Sale!

Handbook of Biosensors and Biochips 1st Edition by Robert S Marks, Christopher R Lowe ISBN 0470019050 9780470019054

Original price was: $50.00.Current price is: $35.00.

Handbook of Biosensors and Biochips 1st Edition Robert S. Marks Digital Instant Download

Author(s): Robert S. Marks, Christopher R. Lowe, David C. Cullen, Howard H. Weetall, Isao Karube
ISBN(s): 9780470019054, 0470019050
Edition: 1
File Details: PDF, 15.36 MB
Year: 2007
Language: english
SKU: EB-1330304 Category: Tags: , , , ,

Handbook of Biosensors and Biochips 1st Edition by Robert S Marks, Christopher R Lowe – Ebook PDF Instant Download/Delivery: 0470019050, 9780470019054
Full download Handbook of Biosensors and Biochips 1st Edition after payment

Product details:

ISBN 10: 0470019050 
ISBN 13: 9780470019054
Author: Robert S Marks, Christopher R Lowe

With contributions from experts in the field, the Handbook of Biosensors and Biochips provides an essential reference, underpinning many of the applications used in medical diagnostics, environmental control and pharmaceutical and food industries. It presents an invaluable addition for those in both academia and industry.

Handbook of Biosensors and Biochips 1st Table of contents:

Part I: Introduction to Biosensor and Biochip Technologies

Chapter 1: Fundamentals of Biosensing and Biochips

  • 1.1 Defining Biosensors: Components and Principles
  • 1.2 The Evolution of Biosensor Technology
  • 1.3 What are Biochips and Microarrays?
  • 1.4 Key Performance Parameters: Sensitivity, Selectivity, Detection Limit
  • 1.5 Classification of Biosensors and Biochips

Chapter 2: Biological and Molecular Recognition Systems (Bioreceptors)

  • 2.1 Enzymes as Biorecognition Elements: Principles and Applications
  • 2.2 Antibodies and Immunoassays: Immunosensors
  • 2.3 Nucleic Acids: DNA, RNA, and Aptamers in Sensing
  • 2.4 Cell-Based Biosensors: Whole-Cell Bioreporters
  • 2.5 Receptors, Peptides, and Other Biorecognition Molecules
  • 2.6 Biomimetic Recognition Elements: Molecularly Imprinted Polymers (MIPs)

Part II: The Biology-Materials Interface: Interfacial Science and Receptor Integration

Chapter 3: Principles of Interfacial Science for Biosensors

  • 3.1 Surface Chemistry and Bio-Interactions
  • 3.2 Material Selection for Biosensing Platforms
  • 3.3 Preventing Fouling and Non-Specific Binding
  • 3.4 Surface Characterization Techniques for Biosensors

Chapter 4: Immobilization Strategies for Bioreceptors

  • 4.1 Physical Adsorption and Encapsulation Methods
  • 4.2 Covalent Binding and Cross-Linking Techniques
  • 4.3 Self-Assembled Monolayers (SAMs) for Biosensor Surfaces
  • 4.4 Electrochemical Polymerization for Biomolecule Immobilization
  • 4.5 Micro- and Nanopatterning for Directed Immobilization

Chapter 5: Smart Materials and Hydrogels for Biosensing

  • 5.1 Stimuli-Responsive Materials in Biosensors
  • 5.2 Hydrogels: Properties and Applications in Sensing and Drug Delivery
  • 5.3 Polymer-Based Biosensors and Flexible Electronics
  • 5.4 Nanomaterials in Biosensors: Nanoparticles, Nanotubes, Nanosheets

Part III: Transducer Technologies for Biosensors and Bioarray Technologies

Chapter 6: Electrochemical Transduction

  • 6.1 Potentiometric Biosensors: Ion-Selective Electrodes (ISEs) and Field-Effect Transistors (FETs)
  • 6.2 Amperometric Biosensors: Principles and Applications
  • 6.3 Conductometric and Impedimetric Biosensors
  • 6.4 Voltammetric Techniques in Biosensing
  • 6.5 Microelectrode Arrays for Electrochemical Detection

Chapter 7: Optical Transduction Methods

  • 7.1 Principles of Optical Biosensing: Absorption, Fluorescence, Luminescence
  • 7.2 Surface Plasmon Resonance (SPR) Biosensors
  • 7.3 Fiber Optic Biosensors
  • 7.4 Colorimetric and Chemiluminescent Biosensors
  • 7.5 Total Internal Reflection Fluorescence (TIRF) Microscopy in Biosensors

Chapter 8: Mass-Based and Mechanical Transduction

  • 8.1 Quartz Crystal Microbalance (QCM) Biosensors
  • 8.2 Surface Acoustic Wave (SAW) Devices
  • 8.3 Cantilever-Based Biosensors and Micro-Electromechanical Systems (MEMS)
  • 8.4 Micromechanical Resonators for Label-Free Detection
  • 8.5 Piezoelectric Biosensors

Chapter 9: Thermal and Other Transduction Principles

  • 9.1 Principles of Calorimetric Biosensors
  • 9.2 Thermoelectric Devices in Biosensing
  • 9.3 Emerging Transduction Mechanisms: Magnetic, Acoustic, etc.

Volume 2

Part IV: Miniaturized, Micro-engineered, and Particle Systems

Chapter 10: Microfluidics and Lab-on-a-Chip Devices

  • 10.1 Principles of Microfluidic Design and Fabrication
  • 10.2 Microfluidic Components: Pumps, Valves, Mixers
  • 10.3 Integration of Biosensors with Microfluidic Platforms
  • 10.4 Applications of Lab-on-a-Chip in Diagnostics and Analysis
  • 10.5 Droplet-Based Microfluidics

Chapter 11: Bio-MEMS and Nanofabrication for Biosensors

  • 11.1 Micro-Electromechanical Systems (MEMS) in Biosensors
  • 11.2 Nanofabrication Techniques for Biosensing (e.g., electron beam lithography, self-assembly)
  • 11.3 Nanoparticles and Quantum Dots in Biosensing
  • 11.4 Integration of Nanomaterials into Biosensor Architectures

Part V: Array Technologies and High-Throughput Screening

Chapter 12: DNA Microarrays and Gene Expression Profiling

  • 12.1 Principles of DNA Microarray Technology
  • 12.2 Fabrication and Detection Methods for DNA Chips
  • 12.3 Applications in Gene Expression, Genotyping, and Diagnostics
  • 12.4 Data Analysis and Bioinformatics for Microarray Data

Chapter 13: Protein Microarrays and Proteomics

  • 13.1 Principles of Protein Array Fabrication and Detection
  • 13.2 Applications in Biomarker Discovery, Protein Interaction Studies, and Diagnostics
  • 13.3 Challenges in Protein Array Development and Standardization

Chapter 14: Cell-Based Arrays and Organ-on-a-Chip

  • 14.1 Microarrays for Cell Adhesion, Proliferation, and Differentiation Studies
  • 14.2 3D Cell Culture Systems and Their Integration with Biosensors
  • 14.3 Organs-on-a-Chip: Mimicking Human Physiology for Drug Testing

Part VI: Data Analysis, Conditioning, and Presentation

Chapter 15: Signal Processing and Data Interpretation

  • 15.1 Noise Reduction and Signal Amplification Techniques
  • 15.2 Calibration and Standardization of Biosensor Signals
  • 15.3 Chemometrics and Multivariate Data Analysis for Complex Biosensing Data
  • 15.4 Machine Learning and Artificial Intelligence in Biosensor Data Analysis

Chapter 16: Biosensor System Integration and Readout Devices

  • 16.1 Design of Integrated Biosensor Systems
  • 16.2 Portable and Handheld Readout Devices
  • 16.3 Wireless Biosensors and Remote Monitoring
  • 16.4 Data Visualization and User Interfaces

Part VII: Areas and Examples of Biosensor Applications

Chapter 17: Medical Diagnostics and Personalized Medicine

  • 17.1 Point-of-Care (POC) Diagnostics
  • 17.2 Glucose Monitoring and Diabetes Management
  • 17.3 Cancer Biomarker Detection
  • 17.4 Infectious Disease Diagnostics
  • 17.5 Personalized Medicine and Theranostics

Chapter 18: Environmental Monitoring

  • 18.1 Water Quality Monitoring: Pollutants and Toxins
  • 18.2 Air Quality Monitoring
  • 18.3 Soil Contamination Detection
  • 18.4 Biosensors for Bioremediation Monitoring

Chapter 19: Food Safety and Quality Control

  • 19.1 Pathogen Detection in Food
  • 19.2 Allergen Detection
  • 19.3 Quality Assessment of Food Products
  • 19.4 Pesticide and Chemical Residue Detection

Chapter 20: Drug Discovery and Pharmaceutical Research

  • 20.1 High-Throughput Screening with Biosensor Arrays
  • 20.2 Drug-Target Interaction Studies
  • 20.3 Toxicity Testing and ADMET Profiling
  • 20.4 Cell-Based Assays for Pharmaceutical Development

Chapter 21: Biodefense and Security Applications

  • 21.1 Detection of Biological Warfare Agents
  • 21.2 Pathogen Identification in Threat Scenarios
  • 21.3 Rapid Response Systems and Field-Deployable Sensors

Part VIII: Commercialization, Business, and Regulatory Issues

Chapter 22: From Lab to Market: Commercialization Strategies

  • 22.1 Intellectual Property and Patenting in Biosensors
  • 22.2 Funding and Investment for Biosensor Startups
  • 22.3 Business Models for Biosensor Products
  • 22.4 Case Studies of Successful Commercialization

Chapter 23: Regulatory Landscape for Biosensors and Biochips

  • 23.1 FDA Approval Processes for Medical Devices
  • 23.2 European Regulations (CE Marking)
  • 23.3 Quality Management Systems (e.g., ISO Standards)
  • 23.4 Ethical Considerations in Biosensor Development and Use

Part IX: Future Implications, Trends, and Perspectives

Chapter 24: Emerging Technologies and Future Directions

  • 24.1 Wearable and Implantable Biosensors
  • 24.2 Non-Invasive Biosensing Techniques
  • 24.3 Integration of Biosensors with Artificial Intelligence and IoT
  • 24.4 Synthetic Biology and Biosensor Design
  • 24.5 Miniaturization, Multiplexing, and System Integration

Chapter 25: Societal Impact and Ethical Considerations

  • 25.1 Personalized Health and Data Privacy
  • 25.2 Equity of Access to Advanced Diagnostic Technologies
  • 25.3 Biosecurity and Dual-Use Technologies

People also search for Handbook of Biosensors and Biochips 1st:

handbook of biosensors and biochips
    
handbook of cell biosensors
    
handbook of biostatistics
    
handbook of biologically active peptides
    
handbook of immunoassay technologies

 

Tags: Robert S Marks, Christopher R Lowe, Handbook, Biosensors