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Complex and Composite Metal Oxides for Gas, VOC and Humidity Sensors, Volume 2. Technology and New Trends

  • Book

  • March 2024
  • Elsevier Science and Technology
  • ID: 5894678

Complex and Composite Metal Oxides for Gas, VOC, and Humidity Sensors, Volume 2: Technology and New Trends provides an overview of the advanced nanocomposite metal oxide materials used in sensors for environmental monitoring applications. Volume 2 discusses the state of the art in synthesis methods of innovative morphology, metal oxide hybrids, and heterostructures. It also describes the new generation of complex materials such as perovskites, spinel ferrites, and quaternary type-based gas and VOC sensors. This volume includes a brief discussion of advanced strategies for the development of futuristic sensors with properties such as room temperature operation, self-power generation, self-healability, flexibility, and wearability.

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Table of Contents

SECTION 1 Synthesis methods and strategies applied for metal oxide nanocomposites based gas and VOC sensors 1. Features of preparing metal oxide nanocomposites: General consideration 2. Synthesis of heterostructure metal oxide nanocomposites and their gas-sensing properties 3. Synthesis of metal oxide composite nanofibers by electrospinning and its application in gas and VOC sensors 4. Metal oxide based bi/multilayer thin film heterostructures for gas sensing applications 5. Inkjet printing of MOx-based heterostructures for gas sensing and safety applications-Recent trends, challenges, and future scope 6. Improving the parameters of metal oxide gas sensors through doping 7. Metal oxide composite-based 1D nanomaterials and its gas-sensing characteristics 8. 2D and 3D nanomaterials-based metal oxide composites and their applications in gas sensing 9. Composite based on metal oxides and 2D metal dichalcogenides for gas sensing 10. Graphene-metal oxide hybrids and their gas-sensing characteristics 11. Metal oxide-zeolite hybrid-based VOC sensors SECTION 2 Complex metal oxide compounds for electrical gas and VOC sensors 12. Perovskites (ABO3) and their prospects for gas sensor application 13. ABO4 and AB2O6 structured metal oxide-based gas sensors 14. Gas-sensing characteristics of AB2O4 (spinel ferrites)-structured metal oxides 15. Quaternary and more complex metal oxide compounds for gas sensor design SECTION 3 Advanced strategies for future metal oxide nanocomposites-based sensors 16. Room temperature gas and VOCs sensors based on metal oxide composites 17. Self-powered gas and humidity sensors 18. Wearable and flexible nanocomposite-based gas sensors 19. Self-healing materials for highly sensitive gas sensors and for other applications 20. Isolated single-atomic-site (ISAS) materials for gas and VOC detection 21. Metal-oxide nanocomposites for microbial volatile organic compounds

Authors

Bal Chandra Yadav School of Physical and Decision Sciences, Babasaheb Bhimrao Ambedkar University (A Central University) Lucknow, U.P., India. Dr. Bal Chandra Yadav works as Professor and Head in the Department of Physics, School of Physical and Decision Sciences at Babasaheb Bhimrao Ambedkar University based in Lucknow, India. He has more than 24 years of teaching and research experience. His areas of research includes the development of innovative nanomaterials for energy and sensing applications. Pragati Kumar Assistant Professor, Nano-Materials and Device Lab, Department of Nanoscience and Materials, Central University of Jammu, Jammu and Kashmir, India.. Dr. Pragati Kumar is an Assistant Professor in the Department of Nanosciences and Materials at Central University of Jammu, India. He has more than 7 years of teaching and research experience. Dr. Kumar's research interests include semiconductor and metal nanocrystals, thin films and composites for optoelectronic and sensing applications.