Advanced Rare Earth-Based Ceramic Nanomaterials

Advanced Rare Earth-Based Ceramic Nanomaterials

1st Edition - January 15, 2022

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  • Editor: Sahar Zinatloo-Ajabshir
  • Paperback ISBN: 9780323899574
  • eBook ISBN: 9780323899581

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Description

Advanced Rare Earth-Based Ceramic Nanomaterials focuses on recent advances related to preparation methods and applications of advanced rare earth-based ceramic nanomaterials. Different approaches for synthesizing rare earth-based ceramic nanomaterials are discussed, along with their advantages and disadvantages for applications in various fields. Sections cover rare earth-based ceramic nanomaterials like ceria and rare earth oxides (R2O3), rare earth vanadates, rare earth titanates, rare earth zirconates, rare earth stannates, rare earth-based tungstates, rare earth-based manganites, ferrites, cobaltites, nickelates, rare earth doped semiconductor nanomaterials, rare earth molybdates, rare earth-based nanocomposites, rare earth-based compounds for solar cells, and laser nanomaterials based on rare-earth compounds.

Key Features

  • Reviews the chemistry and processing of rare earth doped ceramic nanomaterials and their characteristics and applications
  • Covers a broad range of materials, including ceria and rare earth oxides (R2O3), vanadates, titanates, zirconates, stannates, tungstates, manganites, ferrites, cobaltites, nickelates, rare earth doped semiconductor nanomaterials, rare earth molybdates, rare earth-based nanocomposites, rare earth-based compounds for solar cells, and laser nanomaterials based on rare-earth compounds
  • Includes different approaches to synthesizing each family of rare earth-based ceramic nanomaterials, along with their advantages and disadvantages
  • Provides green chemistry-based methods for the preparation of advanced rare earth-based ceramic nanomaterials

Readership

Materials scientists, physicists, chemists and engineers, R&D Managers working in ceramic materials, energy science and technology

Table of Contents

  • Cover image
  • Title page
  • Table of Contents
  • Copyright
  • List of contributors
  • 1. Advanced rare earth-based ceramic nanomaterials at a glance
  • Abstract
  • 1.1 Rare earth elements
  • 1.2 Rare earth-based ceramic nanomaterials
  • References
  • 2. Ceria and rare earth oxides (R2O3) ceramic nanomaterials
  • Abstract
  • 2.1 General introduction
  • 2.2 Fabrication methods
  • 2.3 Applications
  • 2.4 Conclusion and outlook
  • References
  • 3. Rare earth cerate (Re2Ce2O7) ceramic nanomaterials
  • Abstract
  • 3.1 General introduction
  • 3.2 Lanthanide cerates (Ln2Ce2O7)
  • 3.3 Preparation methods
  • 3.4 Applications
  • 3.5 Conclusion and outlook
  • References
  • 4. Rare earth zirconate (Re2Zr2O7) ceramic nanomaterials
  • Abstract
  • 4.1 General introduction
  • 4.2 Preparation methods of Re2Zr2O7 ceramic nanomaterials
  • 4.3 Applications of Re2Zr2O7 ceramic nanomaterials
  • 4.4 Conclusion and outlook
  • References
  • 5. Rare earth orthovanadate ceramic nanomaterials
  • Abstract
  • 5.1 General introduction
  • 5.2 Fabrication methods
  • 5.3 Applications
  • 5.4 Conclusion and outlook
  • References
  • 6. Rare earth titanate ceramic nanomaterials
  • Abstract
  • 6.1 General introduction
  • 6.2 Fabrication of lanthanide titanate nanostructures
  • 6.3 Conclusion and outlook
  • References
  • 7. Rare-earth-based tungstates ceramic nanomaterials: recent advancements and technologies
  • Abstract
  • 7.1 General introduction
  • 7.2 Characteristics of common Ln–W–O compounds
  • 7.3 Crystal structures
  • 7.4 Synthesis techniques
  • 7.5 Common properties
  • 7.6 Common applications
  • 7.7 Conclusion and outlook
  • References
  • 8. Rare earth-based ceramic nanomaterials—manganites, ferrites, cobaltites, and nickelates
  • Abstract
  • 8.1 General introduction
  • 8.2 Rare-earth ferrites
  • 8.3 Rare-earth manganites
  • 8.4 Rare-earth cobaltites
  • 8.5 Rare-earth nickelates
  • 8.6 Conclusion and outlook
  • References
  • 9. Rare earth–doped SnO2 nanostructures and rare earth stannate (Re2Sn2O7) ceramic nanomaterials
  • Abstract
  • 9.1 General introduction
  • 9.2 Preparation methods of rare earth–doped SnO2 nanostructures and rare earth stannate (Re2Sn2O7) ceramic nanomaterials
  • 9.3 Applications of rare earth–doped SnO2 nanostructures and rare earth stannate (Re2Sn2O7) ceramic nanomaterials
  • 9.4 Conclusion and outlook
  • References
  • 10. Rare-earth molybdates ceramic nanomaterials
  • Abstract
  • 10.1 General introduction
  • 10.2 Preparation methods of rare-earth molybdates ceramic nanomaterials
  • 10.3 Applications methods of rare-earth molybdates ceramic nanomaterials
  • 10.4 Conclusion and outlook
  • References
  • 11. Rare earth–doped semiconductor nanomaterials
  • Abstract
  • 11.1 General introduction
  • 11.2 Applications of RE-doped semiconductor nanomaterial
  • 11.3 RE-doped semiconductors
  • 11.4 III–V RE-doped semiconductors
  • 11.5 Re-doped metal oxides
  • 11.6 RE-doped perovskite
  • 11.7 Synthesis methods of RE-doped semiconductors
  • 11.8 Rare earth elements resources and their recycling
  • 11.9 Conclusion and outlook
  • References
  • 12. Rare-earth-based nanocomposites
  • Abstract
  • 12.1 General introduction
  • 12.2 Nanocomposite materials
  • 12.3 Why dose rare-earth elements indicate many applications?
  • 12.4 Properties of rare earth elements based nanocomposites that leads to medical and biological applications
  • 12.5 Synthesis and functionalization of RE-based nanocomposites
  • 12.6 Conclusion and outlook
  • References
  • 13. Rare earth–based compounds for solar cells
  • Abstract
  • 13.1 General information
  • 13.2 Application of RE-based compounds in solar cells
  • 13.3 Synthesis procedures
  • 13.4 Conclusion and outlook
  • References
  • Index

Product details

  • No. of pages: 412
  • Language: English
  • Copyright: © Elsevier 2022
  • Published: January 15, 2022
  • Imprint: Elsevier
  • Paperback ISBN: 9780323899574
  • eBook ISBN: 9780323899581

About the Editor

Sahar Zinatloo-Ajabshir

Sahar Zinatloo-Ajabshir obtained her M.Sc. in nanoscience and nanotechnology from the University of Tehran, in 2010. Then after completing her PhD in nanoscience and nanotechnology in 2015 from the University of Kashan, she then went on to join the group of Professor Masoud Salavati-Niasari as a post-doc researcher. She became a faculty member of the University of Bonab, in 2017. Her research interests include the development of different types of nanoscale materials, especially the preparation of ceramic nanomaterials and investigation of their applications in various fields such as hydrogen storage, photocatalysis, environmental remediation, and drug delivery systems. During her career, she has published several scientific papers in high impact factor journals, as well as book chapters and conference proceedings. She is also an active referee or on the editorial board for several international journals.

Affiliations and Expertise

Assistant Professor, Department of Chemical Engineering, University of Bonab, Iran

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