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The subject of nanomaterials for bio-sensors is generally of great interest to undergraduate and graduate students in chemistry, physics, materials science, and biomedical science. This book, authored by Malhotra and Ali, makes a good effort to explain the basic concepts of biosensors based on different types of nanomaterials. The first chapter is an introduction to the fundamentals and applications of nanomaterials and biosensors. The advantages of the use of engineered nanomaterials in biosensors, such as nanoscale size and compatibility with biological molecules, are discussed. For chapters 2—8, each chapter covers the properties and biosensing applications of a type of nanomaterial.
Introduction 1. Synthesis of Nanostructured Materials 2. Functionalized Carbon Nanomaterials for Bio-electronics devices 3.
Nanocomposites: Enzymatic Biomoleculer Devices 7. Plasmonic Nanostructures: Fiber Optic Biosensors 9. Nanostructured Biomaterials for In Vivo Biosensors Nanomaterials for Whole Cell biosensors Nanomaterials for pathogen Detection Nanomaterials for Biosensors: Fundamentals and Applications provides a detailed summary of the main nanomaterials used in biosensing and their application.
It covers recent developments in nanomaterials for the fabrication of biosensor devices for healthcare diagnostics, food freshness and bioprocessing.
The various processes used for synthesis and characterization of nanostructured materials are examined, along with the design and fabrication of bioelectronic devices using nanostructured materials as building blocks.
Users will find the fundamentals of the main nanomaterials used in biosensing, helping them visualize a systematic and coherent picture of how nanomaterials are used in biosensors.
The book also addresses the role of bio-conjugation of nanomaterials in the construction of nano-biointerfaces for application in biosensors. Such applications, including metal nanoparticles, metal oxide nanoparticles, nanocomposites, carbon nanotubes, conducting polymers and plasmonic nanostructures in biosensing are discussed relative to each nanomaterial concerned.
Finally, recent advancements in protein functionalized nanomaterials for cancer diagnostics and bio-imaging are also included. Academics and graduate students focusing on the application of nanomaterials in biomedical science, and engineers looking to develop more effective biosensors.
Each chapter ends with a suitable reference list and has a good number of illustrations. He currently serves as President of the Biosensors Society of India and sits on the advisory boards of numerous international journals.
He has previously published three books, and contributed over articles in peer-reviewed journals. His main focus is looking at the design and fabrication of microfluidic biochips in order to improve biosensor efficiency. He has currently had published over 30 peer-reviewed journal papers. We are always looking for ways to improve customer experience on Elsevier. We would like to ask you for a moment of your time to fill in a short questionnaire, at the end of your visit.
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However, due to transit disruptions in some geographies, deliveries may be delayed. View on ScienceDirect. Authors: Bansi Malhotra Md.
Azahar Ali. Hardcover ISBN: Imprint: Elsevier. Published Date: 16th October Page Count: View all volumes in this series: Micro and Nano Technologies.
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Institutional Subscription. Free Shipping Free global shipping No minimum order. Provides a detailed study on how nanomaterials are used to enhance sensing capabilities in biosensors Explains the properties, characterization methods and preparation techniques of the nanomaterials used in biosensing Arranged in a material-by-material way, making it clear how each nanomaterial should be used.
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With the recent advancement of nanomaterials and nanostructured materials, the point-of-care biosensor devices have shown a potential growth to revolutionize the future personalized health care diagnostics and therapy practices. This chapter deals with the fundamentals of nanomaterials-based biosensors. The first chapter covers the brief details of nanotechnology with its types and an introduction to the synthesis of nanomaterials and their importance to construct transducers. The different components of transducers such as electrochemical, optical, piezoelectric, thermal, surface plasmon resonance, and so on for biosensors have been explained in this chapter. Various principles utilized for development of enzymatic biosensors, immunosensors, DNA, and whole-cell biosensors have been included in this chapter.
A biosensor is an analytical device, used for the detection of a chemical substance, that combines a biological component with a physicochemical detector. The biologically sensitive elements can also be created by biological engineering. The transducer or the detector element , which transforms one signal into another one, works in a physicochemical way: optical, piezoelectric , electrochemical, electrochemiluminescence etc. The biosensor reader device connects with the associated electronics or signal processors that are primarily responsible for the display of the results in a user-friendly way. The readers are usually custom-designed and manufactured to suit the different working principles of biosensors. This interaction is measured by the biotransducer which outputs a measurable signal proportional to the presence of the target analyte in the sample. The general aim of the design of a biosensor is to enable quick, convenient testing at the point of concern or care where the sample was procured.
An introduction to the field of biosensors and an in-depth and quantitative view of device design and performance analysis. An overview of the current state of the art to enable continuation into advanced biosensor work and design. Topics emphasize biomedical, bioprocessing, environmental, food safety, and biosecurity applications. Credit Hours: 3. Description: An introduction to the field of biosensors and an in-depth and quantitative view of device design and performance analysis. Topics Covered:.
Introduction 1. Synthesis of Nanostructured Materials 2. Functionalized Carbon Nanomaterials for Bio-electronics devices 3. Nanocomposites: Enzymatic Biomoleculer Devices 7. Plasmonic Nanostructures: Fiber Optic Biosensors 9.
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Explore a preview version of Chemical Sensors and Biosensors: Fundamentals and Applications right now. This is a modern introductory book on sensors, combining underlying theory with bang up to date topics such as nanotechnology. The text is suitable for graduate students and research scientists with little background in analytical chemistry. It is user-friendly, with an accessible theoretical approach of the basic principles, and references for further reading. The book covers up-to-date advances in the sensor field, e.
It seems that you're in Germany. We have a dedicated site for Germany. This book presents an exhaustive overview of electrochemical sensors and biosensors for the analysis and monitoring of the most important analytes in the environmental field, in industry, in treatment plants and in environmental research. The chapters give the reader a comprehensive, state-of-the-art picture of the field of electrochemical sensors suitable to environmental analytes, from the theoretical principles of their design to their implementation, realization and application. Application to seawater.
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This book focuses on the state-of-the-art of biosensor research and development for specialists and non-specialists. It introduces the fundamentals of the subject with relevant characteristics of transducer elements, as well as biochemical recognition molecules. This book is ideal for researchers of nanotechnology, materials science and biophysics. Covers the fundamentals of electrochemical and optical biosensors. Discusses the types of nanomaterials and conducting polymers that make up biosensors. Provides extensive examples of applications of biosensors. EN English Deutsch.
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In Chapter 1, the fundamentals of biosensors are discussed. Although the broad range of application of biosensors for the detection of various analytes.Silo C. 23.12.2020 at 00:31
Abstract. Enzyme electrodes and optical immunosensors are at the leading edge of the biosensor field. The sensitivity of multi-enzyme electrodes is shifted to the.