in Thin Liquid Films
- Relationship Between Pore Structure and Sorption-Induced Deformation in Hierarchical Silica-Based Monoliths
- Ammonia Dissociation on Graphene Oxide: An Ab Initio Density Functional Theory Calculation
- Responsive Microgels at Surfaces and Interfaces
- Buckled Topography to Enhance Light Absorption in Thin Film Organic Photovoltaics Comprising CuPc/C60 Bilayer Laminates
