L Treccani
John Wiley & Sons
e druk, 2023
9783527338351
Surface–Functionalized Ceramics – For Biotechnological and Environmental Applications
For Biotechnological and Environmental Applications
Specificaties
Gebonden, 464 blz.
|
Engels
John Wiley & Sons |
e druk, 2023
ISBN13: 9783527338351
Rubricering
Juridisch
:
Verwachte levertijd ongeveer 16 werkdagen
Samenvatting
This book gives a comprehensive overview of ceramic surface functionalization approaches for ceramic materials including alumina, zirconia, titania and silica and their use as sensors, chemical and biological probes, chromatographic supports for (bio)molecule purification and analysis, and as adsorbents for toxic substances and pollutants. It provides a broad picture of the enormous possibilities offered by surface functionalization and, in addition, addresses the current challenges regarding surface analysis, characterization and stability.
Specificaties
Inhoudsopgave
PART I. INTRODUCTION TO CERAMIC MATERIALS
<br /> Ceramic Materials: Alumina, Zirconia, Titania, Calcium Phosphate and Silica
<br /> Nanomaterials: Nanowires, Nanotubes, Nanoparticles
<br /> Porous Materials: Particles, Colloidosomes, Membranes and Scaffolds with Hierarchical Structures
<br /> PART II. SURFACE MODIFICATION, FUNCTIONALIZATION AND IMMOBILIZATION
<br /> Surface Modification: Wet Chemistry, Self–Assembly, Silanization
<br /> Functionalization of Colloids: Approaches for One–Pot Functionalization, Approaches for Post–Synthesis Functionalization, Chemical Conjugation and Physical Adsorption, Bio–Inspired Functionalization
<br /> Functionalization of Porous Materials Surfaces
<br /> Immobilization of Biomolecules on Ceramic Surfaces: Immobilization of Biomolecules with Non–Covalent Linkers and Covalent Linkers, Micro– and Nano–Patterning
<br /> Functionalized Surfaces and Interactions with Biological Entities: Biomolecules, Viruses, Bacteria
<br /> PART III. ANALYSIS AND STABILITY OF SURFACES
<br /> Methods for Surface Imaging and Structure
<br /> Methods for Chemical Surface Analysis
<br /> Methods for Surface Energy and Potential
<br /> In–situ and Label–free Methods
<br /> Biomolecules–Surface Interactions: Immunochemistry and Protein Assays, Enzymatic Assays
<br /> Bacteria–Surface Interactions: Biofilm Formation, Characterization of Anti–Microbial Materials
<br /> Cells–Surface Interactions: Cell Adhesion, Proliferation and Differentiation Assays, In–vitro Assays for Cytocompatibility Assessment
<br /> Stability of Functionalized Surfaces: Environmental and Time–Dependent Properties
<br /> PART IV. APPLICATIONS
<br /> Biosensors for Water Quality and Environmental Monitoring
<br /> Catalysts
<br /> Analytic Systems for Life Sciences, Chip–Based High–Throughput Systems
<br /> Probes for Detection of Various Biological Species: Proteins, Nucleic Acids and Ions
<br /> Imaging Probes for Detecting and Following Reactions
<br /> Protein Purifications
<br /> Food Science
<br /> Antibacterial Surfaces
<br /> Downstream Processes and Chromatography
<br />
<br /> Ceramic Materials: Alumina, Zirconia, Titania, Calcium Phosphate and Silica
<br /> Nanomaterials: Nanowires, Nanotubes, Nanoparticles
<br /> Porous Materials: Particles, Colloidosomes, Membranes and Scaffolds with Hierarchical Structures
<br /> PART II. SURFACE MODIFICATION, FUNCTIONALIZATION AND IMMOBILIZATION
<br /> Surface Modification: Wet Chemistry, Self–Assembly, Silanization
<br /> Functionalization of Colloids: Approaches for One–Pot Functionalization, Approaches for Post–Synthesis Functionalization, Chemical Conjugation and Physical Adsorption, Bio–Inspired Functionalization
<br /> Functionalization of Porous Materials Surfaces
<br /> Immobilization of Biomolecules on Ceramic Surfaces: Immobilization of Biomolecules with Non–Covalent Linkers and Covalent Linkers, Micro– and Nano–Patterning
<br /> Functionalized Surfaces and Interactions with Biological Entities: Biomolecules, Viruses, Bacteria
<br /> PART III. ANALYSIS AND STABILITY OF SURFACES
<br /> Methods for Surface Imaging and Structure
<br /> Methods for Chemical Surface Analysis
<br /> Methods for Surface Energy and Potential
<br /> In–situ and Label–free Methods
<br /> Biomolecules–Surface Interactions: Immunochemistry and Protein Assays, Enzymatic Assays
<br /> Bacteria–Surface Interactions: Biofilm Formation, Characterization of Anti–Microbial Materials
<br /> Cells–Surface Interactions: Cell Adhesion, Proliferation and Differentiation Assays, In–vitro Assays for Cytocompatibility Assessment
<br /> Stability of Functionalized Surfaces: Environmental and Time–Dependent Properties
<br /> PART IV. APPLICATIONS
<br /> Biosensors for Water Quality and Environmental Monitoring
<br /> Catalysts
<br /> Analytic Systems for Life Sciences, Chip–Based High–Throughput Systems
<br /> Probes for Detection of Various Biological Species: Proteins, Nucleic Acids and Ions
<br /> Imaging Probes for Detecting and Following Reactions
<br /> Protein Purifications
<br /> Food Science
<br /> Antibacterial Surfaces
<br /> Downstream Processes and Chromatography
<br />
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