10 Polymer-coated MOF for pharmaceutical waste removal
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Rafael Luque
Abstract
Pharmaceutical pollution has occurred as a decidedly anxious issue because of its antagonistic possessions. Preeminent concentrations of pharmaceuticals in aqueous media should be delimited to placate the prerequisite for the establishment of sparkling aquatic. Metal-organic frameworks with high precise superficial zone, welldisciplined permeable assembly, as well as facetious amendment can assist as auspicious adsorbents for the amputation of pharmacological impurities since aquatic. In this chapter, particular assemblage demonstrating steadfast approaches as well as perceptions to formulate the metal-organic frameworks (MOFs) derived constituents with higher water permanency index are given in detail. Furthermore, current evolution on the adsorptive amputation of medicinal contaminant by means of mushrooming and functional MOFs is also abridged in rapports of thoroughgoing capacity, steadiness period, as well as redeveloping aptitude. In the intervening time, to comprehend adsorption mechanism, associated connections together with synchronization with unsaturated position, pore-filling effect, hydrogen attachment, static, and π-π assembling are supplementary deliberated. To conclude, perilous perceptions with valuation of forthcoming investigation accentuating on engineering looked-for MOFs as well as launching structure- property associations to smooth imprisonment recital have been acknowledged.
Abstract
Pharmaceutical pollution has occurred as a decidedly anxious issue because of its antagonistic possessions. Preeminent concentrations of pharmaceuticals in aqueous media should be delimited to placate the prerequisite for the establishment of sparkling aquatic. Metal-organic frameworks with high precise superficial zone, welldisciplined permeable assembly, as well as facetious amendment can assist as auspicious adsorbents for the amputation of pharmacological impurities since aquatic. In this chapter, particular assemblage demonstrating steadfast approaches as well as perceptions to formulate the metal-organic frameworks (MOFs) derived constituents with higher water permanency index are given in detail. Furthermore, current evolution on the adsorptive amputation of medicinal contaminant by means of mushrooming and functional MOFs is also abridged in rapports of thoroughgoing capacity, steadiness period, as well as redeveloping aptitude. In the intervening time, to comprehend adsorption mechanism, associated connections together with synchronization with unsaturated position, pore-filling effect, hydrogen attachment, static, and π-π assembling are supplementary deliberated. To conclude, perilous perceptions with valuation of forthcoming investigation accentuating on engineering looked-for MOFs as well as launching structure- property associations to smooth imprisonment recital have been acknowledged.
Chapters in this book
- Frontmatter I
- Acknowledgments V
- Contents VII
- List of contributors IX
- 1 Metal-organic framework introduction 1
- 2 Metal-organic framework properties 13
- 3 Metal-organic framework for heterogeneous catalysis 21
- 4 Homogeneous catalysis using MOFs 29
- 5 MOF: an emerging material for biomedical applications 35
- 6 Pharmaceutical wastes: an overview 51
- 7 Recent advancement and development in MOF-based materials for the removal of pharmaceutical waste 73
- 8 Future prospective of metal-organic frameworks for pharmaceutical wastes 95
- 9 MOF – a promising material for energy applications 109
- 10 Polymer-coated MOF for pharmaceutical waste removal 137
- 11 MOF-derived nanocomposites for the removal of ciprofloxacin 157
- Index 177
Chapters in this book
- Frontmatter I
- Acknowledgments V
- Contents VII
- List of contributors IX
- 1 Metal-organic framework introduction 1
- 2 Metal-organic framework properties 13
- 3 Metal-organic framework for heterogeneous catalysis 21
- 4 Homogeneous catalysis using MOFs 29
- 5 MOF: an emerging material for biomedical applications 35
- 6 Pharmaceutical wastes: an overview 51
- 7 Recent advancement and development in MOF-based materials for the removal of pharmaceutical waste 73
- 8 Future prospective of metal-organic frameworks for pharmaceutical wastes 95
- 9 MOF – a promising material for energy applications 109
- 10 Polymer-coated MOF for pharmaceutical waste removal 137
- 11 MOF-derived nanocomposites for the removal of ciprofloxacin 157
- Index 177
