11 MOF-derived nanocomposites for the removal of ciprofloxacin
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Rafael Luque
Abstract
Metal organic frameworks (MOFs) are type of absorbents having substantially strong bonds among metal ions and organic linkers. By means of vigilant assortment of ingredients, MOFs have high surface area, large pore volume, and exceptional chemical steadiness. MOFs with fundamental thermocatalytic commotion, as per hosts for the amalgamation of metal nanocomposite, as antecedents for the assembly of compound catalysts, and those vigorous in photocatalytic and electrocatalytic progressions are unsympathetically revised. MOFs are exceptional platforms to engender dissimilar nanocomposites, encompassing metals, oxides, or carbides entrenched in porous carbon medium. Adsorptive amputation of ciprofloxacin (CIP) using MOFs has been deliberated in this work. These MOF-derived nanocomposites proposition interdependence of properties like high crystallinities, inherited morphologies, untroublesome dimensions, and tunable textural properties. The recurrent recognition of antibiotics such as CIP in surface and drinking waters around the world has engrossed apprehension from innumerable investigators. Such existence is a suggestion that the refinement of water polluted by antibiotics is elsewhere the unadventurous treatment methods. Nanocomposites such as zeolitic imidazolate framework (ZIF)-8, ZIF-67, MIL-100/101, and MOF-5 were manufactured and used for CIP amputation from water. Research on fusion, structures, and properties of various MOFs has shown that they are auspicious constituents.
Abstract
Metal organic frameworks (MOFs) are type of absorbents having substantially strong bonds among metal ions and organic linkers. By means of vigilant assortment of ingredients, MOFs have high surface area, large pore volume, and exceptional chemical steadiness. MOFs with fundamental thermocatalytic commotion, as per hosts for the amalgamation of metal nanocomposite, as antecedents for the assembly of compound catalysts, and those vigorous in photocatalytic and electrocatalytic progressions are unsympathetically revised. MOFs are exceptional platforms to engender dissimilar nanocomposites, encompassing metals, oxides, or carbides entrenched in porous carbon medium. Adsorptive amputation of ciprofloxacin (CIP) using MOFs has been deliberated in this work. These MOF-derived nanocomposites proposition interdependence of properties like high crystallinities, inherited morphologies, untroublesome dimensions, and tunable textural properties. The recurrent recognition of antibiotics such as CIP in surface and drinking waters around the world has engrossed apprehension from innumerable investigators. Such existence is a suggestion that the refinement of water polluted by antibiotics is elsewhere the unadventurous treatment methods. Nanocomposites such as zeolitic imidazolate framework (ZIF)-8, ZIF-67, MIL-100/101, and MOF-5 were manufactured and used for CIP amputation from water. Research on fusion, structures, and properties of various MOFs has shown that they are auspicious constituents.
Kapitel in diesem Buch
- 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
Kapitel in diesem Buch
- 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
