Surface–Functionalized Ceramics – For Biotechnological and Environmental Applications
Autor L Treccanien Limba Engleză Hardback – 17 ian 2023
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Specificații
ISBN-13: 9783527338351
ISBN-10: 3527338357
Pagini: 464
Dimensiuni: 175 x 248 x 28 mm
Greutate: 1.07 kg
Editura: Wiley Vch
Locul publicării:Weinheim, Germany
ISBN-10: 3527338357
Pagini: 464
Dimensiuni: 175 x 248 x 28 mm
Greutate: 1.07 kg
Editura: Wiley Vch
Locul publicării:Weinheim, Germany
Public țintă
Materials Scientists, Biotechnologists, Biotechnological Industry, Environmental Chemists, Ceramics Industry, LibrariesCuprins
PART I. INTRODUCTION TO CERAMIC MATERIALS
Ceramic Materials: Alumina, Zirconia, Titania, Calcium Phosphate and Silica
Nanomaterials: Nanowires, Nanotubes, Nanoparticles
Porous Materials: Particles, Colloidosomes, Membranes and Scaffolds with Hierarchical Structures
PART II. SURFACE MODIFICATION, FUNCTIONALIZATION AND IMMOBILIZATION
Surface Modification: Wet Chemistry, Self–Assembly, Silanization
Functionalization of Colloids: Approaches for One–Pot Functionalization, Approaches for Post–Synthesis Functionalization, Chemical Conjugation and Physical Adsorption, Bio–Inspired Functionalization
Functionalization of Porous Materials Surfaces
Immobilization of Biomolecules on Ceramic Surfaces: Immobilization of Biomolecules with Non–Covalent Linkers and Covalent Linkers, Micro– and Nano–Patterning
Functionalized Surfaces and Interactions with Biological Entities: Biomolecules, Viruses, Bacteria
PART III. ANALYSIS AND STABILITY OF SURFACES
Methods for Surface Imaging and Structure
Methods for Chemical Surface Analysis
Methods for Surface Energy and Potential
In–situ and Label–free Methods
Biomolecules–Surface Interactions: Immunochemistry and Protein Assays, Enzymatic Assays
Bacteria–Surface Interactions: Biofilm Formation, Characterization of Anti–Microbial Materials
Cells–Surface Interactions: Cell Adhesion, Proliferation and Differentiation Assays, In–vitro Assays for Cytocompatibility Assessment
Stability of Functionalized Surfaces: Environmental and Time–Dependent Properties
PART IV. APPLICATIONS
Biosensors for Water Quality and Environmental Monitoring
Catalysts
Analytic Systems for Life Sciences, Chip–Based High–Throughput Systems
Probes for Detection of Various Biological Species: Proteins, Nucleic Acids and Ions
Imaging Probes for Detecting and Following Reactions
Protein Purifications
Food Science
Antibacterial Surfaces
Downstream Processes and Chromatography
Ceramic Materials: Alumina, Zirconia, Titania, Calcium Phosphate and Silica
Nanomaterials: Nanowires, Nanotubes, Nanoparticles
Porous Materials: Particles, Colloidosomes, Membranes and Scaffolds with Hierarchical Structures
PART II. SURFACE MODIFICATION, FUNCTIONALIZATION AND IMMOBILIZATION
Surface Modification: Wet Chemistry, Self–Assembly, Silanization
Functionalization of Colloids: Approaches for One–Pot Functionalization, Approaches for Post–Synthesis Functionalization, Chemical Conjugation and Physical Adsorption, Bio–Inspired Functionalization
Functionalization of Porous Materials Surfaces
Immobilization of Biomolecules on Ceramic Surfaces: Immobilization of Biomolecules with Non–Covalent Linkers and Covalent Linkers, Micro– and Nano–Patterning
Functionalized Surfaces and Interactions with Biological Entities: Biomolecules, Viruses, Bacteria
PART III. ANALYSIS AND STABILITY OF SURFACES
Methods for Surface Imaging and Structure
Methods for Chemical Surface Analysis
Methods for Surface Energy and Potential
In–situ and Label–free Methods
Biomolecules–Surface Interactions: Immunochemistry and Protein Assays, Enzymatic Assays
Bacteria–Surface Interactions: Biofilm Formation, Characterization of Anti–Microbial Materials
Cells–Surface Interactions: Cell Adhesion, Proliferation and Differentiation Assays, In–vitro Assays for Cytocompatibility Assessment
Stability of Functionalized Surfaces: Environmental and Time–Dependent Properties
PART IV. APPLICATIONS
Biosensors for Water Quality and Environmental Monitoring
Catalysts
Analytic Systems for Life Sciences, Chip–Based High–Throughput Systems
Probes for Detection of Various Biological Species: Proteins, Nucleic Acids and Ions
Imaging Probes for Detecting and Following Reactions
Protein Purifications
Food Science
Antibacterial Surfaces
Downstream Processes and Chromatography
Notă biografică
Kurosch Rezwan is Professor and Head of the Advanced Ceramics group at the University of Bremen, Germany. He earned his PhD degree with distinction from the ETH Zurich, Switzerland, and carried out his thesis on protein adsorption onto colloidal oxide particles in aqueous suspensions. After a research visit at the University of California Santa Barbara, USA, and postdoctoral research at Imperial College London, UK, he joined the Faculty of Process and Industrial Engineering at the University of Bremen as an Assistant Professor for Bioceramics in 2006 and became Professor of Advanced Ceramics in 2009. Kurosch Rezwan has authored more than ninety scientific peer–reviewed publications and has received numerous scientific awards and major grants, including the ETH HILTI award for innovation and excellence in science and engineering, the Fritz–Behrens Award for outstanding scientists, the most cited Biomaterials paper award and an ERC distinction.
Laura Treccani is Senior Researcher at Petroceramics S.p.A. (Stezzano), Italy. She earned her degree in physics from the Catholic University of Brescia, Italy, and carried out her PhD thesis on biomineralization processes and interactions between nacre proteins and mineral crystals. In 2006 she joined the Bioceramics Group at the Faculty of Process and Industrial Engineering at the University of Bremen as research fellow and Vice Head of the Advanced Ceramics at the University of Bremen till 2015. Her research is broad and, among other topics, focuses on the development and characterization methodologies for surface modification of ceramic materials for biomaterials, bioengineering, nanotoxicological and environmental applications as well as composite products for aerospace. Laura Treccani has authored more than sixty peer–reviewed scientific publications and has received numerous awards and grants and she has been appointed Visiting Professor at the Faculty of Engineer at the University of Brescia (Italy).
Laura Treccani is Senior Researcher at Petroceramics S.p.A. (Stezzano), Italy. She earned her degree in physics from the Catholic University of Brescia, Italy, and carried out her PhD thesis on biomineralization processes and interactions between nacre proteins and mineral crystals. In 2006 she joined the Bioceramics Group at the Faculty of Process and Industrial Engineering at the University of Bremen as research fellow and Vice Head of the Advanced Ceramics at the University of Bremen till 2015. Her research is broad and, among other topics, focuses on the development and characterization methodologies for surface modification of ceramic materials for biomaterials, bioengineering, nanotoxicological and environmental applications as well as composite products for aerospace. Laura Treccani has authored more than sixty peer–reviewed scientific publications and has received numerous awards and grants and she has been appointed Visiting Professor at the Faculty of Engineer at the University of Brescia (Italy).
Descriere
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.