Screen LibraryAdvanced functional materials for optical and hazardous sensing : synthesis and applications /
This book highlights the significance and usefulness of nanomaterials for the development of sensing devices and their real-life applications. The book also addresses various means of synthesizing functional materials, e.g., hydrothermal deposition process, electrospinning, Ostwald ripening, sputter...
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| Group Author: | ; ; |
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| Published: |
Springer,
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| Publisher Address: | Singapore : |
| Publication Dates: | [2023] |
| Literature type: | Book |
| Language: | English |
| Series: |
Progress in optical science and photonics ; 27. 2363-5096 |
| Subjects: | |
| Summary: |
This book highlights the significance and usefulness of nanomaterials for the development of sensing devices and their real-life applications. The book also addresses various means of synthesizing functional materials, e.g., hydrothermal deposition process, electrospinning, Ostwald ripening, sputtering heterogeneous deposition, liquid-phase preparation, the vapor deposition approach, and aerosol flame synthesis. It presents an informative overview of the role of functional materials in the development of advanced sensor devices at the nanoscale and discusses the applications of functional materials in different forms prepared by diverse techniques in the field of optoelectronics and biomedical devices. Major features, such as type of advanced functional, fabrication methods, applications, tasks, benefits and restrictions, and saleable features, are presented in this book. Advanced functional materials for sensing have much wider applications and have an enormous impact on our environment. |
| Item Description: |
Description based upon print version of record. 1.1 Properties of Carbon-Based Functional Materials |
| Carrier Form: | xiv, 303 pages : illustrations (some color) ; 24 cm. |
| Bibliography: |
References -- Functional Materials for Biomedical and Environmental Sensing Application -- 1 Introduction -- 2 Sensors -- 3 Functionalization Strategies -- 3.1 Different Types of Interactions -- 3.2 Different Types of Materials Used for Functionalization -- 4 Functionalized Nanomaterials for Sensing Applications: Biosensing and Environmental Sensing -- 4.1 Metal Oxides -- 4.2 Magnetic Nanoparticles -- 4.3 Carbon Based Materials -- 4.4 A II-VI Nanomaterials -- 4.5 MXenes -- 4.6 Up Converting Nanoparticles -- 4.7 Metal Nanoparticles -- 5 Conclusion -- References Includes bibliographical references. |
| ISBN: |
9789819960132 9819960134 |
| Index Number: | TA418 |
| CLC: | TB383 |
| Call Number: | TB383/A244-40 |
| Contents: |
Intro -- Preface -- Contents -- About the Editors -- An Introduction: Advanced Functional Materials for Sensing Application -- 1 Introduction -- 1.1 Need of Functional Materials for Sensor Application -- 1.2 Advantages, Drawbacks, and Future Trends of Functional Materials for Sensing Application -- 2 Classification of Sensor -- 3 Techniques for Fabrication of Functional Materials -- 3.1 Hydrothermal Method -- 3.2 Sol-Gel Method -- 3.3 Microwave-Assisted Synthesis -- 3.4 Ultrasonication Cavitation -- 3.5 Electrospinning Method -- 3.6 Pulsed Laser Deposition -- 3.7 Sputtering 3.8 Electron Beam Evaporation -- 4 Different Functional Materials for Sensor Application -- 4.1 Hazardous Gas Sensor -- 4.2 Optical Sensor -- 5 Conclusion -- References -- Low-Dimensional Advanced Functional Materials as Hazardous Gas Sensing -- 1 Introduction -- 2 Different Kinds of Gas Sensors -- 2.1 OD Gas Sensors -- 2.2 1D Gas Sensors -- 2.3 MOS Based Nanostructures -- 2.4 Carbon Nanomaterials-Based Gas Sensing -- 2.5 2D Gas Sensors -- 3 Maxene-Based Gas Sensing -- 4 Applications of Gas Sensors -- 4.1 Environmental Monitoring -- 4.2 Breath Analyzer -- 4.3 Wearable Electronics 5 Conclusion and Future Outlook -- References -- Advanced of Chalcogenides Based as Hazardous Gas Sensing -- 1 Introduction -- 2 Synthesis Method of Chalcogenides -- 2.1 Performance Parameter of Ideal Gas Sensors -- 3 Classification of Chalcogenides-Based Gas Sensor -- 3.1 Metal Chalcogenides Gas Sensor -- 3.2 Transition Metal Chalcogenides Gas Sensor -- 4 Use of Chalcogenides in Gas Sensors -- 5 Principle of Chalcogenide-Based Gas Sensors and Development -- 6 Fabrication of Chalcogenide-Based Gas Sensors -- 6.1 Synthesis Method of Chalcogenides -- 6.2 Fabrication of Sensor -- 7 Conclusion Carbon Based Functional Materials as Hazardous Gas Sensing -- 1 Introduction -- 2 Mechanism -- 3 Carbon Nanomaterials -- 3.1 Carbon Black (CB) Based Gas Sensors -- 3.2 Carbon Nanohorns (CNHs) Based Gas Sensors -- 3.3 Carbon Nano-Onions (CNOs) Based Gas Sensors -- 3.4 Nanodiamond (ND) Based Gas Sensors -- 3.5 Carbon Quantum Dots (CQDs) Based Gas Sensors -- 3.6 Carbon Nanotubes (CNTs) Based Gas Sensors -- 3.7 Graphene Based Gas Sensors -- 4 Current Challenges and Outlook -- 5 Conclusion -- References -- Carbon-Based Functional Materials for Optical Sensors -- 1 Introduction |