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4 Homogeneous catalysis using MOFs

  • Muhammad Pervaiz , Talha Mumtaz , Rizwan Sikanadar , Arooj Ather , Muhammad Shahzeb and Hazqail Umar Khan
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Volume 1 ZIF-8 Based Materials for Pharmaceutical Waste
This chapter is in the book Volume 1 ZIF-8 Based Materials for Pharmaceutical Waste

Abstract

The metal-organic frameworks (MOFs), as we know, have diversity in the pore size and this depend upon different fields of chemistry, such as cluster chemistry, organic chemistry, and X-ray crystallography. The pore size and the space between pores of MOFs can provide us with different physical and chemical structures. Due to high crystals in the materials, we can distribute one or more active site homogeneously. There are issues related to MOFs which is cost and stability related. A right combination of all these properties such as stability, cost, and labor should be chosen correctly.

Abstract

The metal-organic frameworks (MOFs), as we know, have diversity in the pore size and this depend upon different fields of chemistry, such as cluster chemistry, organic chemistry, and X-ray crystallography. The pore size and the space between pores of MOFs can provide us with different physical and chemical structures. Due to high crystals in the materials, we can distribute one or more active site homogeneously. There are issues related to MOFs which is cost and stability related. A right combination of all these properties such as stability, cost, and labor should be chosen correctly.

Chapters in this book

  1. Frontmatter I
  2. Acknowledgments V
  3. Contents VII
  4. List of contributors IX
  5. 1 Metal-organic framework introduction 1
  6. 2 Metal-organic framework properties 13
  7. 3 Metal-organic framework for heterogeneous catalysis 21
  8. 4 Homogeneous catalysis using MOFs 29
  9. 5 MOF: an emerging material for biomedical applications 35
  10. 6 Pharmaceutical wastes: an overview 51
  11. 7 Recent advancement and development in MOF-based materials for the removal of pharmaceutical waste 73
  12. 8 Future prospective of metal-organic frameworks for pharmaceutical wastes 95
  13. 9 MOF – a promising material for energy applications 109
  14. 10 Polymer-coated MOF for pharmaceutical waste removal 137
  15. 11 MOF-derived nanocomposites for the removal of ciprofloxacin 157
  16. Index 177
https://doi.org/10.1515/9783110792607-004

Chapters in this book

  1. Frontmatter I
  2. Acknowledgments V
  3. Contents VII
  4. List of contributors IX
  5. 1 Metal-organic framework introduction 1
  6. 2 Metal-organic framework properties 13
  7. 3 Metal-organic framework for heterogeneous catalysis 21
  8. 4 Homogeneous catalysis using MOFs 29
  9. 5 MOF: an emerging material for biomedical applications 35
  10. 6 Pharmaceutical wastes: an overview 51
  11. 7 Recent advancement and development in MOF-based materials for the removal of pharmaceutical waste 73
  12. 8 Future prospective of metal-organic frameworks for pharmaceutical wastes 95
  13. 9 MOF – a promising material for energy applications 109
  14. 10 Polymer-coated MOF for pharmaceutical waste removal 137
  15. 11 MOF-derived nanocomposites for the removal of ciprofloxacin 157
  16. Index 177
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