Water-Stable Metal-Organic Frameworks (WSMOFs)

Metal-Organic Frameworks (MOFs) have several applications, such as encompassing gas adsorption, separation, catalysis, sensing, chemical warfare reagent degradation, and the removal of pollutants from aqueous media. The pressing challenge of extracting common pollutants, including heavy metal ions, anions, oil, and radionuclides from water sources is a critical issue due to the widespread problem of environmental contamination. Various approaches have been explored for this purpose, such as sorbents, chemical precipitation, and traditional membrane separation. However, these methods often suffer from inadequate selectivity and low pollutant uptake. Developing water-stable MOFs is the key to advancing effective water purification techniques, but the primary challenge lies in crafting MOF structures that can maintain their stability when exposed to water. Water-Stable Metal-Organic Frameworks (WSMOFs) presents water-stable metal-organic frameworks for mitigating environmental pollutants, i.e. sensing and degradation/removal applications to protect the ecological system both environmental and aquatic life from various types of toxic pollutants released from industries. Provides chronological advancements of water-stable metal-organic frameworks-based nanostructures as advanced materialsAnalyzes the use of water-stable metal-organic frameworks and water-stable metal-organic framework-based hybrid materials as advanced environmental remediation toolsCovers the water-stability of MOFs as a primary topic, providing readers with key features to achieve said property INDICE: Part 1: BASICS and FUNDAMENTALS1. Water-stable MOFs-based Materials: Fundamental, Properties and Applications2. Water-stable MOFs-based Materials: Synthesis, Design, and Characterization3. Theoretical Modeling to Design Water-stable MOFs-based Materials4. Stability (thermodynamics) of Water-stable MOFs-based Materials5. Selection Criteria of Water-stable MOFs-based Materials for Environmental and Sensing ApplicationsPart 2: Water-stable MOFs-based Materials for Environmental Remediation6. Water-stable MOFs-based Materials for Remediation of Water Soluble Gases7. Water-stable MOFs-based Materials for Removal of Toxic Heavy Metals8. Water-stable MOFs-based Materials for Sequestration of Radionuclides and Toxic Ions9. Water-stable MOFs-based Materials for Removal of Pharmaceutical-based Pollutants10. Water-stable MOFs-based Materials for Removal of Organic Dyes11. Water-stable MOFs-based Materials for Sorption Degradation of Personal Care Products12. Water-stable MOFs-based Materials for Degradation of PesticidesPart 3: Water-stable MOFs-based Materials for Sensing Applications13. Water-stable MOFs-based Materials as Electrochemical Sensors14. Water-stable MOFs-based Materials as Optical Sensors15. Water-stable MOFs-based Materials as Biosensors16. Water-stable MOFs-based Materials as Analytical/Biosensing Applications17. Water-stable MOFs-based Materials for Strain Sensors18. Water-stable MOFs-based Materials for Other Sensing Applications19. Cost analysis for scaling up the MOFs-based Materials for industrial applications

• ISBN: 978-0-443-29256-9
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 450
• Fecha Publicación: 01/01/2025
• Nº Volúmenes: 1
• Idioma: Inglés