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Rare Earth Metal-Organic Framework Hybrid Materials for Luminescence Responsive Chemical Sensors
1st Edition - June 1, 2022
Author: Bing Yan
Paperback ISBN:
9 7 8 - 0 - 3 2 3 - 9 1 2 3 6 - 5
eBook ISBN:
9 7 8 - 0 - 3 2 3 - 9 1 4 3 0 - 7
Rare Earth Metal-Organic Framework Hybrid Materials for Luminescence Responsive Chemical Sensors primarily focuses on rare earth functionalized metal-organic framework (MOF)… Read more
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Rare Earth Metal-Organic Framework Hybrid Materials for Luminescence Responsive Chemical Sensors primarily focuses on rare earth functionalized metal-organic framework (MOF) hybrid materials for sensing applications. Sections cover an introduction to the field and key concepts like luminescence, rare earth ion luminescence and luminescence response for chemical sensing. Other section emphasize the luminescence response mode and sensing mechanisms of these important materials, including single mode and dual mode sensing, as well as chemical sensing mechanisms. Final sections outline different kinds of sensing analytes by rare earth functionalized MOFs hybrids and delve into emerging application.
This book is suitable for materials scientists and engineers, materials chemists, chemists and chemical engineers. In addition, the material is appropriate for those working in academia and R&D in industry.
- Authored by one of the world’s leading experts on rare earth metal-organic framework hybrid materials
- Introduces advanced concepts in luminescence and sensing mechanisms of metal-organic framework hybrid materials
- Discusses the use of luminescence responsive chemical sensors (based on metal organic frameworks) for logic gate or imaging applications
Materials Scientists. Chemists
- Cover image
- Title page
- Table of Contents
- Copyright
- Preface
- Part I: Introduction for rare earth metal-organic frameworks hybrid materials
- Chapter 1: Metal-organic frameworks (MOFs), rare earth MOFs, and rare earth functionalized MOF hybrid materials
- Abstract
- 1.1: Metal-organic frameworks (MOFs)
- 1.2: Rare earth metal-organic frameworks (REMOFs)
- 1.3: Rare earth functionalized metal-organic framework hybrid materials (REFMOFHs)
- References
- Chapter 2: Rare earth luminescence, MOFs luminescence, rare earth MOFs hybrid materials luminescence, luminescence response, and chemical sensing
- Abstract
- 2.1: Rare earth ion luminescence
- 2.2: Rare earth complex molecule luminescence
- 2.3: MOFs luminescence
- 2.4: Rare earth MOFs hybrid materials luminescence
- 2.5: Luminescence for rare earth functionalized MOFs hybrid materials
- 2.6: Luminescence response for chemical sensing of rare earth MOFs hybrid materials
- References
- Part II: Luminescent response mode and sensing mechanisms in rare earth metal-organic frameworks hybrid materials
- Chapter 3: Single mode for luminescence responsive chemical sensing in rare earth metal-organic framework hybrid materials
- Abstract
- 3.1: Introduction for luminescence response of metal-organic frameworks
- 3.2: “Turn-off” luminescence response chemical sensing for rare earth metal-organic framework hybrid materials
- 3.3: “Turn-On” luminescence response chemical sensing for rare earth metal-organic framework hybrid materials
- 3.4: “Turn-on-off-on” luminescence response chemical sensing for rare earth metal-organic framework hybrid materials
- 3.5: Both “Turn-On” and “Turn-Off” luminescence response chemical sensing on different analytes for rare earth MOF hybrid materials
- References
- Chapter 4: Dual mode for ratiometric luminescence responsive chemical sensing for rare earth metal-organic framework hybrid materials
- Abstract
- 4.1: Dual mode for ratiometric luminescence (RL) responsive chemical sensing of MOFs materials
- 4.2: Dual rare earth ion luminescence for ratiometric luminescence sensing in rare earth metal-organic framework hybrid materials
- 4.3: Ligand (linker) and RE3+ ions through energy transfer “antenna effect” for ratiometric luminescence sensing in rare earth metal-organic framework hybrid materials
- 4.4: Embedding additional luminescent species for ratiometric luminescence sensing in rare earth metal-organic framework hybrid materials
- 4.5: Single rare earth functionalized metal-organic framework hybrid materials for ratiometric luminescence sensing
- References
- Chapter 5: Luminescence responsive sensing mechanism in rare earth metal-organic framework hybrid materials
- Abstracts
- 5.1: The luminescence responsive sensing mechanism for metal-organic framework-based materials
- 5.2: The LMET for luminescence response on chemical sensing in rare earth metal-organic framework hybrid materials
- 5.3: The photo-induced energy transfer (PET) and fluorescence (Förster) resonance energy transfer (FRET) for luminescence response for chemical sensing in rare earth metal-organic framework hybrid materials
- 5.4: Special interactions for luminescence response on chemical sensing in rare earth metal-organic framework hybrid materials
- References
- Part III: Rare earth metal-organic frameworks hybrid materials as luminescence response chemical sensors for typical ionic analytes
- Chapter 6: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of metal ions (I)
- Abstract
- 6.1: Luminescence responsive sensing of Fe3 + using rare earth metal-organic framework hybrid materials
- 6.2: Luminescence responsive sensing of Fe2 + or Fe3 +/Fe2 + using rare earth metal-organic framework hybrid materials
- 6.3: Luminescence responsive sensing of Cu2 + using rare earth metal-organic framework hybrid materials
- 6.4: Luminescence responsive sensing of Zn2 + using rare earth metal-organic framework hybrid materials
- 6.5: Luminescence responsive sensing of multimetal cations using rare earth metal-organic framework hybrid materials
- References
- Chapter 7: Rare earth metal-organic framework hybrid materials for luminescence responsive sensing of metal ions (II)
- Abstract
- 7.1: Luminescence responsive sensing of Hg2 + using rare earth metal-organic framework hybrid materials
- 7.2: Luminescence responsive sensing of Cd2 + using rare earth metal-organic framework hybrid materials
- 7.3: Luminescence responsive sensing of Pb2 + using rare earth metal-organic framework hybrid materials
- 7.4: Luminescence responsive sensing of Cr3 + using rare earth metal-organic framework hybrid materials
- 7.5: Luminescence responsive sensing of Al3 + using rare earth metal-organic framework hybrid materials
- 7.6: Luminescence responsive sensing of Ag+ using rare earth metal-organic framework hybrid materials
- 7.7: Luminescence responsive sensing of Co2 +/Ni2 + using rare earth metal-organic framework hybrid materials
- 7.8: Luminescence responsive sensing of f-block metal ions using rare earth metal-organic framework hybrid materials
- References
- Chapter 8: Rare earth metal-organic framework hybrid material for luminescence responsive chemical sensing of anions
- Abstract
- 8.1: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of fluoride (F−) ions
- 8.2: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of other simple anions (S2−, HS−, and SCN−)
- 8.3: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of main group element oxysalt anions
- 8.4: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of transition metal oxysalts anions
- References
- Part IV: Rare earth metal-organic frameworks hybrid materials as luminescence response chemical sensors for typical molecular analytes
- Chapter 9: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of general molecules
- Abstract
- 9.1: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of inorganic molecules
- 9.2: Rare earth metal-organic framework for luminescence responsive chemical sensing of general organic molecules
- 9.3: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of general organic pollutant molecules
- References
- Chapter 10: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of special molecule species
- Abstract
- 10.1: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of biomolecular species
- 10.2: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of antibiotics and drugs
- 10.3: Rare earth metal-organic framework hybrid materials for luminescence sensing of nitroaromatic explosives (NAE) and other special dangerous species
- References
- Chapter 11: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of biomarkers
- Abstract
- 11.1: Biomarkers and their chemical sensing
- 11.2: Rare earth metal-organic framework materials for luminescence responsive chemical sensing of biomarkers
- 11.3: Rare earth functionalized metal-organic framework hybrid materials for luminescence responsive chemical sensing of biomarkers
- References
- Part V: Rare earth metal-organic frameworks hybrid materials as luminescence response chemical sensors for others and applications
- Chapter 12: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of temperature and pH value
- Abstracts
- 12.1: Rare earth metal-organic framework hybrid materials for luminescence sensing of temperature
- 12.2: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing of pH value
- References
- Chapter 13: Molecular logic gate operations of rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing
- Abstract
- 13.1: Molecular Boolean logic gates
- 13.2: Luminescence responsive sensing of rare earth metal-organic framework hybrid materials on luminescence for Boolean logic gates
- 13.3: Luminescence responsive chemical sensing of rare earth metal-organic framework hybrid materials for intelligent molecular searcher applications
- References
- Chapter 14: Rare earth metal-organic framework hybrid materials for luminescence responsive chemical sensing imaging
- Abstract
- References
- Part VI: Summary and prospect for rare earth metal-organic frameworks hybrid materials as luminescence response chemical sensors
- Chapter 15: Summary and prospects
- Abstract
- 15.1: Postsynthetic modification to construct rare earth metal-organic framework hybrid materials
- 15.2: Luminescence responsive mode and chemical sensing mechanism for rare earth metal-organic framework hybrid materials
- 15.3: Luminescence responsive chemical sensing of analytes for rare earth metal-organic framework hybrid materials
- 15.4: Luminescence responsive chemical sensing application for rare earth metal-organic framework hybrid materials
- References
- Index
- No. of pages: 536
- Language: English
- Published: June 1, 2022
- Imprint: Woodhead Publishing
- Paperback ISBN: 9780323912365
- eBook ISBN: 9780323914307
BY
Bing Yan
Dr. Bing Yan is a Professor at the School of Chemical Science and Engineering, Tongji University in Shanghai, China. Dr. Yan is a member of the technical committees on Rare Earth Luminescence and Rare Earth Molecular Materials and Supramolecular Devices for the Chinese Society of Rare Earth. His research specialties include rare earth chemistry, hybrid materials, micro-nano materials, photophysical devices, and chemical sensors. He has published more than 500 research papers in international peer reviewed journals indexed by the Web of Science. His publications have been cited more than 10000 times. He has been elected as the Most Cited Researchers in China (Material Science) by Elsevier (2014, 2015, 2016, 2017, 2018, and 2019). Recently, many papers are elected as ESI “Hot Paper” and ESI “Highly Cited Papers”. He has written one English monograph, one English Chapter and one Chinese Chapter. His group has made systematic research achievements in photofunctional rare earth materials, especially in photofunctional rare earth hybrid materials, becoming the leading research group in this field.
Affiliations and expertise
Professor, School of Chemical Science and Engineering, Tongji University, Shanghai, People's Republic of China