Verfügbarkeit: Advanced Catalysts Based on Metal-Organic Frameworks.

Advanced Catalysts Based on Metal-Organic Frameworks.: Part 1 /

Advanced Catalysts Based on Metal-organic Frameworks is a comprehensive introduction to advanced catalysts based on MOFs. It covers basic information about MOF catalysts with industrial and environmental applications. It updates readers on current applications and strategies to apply MOF-based catal...

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Weitere Verfasser:	Gao, Junkuo, Abazari, Reza
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore : Bentham Science Publishers, [2023]
Schlagworte:	Metal-organic frameworks. Catalysts. Pollution. Catalyseurs. catalyst. Chemistry, Inorganic Science
Online-Zugang:	DE-862 DE-863
Zusammenfassung:	Advanced Catalysts Based on Metal-organic Frameworks is a comprehensive introduction to advanced catalysts based on MOFs. It covers basic information about MOF catalysts with industrial and environmental applications. It updates readers on current applications and strategies to apply MOF-based catalysts in industrial processes geared for sustainability initiatives such as renewable energy, pollution control and combating carbon emission. Key Features- 13 structured, easy to read chapters that comprehensively cover MOF catalysts- An introduction to basic information about MOF catalysts - In-depth coverage of advanced applications of MOF catalysts- Explanation of MOF modifications and applications of derivative compounds- In-depth coverage of MOF catalysts used for electrocatalysis and photocatalysis- Detailed explanation of environmental-friendly and sustainable technologies (biomass upgrading, water purification, CO2 capture)- Updated references for advanced readers The is an essential reference for chemical engineers, scientists in the manufacturing and sustainability industry and post-graduate scholars working on MOFs and chemical catalysis.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9815079484 9789815079487

Internformat

MARC


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245	0	0	\|a Advanced Catalysts Based on Metal-Organic Frameworks. \|n Part 1 / \|c edited by Junkuo Gao and Reza Abazari.
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504			\|a Includes bibliographical references and index.
505	0		\|a Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Strategies, Synthesis, and Applications of Metal-Organic Framework Materials -- Zuo-Xi Li1,* and Chunxian Guo1,2,3,* -- 1. INTRODUCTION OF METAL-ORGANIC FRAMEWORKS -- 2. SYNTHESIS OF MOFS -- 2.1. Raw Materials -- 2.1.1. Meal Nodes -- 2.1.2. Organic Linkers -- 2.1.3. Other Compositions -- 2.2. Synthesis Methods -- 2.2.1. Solution Methods (Stirring, Evaporation and Diffusion) -- 2.2.2. Hydrothermal Method (Water and Organic Solvents) -- 2.2.3. Ionthermal Method -- 2.2.4. Sublimation Method -- 2.2.5. Solid-State Reaction Method -- 2.2.6. Microwave-Assisted Synthesis -- 2.2.7. Sonochemical Synthesis -- 2.2.8. Electrochemical Synthesis -- 3. DESIGN STRATEGIES -- 3.1. Reticular Chemistry -- 3.2. Natural Mineral Structure Simulation -- 3.3. Stepwise Assembly -- 3.4. Synthesis of Homologues with the Same Frameworks -- 3.5. Postsynthetic Modification Strategy -- 4. APPLICATIONS -- 4.1. Adsorption and Separation -- 4.1.1. Gas Storage and Separation -- 4.1.2. Vapor Adsorption -- 4.1.3. Hazards and Pollutant Concentration in Solutions -- 4.2. Catalysis -- 4.2.1. Metal Nodes as Active Sites -- 4.2.2. Organic Ligands as Active Sites -- 4.2.3. Guests as Active Sites -- 4.3. Luminescence -- 4.3.1. Chemical Sensors -- 4.3.2. MOF-based LED Materials -- 4.3.3. Bioimaging -- 4.4. Drug Delivery -- CHALLENGES AND PERSPECTIVES/CONCLUSION -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Post-synthetic Modification and Engineering of Metal Nodes and Organic Ligands of MOFs for Catalytic Applications -- Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksandra Galarda1, Anna Olejnik1 and Joanna Goscianska1,* -- 1. INTRODUCTION.
505	8		\|a 2. METAL-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 2.1. Transmetalation (Metal Exchange) -- 2.2. Metal Incorporation (Metal Doping) -- 2.3. Oxidation of the Coordination Site (Redox Transformations) -- 3. LIGAND-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 3.1. Ligand Functionalization -- 3.2. Ligand Exchange -- 3.3. Ligand Installation -- 3.4. Ligand Removal -- 4. TANDEM PSM OF MOFS -- 5. EPITAXIAL GROWTH ON MOFS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOFs and Their Composites as Catalysts for Organic Reactions -- Anna Olejnik1, Aleksandra Galarda1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Simona M. Coman2 and Joanna Goscianska1,* -- 1. INTRODUCTION -- 2. MOFS AND THEIR STABILITY -- 3. ACTIVE SITES IN MOF AND MOF COMPOSITE -- 4. MOFS AS CATALYSTS IN OXIDATION PROCESSES -- 4.1. Oxidation of Alkanes, Cycloalkanes and Alkylbenzenes -- 4.2. Oxidation of Alkenes and Cycloalkenes -- 4.3. Oxidation of Alcohols -- 4.4. Oxidation of Thiols and Sulfides -- 5. MOFS AS CATALYSTS FOR C-C COUPLING REACTIONS -- 6. MOFS AS CATALYSTS IN HYDROGENATION REACTIONS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Frameworks and Their Derived Structures for Biomass Upgrading -- Yushan Wu1, Yanfei Xu1, Chuan Qin1 and Mingyue Ding1,* -- 1. INTRODUCTION -- 1.1. Biomass -- 1.2. MOFs and MOFs-based Structures -- 1.3. Scope of this Chapter -- 2. BIOMASS CONVERSION OVER MOFS AND THEIR DERIVED STRUCTURES -- 2.1. Transformation of Cellulose Biomass -- 2.2. Conversion of C5 or C6 Sugars -- 2.2.1. Glucose Isomerization to Fructose -- 2.2.2. Conversion of C5/C6 Sugars to 5-Hydroxymethylfurfural (HMF).
505	8		\|a 2.2.3. Transformation of C5/C6 Sugars to other Feedstocks -- 2.3. Conversion of Platform Chemicals -- 2.3.1. Conversion of Levulinic Acid and its Derivates -- 2.3.2. Transformation of Alkyl Levulinates -- 2.3.3. Transformation of 5-Hydroxymethylfurfural (HMF) -- 2.3.4. Conversion of Furfural (FF) -- 3. TRANSFORMATION OF VANILLIN -- 4. CONCLUSIONS AND FUTURE PROSPECT -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOF-Based Materials for CO2 Conversion -- Dinesh De1,, Vivekanand Sharma2 and Mayank Gupta3 -- 1. INTRODUCTION -- 2. SYNTHESIS OF VALUE-ADDED ORGANIC COMPOUNDS USING CO2 AS PRECURSOR -- 2.1. Conversion of CO2 into Cyclic Carbonates (CC) -- 2.1.1. CO2 Conversion into Cyclic Carbonates Using MOF Catalysts -- 2.1.2. CO2 Conversion into Cyclic Carbonates Catalyzed by MOF Composites -- 2.1.3. CO2 Conversion into Cyclic Carbonates Using MOF Derivatives -- 2.2. Fixation of CO2 in Carboxylation of Terminal Alkynes by MOF-Based Materials -- 3. CONVERSION OF CO2 INTO FUELS AND HYDROCARBONS -- 3.1. MOF-Based Materials as Photocatalysts for CO2 Conversion -- 3.2. Application of MOF in CO2 Conversion to Methanol -- 3.3. Conversion of CO2 into Formic Acid/ Formate -- 3.4. Conversion of CO2 to Methane -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Framework Composites for Photocatalytic Water Purification -- Ning Yuan1, and Xinling Zhang1 -- 1. INTRODUCTION -- 2. SYNTHESIS OF MOF-BASED COMPOSITES -- 2.1. The Solvothermal Method -- 2.2. The Hydrothermal Method -- 2.3. The Ball-milling Method -- 2.4. The Ultrasonic-assisted Solvothermal Method -- 2.5. The Co-precipitation Method -- 3. PHOTOCATALYTIC WATER PURIFICATION -- Organic Pollutants -- 3.1. Dyes -- 3.2. Phenols -- 3.3. PPCPs.
505	8		\|a 3.4. Herbicides and Pesticides -- 3.5. Other Organics -- 3.6. Inorganic Pollutants -- 3.7. Mixed Pollutants -- 3.8. The Correlation Between Photocatalytic Properties and Physical Properties of MOFs -- 4. ADSORPTION-PHOTOCATALYSIS SYNERGISTIC WATER PURIFICATION -- CONCLUSIONS AND PERSPECTIVES -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Subject Index -- Back Cover.
520			\|a Advanced Catalysts Based on Metal-organic Frameworks is a comprehensive introduction to advanced catalysts based on MOFs. It covers basic information about MOF catalysts with industrial and environmental applications. It updates readers on current applications and strategies to apply MOF-based catalysts in industrial processes geared for sustainability initiatives such as renewable energy, pollution control and combating carbon emission. Key Features- 13 structured, easy to read chapters that comprehensively cover MOF catalysts- An introduction to basic information about MOF catalysts - In-depth coverage of advanced applications of MOF catalysts- Explanation of MOF modifications and applications of derivative compounds- In-depth coverage of MOF catalysts used for electrocatalysis and photocatalysis- Detailed explanation of environmental-friendly and sustainable technologies (biomass upgrading, water purification, CO2 capture)- Updated references for advanced readers The is an essential reference for chemical engineers, scientists in the manufacturing and sustainability industry and post-graduate scholars working on MOFs and chemical catalysis.
588			\|a Description based on online resource; title from digital title page (viewed on November 27, 2024).
650		0	\|a Metal-organic frameworks. \|0 http://id.loc.gov/authorities/subjects/sh2020006026
650		0	\|a Catalysts. \|0 http://id.loc.gov/authorities/subjects/sh85020940
650		0	\|a Pollution. \|0 http://id.loc.gov/authorities/subjects/sh85104530
650		6	\|a Catalyseurs.
650		6	\|a Pollution.
650		7	\|a catalyst. \|2 aat
653			\|a Chemistry, Inorganic
653			\|a Science
700	1		\|a Gao, Junkuo.
700	1		\|a Abazari, Reza.
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contents	Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Strategies, Synthesis, and Applications of Metal-Organic Framework Materials -- Zuo-Xi Li1,* and Chunxian Guo1,2,3,* -- 1. INTRODUCTION OF METAL-ORGANIC FRAMEWORKS -- 2. SYNTHESIS OF MOFS -- 2.1. Raw Materials -- 2.1.1. Meal Nodes -- 2.1.2. Organic Linkers -- 2.1.3. Other Compositions -- 2.2. Synthesis Methods -- 2.2.1. Solution Methods (Stirring, Evaporation and Diffusion) -- 2.2.2. Hydrothermal Method (Water and Organic Solvents) -- 2.2.3. Ionthermal Method -- 2.2.4. Sublimation Method -- 2.2.5. Solid-State Reaction Method -- 2.2.6. Microwave-Assisted Synthesis -- 2.2.7. Sonochemical Synthesis -- 2.2.8. Electrochemical Synthesis -- 3. DESIGN STRATEGIES -- 3.1. Reticular Chemistry -- 3.2. Natural Mineral Structure Simulation -- 3.3. Stepwise Assembly -- 3.4. Synthesis of Homologues with the Same Frameworks -- 3.5. Postsynthetic Modification Strategy -- 4. APPLICATIONS -- 4.1. Adsorption and Separation -- 4.1.1. Gas Storage and Separation -- 4.1.2. Vapor Adsorption -- 4.1.3. Hazards and Pollutant Concentration in Solutions -- 4.2. Catalysis -- 4.2.1. Metal Nodes as Active Sites -- 4.2.2. Organic Ligands as Active Sites -- 4.2.3. Guests as Active Sites -- 4.3. Luminescence -- 4.3.1. Chemical Sensors -- 4.3.2. MOF-based LED Materials -- 4.3.3. Bioimaging -- 4.4. Drug Delivery -- CHALLENGES AND PERSPECTIVES/CONCLUSION -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Post-synthetic Modification and Engineering of Metal Nodes and Organic Ligands of MOFs for Catalytic Applications -- Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksandra Galarda1, Anna Olejnik1 and Joanna Goscianska1,* -- 1. INTRODUCTION. 2. METAL-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 2.1. Transmetalation (Metal Exchange) -- 2.2. Metal Incorporation (Metal Doping) -- 2.3. Oxidation of the Coordination Site (Redox Transformations) -- 3. LIGAND-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 3.1. Ligand Functionalization -- 3.2. Ligand Exchange -- 3.3. Ligand Installation -- 3.4. Ligand Removal -- 4. TANDEM PSM OF MOFS -- 5. EPITAXIAL GROWTH ON MOFS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOFs and Their Composites as Catalysts for Organic Reactions -- Anna Olejnik1, Aleksandra Galarda1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Simona M. Coman2 and Joanna Goscianska1,* -- 1. INTRODUCTION -- 2. MOFS AND THEIR STABILITY -- 3. ACTIVE SITES IN MOF AND MOF COMPOSITE -- 4. MOFS AS CATALYSTS IN OXIDATION PROCESSES -- 4.1. Oxidation of Alkanes, Cycloalkanes and Alkylbenzenes -- 4.2. Oxidation of Alkenes and Cycloalkenes -- 4.3. Oxidation of Alcohols -- 4.4. Oxidation of Thiols and Sulfides -- 5. MOFS AS CATALYSTS FOR C-C COUPLING REACTIONS -- 6. MOFS AS CATALYSTS IN HYDROGENATION REACTIONS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Frameworks and Their Derived Structures for Biomass Upgrading -- Yushan Wu1, Yanfei Xu1, Chuan Qin1 and Mingyue Ding1,* -- 1. INTRODUCTION -- 1.1. Biomass -- 1.2. MOFs and MOFs-based Structures -- 1.3. Scope of this Chapter -- 2. BIOMASS CONVERSION OVER MOFS AND THEIR DERIVED STRUCTURES -- 2.1. Transformation of Cellulose Biomass -- 2.2. Conversion of C5 or C6 Sugars -- 2.2.1. Glucose Isomerization to Fructose -- 2.2.2. Conversion of C5/C6 Sugars to 5-Hydroxymethylfurfural (HMF). 2.2.3. Transformation of C5/C6 Sugars to other Feedstocks -- 2.3. Conversion of Platform Chemicals -- 2.3.1. Conversion of Levulinic Acid and its Derivates -- 2.3.2. Transformation of Alkyl Levulinates -- 2.3.3. Transformation of 5-Hydroxymethylfurfural (HMF) -- 2.3.4. Conversion of Furfural (FF) -- 3. TRANSFORMATION OF VANILLIN -- 4. CONCLUSIONS AND FUTURE PROSPECT -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOF-Based Materials for CO2 Conversion -- Dinesh De1,, Vivekanand Sharma2 and Mayank Gupta3 -- 1. INTRODUCTION -- 2. SYNTHESIS OF VALUE-ADDED ORGANIC COMPOUNDS USING CO2 AS PRECURSOR -- 2.1. Conversion of CO2 into Cyclic Carbonates (CC) -- 2.1.1. CO2 Conversion into Cyclic Carbonates Using MOF Catalysts -- 2.1.2. CO2 Conversion into Cyclic Carbonates Catalyzed by MOF Composites -- 2.1.3. CO2 Conversion into Cyclic Carbonates Using MOF Derivatives -- 2.2. Fixation of CO2 in Carboxylation of Terminal Alkynes by MOF-Based Materials -- 3. CONVERSION OF CO2 INTO FUELS AND HYDROCARBONS -- 3.1. MOF-Based Materials as Photocatalysts for CO2 Conversion -- 3.2. Application of MOF in CO2 Conversion to Methanol -- 3.3. Conversion of CO2 into Formic Acid/ Formate -- 3.4. Conversion of CO2 to Methane -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Framework Composites for Photocatalytic Water Purification -- Ning Yuan1, and Xinling Zhang1 -- 1. INTRODUCTION -- 2. SYNTHESIS OF MOF-BASED COMPOSITES -- 2.1. The Solvothermal Method -- 2.2. The Hydrothermal Method -- 2.3. The Ball-milling Method -- 2.4. The Ultrasonic-assisted Solvothermal Method -- 2.5. The Co-precipitation Method -- 3. PHOTOCATALYTIC WATER PURIFICATION -- Organic Pollutants -- 3.1. Dyes -- 3.2. Phenols -- 3.3. PPCPs. 3.4. Herbicides and Pesticides -- 3.5. Other Organics -- 3.6. Inorganic Pollutants -- 3.7. Mixed Pollutants -- 3.8. The Correlation Between Photocatalytic Properties and Physical Properties of MOFs -- 4. ADSORPTION-PHOTOCATALYSIS SYNERGISTIC WATER PURIFICATION -- CONCLUSIONS AND PERSPECTIVES -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Subject Index -- Back Cover.
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INTRODUCTION OF METAL-ORGANIC FRAMEWORKS -- 2. SYNTHESIS OF MOFS -- 2.1. Raw Materials -- 2.1.1. Meal Nodes -- 2.1.2. Organic Linkers -- 2.1.3. Other Compositions -- 2.2. Synthesis Methods -- 2.2.1. Solution Methods (Stirring, Evaporation and Diffusion) -- 2.2.2. Hydrothermal Method (Water and Organic Solvents) -- 2.2.3. Ionthermal Method -- 2.2.4. Sublimation Method -- 2.2.5. Solid-State Reaction Method -- 2.2.6. Microwave-Assisted Synthesis -- 2.2.7. Sonochemical Synthesis -- 2.2.8. Electrochemical Synthesis -- 3. DESIGN STRATEGIES -- 3.1. Reticular Chemistry -- 3.2. Natural Mineral Structure Simulation -- 3.3. Stepwise Assembly -- 3.4. Synthesis of Homologues with the Same Frameworks -- 3.5. Postsynthetic Modification Strategy -- 4. APPLICATIONS -- 4.1. Adsorption and Separation -- 4.1.1. Gas Storage and Separation -- 4.1.2. Vapor Adsorption -- 4.1.3. Hazards and Pollutant Concentration in Solutions -- 4.2. Catalysis -- 4.2.1. Metal Nodes as Active Sites -- 4.2.2. Organic Ligands as Active Sites -- 4.2.3. Guests as Active Sites -- 4.3. Luminescence -- 4.3.1. Chemical Sensors -- 4.3.2. MOF-based LED Materials -- 4.3.3. Bioimaging -- 4.4. Drug Delivery -- CHALLENGES AND PERSPECTIVES/CONCLUSION -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Post-synthetic Modification and Engineering of Metal Nodes and Organic Ligands of MOFs for Catalytic Applications -- Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksandra Galarda1, Anna Olejnik1 and Joanna Goscianska1,* -- 1. INTRODUCTION.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2. METAL-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 2.1. Transmetalation (Metal Exchange) -- 2.2. Metal Incorporation (Metal Doping) -- 2.3. Oxidation of the Coordination Site (Redox Transformations) -- 3. LIGAND-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 3.1. Ligand Functionalization -- 3.2. Ligand Exchange -- 3.3. Ligand Installation -- 3.4. Ligand Removal -- 4. TANDEM PSM OF MOFS -- 5. EPITAXIAL GROWTH ON MOFS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOFs and Their Composites as Catalysts for Organic Reactions -- Anna Olejnik1, Aleksandra Galarda1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Simona M. Coman2 and Joanna Goscianska1,* -- 1. INTRODUCTION -- 2. MOFS AND THEIR STABILITY -- 3. ACTIVE SITES IN MOF AND MOF COMPOSITE -- 4. MOFS AS CATALYSTS IN OXIDATION PROCESSES -- 4.1. Oxidation of Alkanes, Cycloalkanes and Alkylbenzenes -- 4.2. Oxidation of Alkenes and Cycloalkenes -- 4.3. Oxidation of Alcohols -- 4.4. Oxidation of Thiols and Sulfides -- 5. MOFS AS CATALYSTS FOR C-C COUPLING REACTIONS -- 6. MOFS AS CATALYSTS IN HYDROGENATION REACTIONS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Frameworks and Their Derived Structures for Biomass Upgrading -- Yushan Wu1, Yanfei Xu1, Chuan Qin1 and Mingyue Ding1,* -- 1. INTRODUCTION -- 1.1. Biomass -- 1.2. MOFs and MOFs-based Structures -- 1.3. Scope of this Chapter -- 2. BIOMASS CONVERSION OVER MOFS AND THEIR DERIVED STRUCTURES -- 2.1. Transformation of Cellulose Biomass -- 2.2. Conversion of C5 or C6 Sugars -- 2.2.1. Glucose Isomerization to Fructose -- 2.2.2. Conversion of C5/C6 Sugars to 5-Hydroxymethylfurfural (HMF).</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2.2.3. Transformation of C5/C6 Sugars to other Feedstocks -- 2.3. Conversion of Platform Chemicals -- 2.3.1. Conversion of Levulinic Acid and its Derivates -- 2.3.2. Transformation of Alkyl Levulinates -- 2.3.3. Transformation of 5-Hydroxymethylfurfural (HMF) -- 2.3.4. Conversion of Furfural (FF) -- 3. TRANSFORMATION OF VANILLIN -- 4. CONCLUSIONS AND FUTURE PROSPECT -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOF-Based Materials for CO2 Conversion -- Dinesh De1,, Vivekanand Sharma2 and Mayank Gupta3 -- 1. INTRODUCTION -- 2. SYNTHESIS OF VALUE-ADDED ORGANIC COMPOUNDS USING CO2 AS PRECURSOR -- 2.1. Conversion of CO2 into Cyclic Carbonates (CC) -- 2.1.1. CO2 Conversion into Cyclic Carbonates Using MOF Catalysts -- 2.1.2. CO2 Conversion into Cyclic Carbonates Catalyzed by MOF Composites -- 2.1.3. CO2 Conversion into Cyclic Carbonates Using MOF Derivatives -- 2.2. Fixation of CO2 in Carboxylation of Terminal Alkynes by MOF-Based Materials -- 3. CONVERSION OF CO2 INTO FUELS AND HYDROCARBONS -- 3.1. MOF-Based Materials as Photocatalysts for CO2 Conversion -- 3.2. Application of MOF in CO2 Conversion to Methanol -- 3.3. Conversion of CO2 into Formic Acid/ Formate -- 3.4. Conversion of CO2 to Methane -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Framework Composites for Photocatalytic Water Purification -- Ning Yuan1, and Xinling Zhang1 -- 1. INTRODUCTION -- 2. SYNTHESIS OF MOF-BASED COMPOSITES -- 2.1. The Solvothermal Method -- 2.2. The Hydrothermal Method -- 2.3. The Ball-milling Method -- 2.4. The Ultrasonic-assisted Solvothermal Method -- 2.5. The Co-precipitation Method -- 3. PHOTOCATALYTIC WATER PURIFICATION -- Organic Pollutants -- 3.1. Dyes -- 3.2. Phenols -- 3.3. PPCPs.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.4. Herbicides and Pesticides -- 3.5. Other Organics -- 3.6. Inorganic Pollutants -- 3.7. Mixed Pollutants -- 3.8. The Correlation Between Photocatalytic Properties and Physical Properties of MOFs -- 4. ADSORPTION-PHOTOCATALYSIS SYNERGISTIC WATER PURIFICATION -- CONCLUSIONS AND PERSPECTIVES -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Subject Index -- Back Cover.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Advanced Catalysts Based on Metal-organic Frameworks is a comprehensive introduction to advanced catalysts based on MOFs. It covers basic information about MOF catalysts with industrial and environmental applications. It updates readers on current applications and strategies to apply MOF-based catalysts in industrial processes geared for sustainability initiatives such as renewable energy, pollution control and combating carbon emission. Key Features- 13 structured, easy to read chapters that comprehensively cover MOF catalysts- An introduction to basic information about MOF catalysts - In-depth coverage of advanced applications of MOF catalysts- Explanation of MOF modifications and applications of derivative compounds- In-depth coverage of MOF catalysts used for electrocatalysis and photocatalysis- Detailed explanation of environmental-friendly and sustainable technologies (biomass upgrading, water purification, CO2 capture)- Updated references for advanced readers The is an essential reference for chemical engineers, scientists in the manufacturing and sustainability industry and post-graduate scholars working on MOFs and chemical catalysis.</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on online resource; title from digital title page (viewed on November 27, 2024).</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Metal-organic frameworks.</subfield><subfield code="0">http://id.loc.gov/authorities/subjects/sh2020006026</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Catalysts.</subfield><subfield code="0">http://id.loc.gov/authorities/subjects/sh85020940</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Pollution.</subfield><subfield code="0">http://id.loc.gov/authorities/subjects/sh85104530</subfield></datafield><datafield tag="650" ind1=" " ind2="6"><subfield code="a">Catalyseurs.</subfield></datafield><datafield tag="650" ind1=" " ind2="6"><subfield code="a">Pollution.</subfield></datafield><datafield tag="650" ind1=" " ind2="7"><subfield code="a">catalyst.</subfield><subfield code="2">aat</subfield></datafield><datafield tag="653" ind1=" " ind2=" "><subfield code="a">Chemistry, Inorganic</subfield></datafield><datafield tag="653" ind1=" " ind2=" "><subfield code="a">Science</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Gao, Junkuo.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Abazari, Reza.</subfield></datafield><datafield tag="966" ind1="4" ind2="0"><subfield code="l">DE-862</subfield><subfield code="p">ZDB-4-EBA</subfield><subfield code="q">FWS_PDA_EBA</subfield><subfield code="u">https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3554225</subfield><subfield code="3">Volltext</subfield></datafield><datafield tag="966" ind1="4" ind2="0"><subfield code="l">DE-863</subfield><subfield code="p">ZDB-4-EBA</subfield><subfield code="q">FWS_PDA_EBA</subfield><subfield code="u">https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3554225</subfield><subfield code="3">Volltext</subfield></datafield><datafield tag="938" ind1=" " ind2=" "><subfield code="a">Kortext</subfield><subfield code="b">KTXT</subfield><subfield code="n">2306558</subfield></datafield><datafield tag="938" ind1=" " ind2=" "><subfield code="a">YBP Library Services</subfield><subfield code="b">YANK</subfield><subfield code="n">304630849</subfield></datafield><datafield tag="938" ind1=" " ind2=" "><subfield code="a">EBSCOhost</subfield><subfield code="b">EBSC</subfield><subfield code="n">3554225</subfield></datafield><datafield tag="994" ind1=" " ind2=" "><subfield code="a">92</subfield><subfield code="b">GEBAY</subfield></datafield><datafield tag="912" ind1=" " ind2=" "><subfield code="a">ZDB-4-EBA</subfield></datafield><datafield tag="049" ind1=" " ind2=" "><subfield code="a">DE-862</subfield></datafield><datafield tag="049" ind1=" " ind2=" "><subfield code="a">DE-863</subfield></datafield></record></collection>
id	ZDB-4-EBA-on1370201351
illustrated	Not Illustrated
indexdate	2025-04-11T08:48:04Z
institution	BVB
isbn	9815079484 9789815079487
language	English
oclc_num	1370201351
open_access_boolean
owner	MAIN DE-862 DE-BY-FWS DE-863 DE-BY-FWS
owner_facet	MAIN DE-862 DE-BY-FWS DE-863 DE-BY-FWS
physical	1 online resource
psigel	ZDB-4-EBA FWS_PDA_EBA ZDB-4-EBA
publishDate	2023
publishDateSearch	2023
publishDateSort	2023
publisher	Bentham Science Publishers,
record_format	marc
spelling	Advanced Catalysts Based on Metal-Organic Frameworks. Part 1 / edited by Junkuo Gao and Reza Abazari. Singapore : Bentham Science Publishers, [2023] 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Strategies, Synthesis, and Applications of Metal-Organic Framework Materials -- Zuo-Xi Li1,* and Chunxian Guo1,2,3,* -- 1. INTRODUCTION OF METAL-ORGANIC FRAMEWORKS -- 2. SYNTHESIS OF MOFS -- 2.1. Raw Materials -- 2.1.1. Meal Nodes -- 2.1.2. Organic Linkers -- 2.1.3. Other Compositions -- 2.2. Synthesis Methods -- 2.2.1. Solution Methods (Stirring, Evaporation and Diffusion) -- 2.2.2. Hydrothermal Method (Water and Organic Solvents) -- 2.2.3. Ionthermal Method -- 2.2.4. Sublimation Method -- 2.2.5. Solid-State Reaction Method -- 2.2.6. Microwave-Assisted Synthesis -- 2.2.7. Sonochemical Synthesis -- 2.2.8. Electrochemical Synthesis -- 3. DESIGN STRATEGIES -- 3.1. Reticular Chemistry -- 3.2. Natural Mineral Structure Simulation -- 3.3. Stepwise Assembly -- 3.4. Synthesis of Homologues with the Same Frameworks -- 3.5. Postsynthetic Modification Strategy -- 4. APPLICATIONS -- 4.1. Adsorption and Separation -- 4.1.1. Gas Storage and Separation -- 4.1.2. Vapor Adsorption -- 4.1.3. Hazards and Pollutant Concentration in Solutions -- 4.2. Catalysis -- 4.2.1. Metal Nodes as Active Sites -- 4.2.2. Organic Ligands as Active Sites -- 4.2.3. Guests as Active Sites -- 4.3. Luminescence -- 4.3.1. Chemical Sensors -- 4.3.2. MOF-based LED Materials -- 4.3.3. Bioimaging -- 4.4. Drug Delivery -- CHALLENGES AND PERSPECTIVES/CONCLUSION -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Post-synthetic Modification and Engineering of Metal Nodes and Organic Ligands of MOFs for Catalytic Applications -- Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksandra Galarda1, Anna Olejnik1 and Joanna Goscianska1,* -- 1. INTRODUCTION. 2. METAL-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 2.1. Transmetalation (Metal Exchange) -- 2.2. Metal Incorporation (Metal Doping) -- 2.3. Oxidation of the Coordination Site (Redox Transformations) -- 3. LIGAND-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 3.1. Ligand Functionalization -- 3.2. Ligand Exchange -- 3.3. Ligand Installation -- 3.4. Ligand Removal -- 4. TANDEM PSM OF MOFS -- 5. EPITAXIAL GROWTH ON MOFS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOFs and Their Composites as Catalysts for Organic Reactions -- Anna Olejnik1, Aleksandra Galarda1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Simona M. Coman2 and Joanna Goscianska1,* -- 1. INTRODUCTION -- 2. MOFS AND THEIR STABILITY -- 3. ACTIVE SITES IN MOF AND MOF COMPOSITE -- 4. MOFS AS CATALYSTS IN OXIDATION PROCESSES -- 4.1. Oxidation of Alkanes, Cycloalkanes and Alkylbenzenes -- 4.2. Oxidation of Alkenes and Cycloalkenes -- 4.3. Oxidation of Alcohols -- 4.4. Oxidation of Thiols and Sulfides -- 5. MOFS AS CATALYSTS FOR C-C COUPLING REACTIONS -- 6. MOFS AS CATALYSTS IN HYDROGENATION REACTIONS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Frameworks and Their Derived Structures for Biomass Upgrading -- Yushan Wu1, Yanfei Xu1, Chuan Qin1 and Mingyue Ding1,* -- 1. INTRODUCTION -- 1.1. Biomass -- 1.2. MOFs and MOFs-based Structures -- 1.3. Scope of this Chapter -- 2. BIOMASS CONVERSION OVER MOFS AND THEIR DERIVED STRUCTURES -- 2.1. Transformation of Cellulose Biomass -- 2.2. Conversion of C5 or C6 Sugars -- 2.2.1. Glucose Isomerization to Fructose -- 2.2.2. Conversion of C5/C6 Sugars to 5-Hydroxymethylfurfural (HMF). 2.2.3. Transformation of C5/C6 Sugars to other Feedstocks -- 2.3. Conversion of Platform Chemicals -- 2.3.1. Conversion of Levulinic Acid and its Derivates -- 2.3.2. Transformation of Alkyl Levulinates -- 2.3.3. Transformation of 5-Hydroxymethylfurfural (HMF) -- 2.3.4. Conversion of Furfural (FF) -- 3. TRANSFORMATION OF VANILLIN -- 4. CONCLUSIONS AND FUTURE PROSPECT -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOF-Based Materials for CO2 Conversion -- Dinesh De1,, Vivekanand Sharma2 and Mayank Gupta3 -- 1. INTRODUCTION -- 2. SYNTHESIS OF VALUE-ADDED ORGANIC COMPOUNDS USING CO2 AS PRECURSOR -- 2.1. Conversion of CO2 into Cyclic Carbonates (CC) -- 2.1.1. CO2 Conversion into Cyclic Carbonates Using MOF Catalysts -- 2.1.2. CO2 Conversion into Cyclic Carbonates Catalyzed by MOF Composites -- 2.1.3. CO2 Conversion into Cyclic Carbonates Using MOF Derivatives -- 2.2. Fixation of CO2 in Carboxylation of Terminal Alkynes by MOF-Based Materials -- 3. CONVERSION OF CO2 INTO FUELS AND HYDROCARBONS -- 3.1. MOF-Based Materials as Photocatalysts for CO2 Conversion -- 3.2. Application of MOF in CO2 Conversion to Methanol -- 3.3. Conversion of CO2 into Formic Acid/ Formate -- 3.4. Conversion of CO2 to Methane -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Framework Composites for Photocatalytic Water Purification -- Ning Yuan1, and Xinling Zhang1 -- 1. INTRODUCTION -- 2. SYNTHESIS OF MOF-BASED COMPOSITES -- 2.1. The Solvothermal Method -- 2.2. The Hydrothermal Method -- 2.3. The Ball-milling Method -- 2.4. The Ultrasonic-assisted Solvothermal Method -- 2.5. The Co-precipitation Method -- 3. PHOTOCATALYTIC WATER PURIFICATION -- Organic Pollutants -- 3.1. Dyes -- 3.2. Phenols -- 3.3. PPCPs. 3.4. Herbicides and Pesticides -- 3.5. Other Organics -- 3.6. Inorganic Pollutants -- 3.7. Mixed Pollutants -- 3.8. The Correlation Between Photocatalytic Properties and Physical Properties of MOFs -- 4. ADSORPTION-PHOTOCATALYSIS SYNERGISTIC WATER PURIFICATION -- CONCLUSIONS AND PERSPECTIVES -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Subject Index -- Back Cover. Advanced Catalysts Based on Metal-organic Frameworks is a comprehensive introduction to advanced catalysts based on MOFs. It covers basic information about MOF catalysts with industrial and environmental applications. It updates readers on current applications and strategies to apply MOF-based catalysts in industrial processes geared for sustainability initiatives such as renewable energy, pollution control and combating carbon emission. Key Features- 13 structured, easy to read chapters that comprehensively cover MOF catalysts- An introduction to basic information about MOF catalysts - In-depth coverage of advanced applications of MOF catalysts- Explanation of MOF modifications and applications of derivative compounds- In-depth coverage of MOF catalysts used for electrocatalysis and photocatalysis- Detailed explanation of environmental-friendly and sustainable technologies (biomass upgrading, water purification, CO2 capture)- Updated references for advanced readers The is an essential reference for chemical engineers, scientists in the manufacturing and sustainability industry and post-graduate scholars working on MOFs and chemical catalysis. Description based on online resource; title from digital title page (viewed on November 27, 2024). Metal-organic frameworks. http://id.loc.gov/authorities/subjects/sh2020006026 Catalysts. http://id.loc.gov/authorities/subjects/sh85020940 Pollution. http://id.loc.gov/authorities/subjects/sh85104530 Catalyseurs. Pollution. catalyst. aat Chemistry, Inorganic Science Gao, Junkuo. Abazari, Reza.
spellingShingle	Advanced Catalysts Based on Metal-Organic Frameworks. Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Strategies, Synthesis, and Applications of Metal-Organic Framework Materials -- Zuo-Xi Li1,* and Chunxian Guo1,2,3,* -- 1. INTRODUCTION OF METAL-ORGANIC FRAMEWORKS -- 2. SYNTHESIS OF MOFS -- 2.1. Raw Materials -- 2.1.1. Meal Nodes -- 2.1.2. Organic Linkers -- 2.1.3. Other Compositions -- 2.2. Synthesis Methods -- 2.2.1. Solution Methods (Stirring, Evaporation and Diffusion) -- 2.2.2. Hydrothermal Method (Water and Organic Solvents) -- 2.2.3. Ionthermal Method -- 2.2.4. Sublimation Method -- 2.2.5. Solid-State Reaction Method -- 2.2.6. Microwave-Assisted Synthesis -- 2.2.7. Sonochemical Synthesis -- 2.2.8. Electrochemical Synthesis -- 3. DESIGN STRATEGIES -- 3.1. Reticular Chemistry -- 3.2. Natural Mineral Structure Simulation -- 3.3. Stepwise Assembly -- 3.4. Synthesis of Homologues with the Same Frameworks -- 3.5. Postsynthetic Modification Strategy -- 4. APPLICATIONS -- 4.1. Adsorption and Separation -- 4.1.1. Gas Storage and Separation -- 4.1.2. Vapor Adsorption -- 4.1.3. Hazards and Pollutant Concentration in Solutions -- 4.2. Catalysis -- 4.2.1. Metal Nodes as Active Sites -- 4.2.2. Organic Ligands as Active Sites -- 4.2.3. Guests as Active Sites -- 4.3. Luminescence -- 4.3.1. Chemical Sensors -- 4.3.2. MOF-based LED Materials -- 4.3.3. Bioimaging -- 4.4. Drug Delivery -- CHALLENGES AND PERSPECTIVES/CONCLUSION -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Post-synthetic Modification and Engineering of Metal Nodes and Organic Ligands of MOFs for Catalytic Applications -- Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksandra Galarda1, Anna Olejnik1 and Joanna Goscianska1,* -- 1. INTRODUCTION. 2. METAL-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 2.1. Transmetalation (Metal Exchange) -- 2.2. Metal Incorporation (Metal Doping) -- 2.3. Oxidation of the Coordination Site (Redox Transformations) -- 3. LIGAND-BASED POST-SYNTHETIC MODIFICATIONS OF MOFS -- 3.1. Ligand Functionalization -- 3.2. Ligand Exchange -- 3.3. Ligand Installation -- 3.4. Ligand Removal -- 4. TANDEM PSM OF MOFS -- 5. EPITAXIAL GROWTH ON MOFS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOFs and Their Composites as Catalysts for Organic Reactions -- Anna Olejnik1, Aleksandra Galarda1, Anita Kubiak1, Marcelina Kotschmarów1, Aleksander Ejsmont1, Agata Chełmińska1, Martyna Kotula1, Simona M. Coman2 and Joanna Goscianska1,* -- 1. INTRODUCTION -- 2. MOFS AND THEIR STABILITY -- 3. ACTIVE SITES IN MOF AND MOF COMPOSITE -- 4. MOFS AS CATALYSTS IN OXIDATION PROCESSES -- 4.1. Oxidation of Alkanes, Cycloalkanes and Alkylbenzenes -- 4.2. Oxidation of Alkenes and Cycloalkenes -- 4.3. Oxidation of Alcohols -- 4.4. Oxidation of Thiols and Sulfides -- 5. MOFS AS CATALYSTS FOR C-C COUPLING REACTIONS -- 6. MOFS AS CATALYSTS IN HYDROGENATION REACTIONS -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Frameworks and Their Derived Structures for Biomass Upgrading -- Yushan Wu1, Yanfei Xu1, Chuan Qin1 and Mingyue Ding1,* -- 1. INTRODUCTION -- 1.1. Biomass -- 1.2. MOFs and MOFs-based Structures -- 1.3. Scope of this Chapter -- 2. BIOMASS CONVERSION OVER MOFS AND THEIR DERIVED STRUCTURES -- 2.1. Transformation of Cellulose Biomass -- 2.2. Conversion of C5 or C6 Sugars -- 2.2.1. Glucose Isomerization to Fructose -- 2.2.2. Conversion of C5/C6 Sugars to 5-Hydroxymethylfurfural (HMF). 2.2.3. Transformation of C5/C6 Sugars to other Feedstocks -- 2.3. Conversion of Platform Chemicals -- 2.3.1. Conversion of Levulinic Acid and its Derivates -- 2.3.2. Transformation of Alkyl Levulinates -- 2.3.3. Transformation of 5-Hydroxymethylfurfural (HMF) -- 2.3.4. Conversion of Furfural (FF) -- 3. TRANSFORMATION OF VANILLIN -- 4. CONCLUSIONS AND FUTURE PROSPECT -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- MOF-Based Materials for CO2 Conversion -- Dinesh De1,, Vivekanand Sharma2 and Mayank Gupta3 -- 1. INTRODUCTION -- 2. SYNTHESIS OF VALUE-ADDED ORGANIC COMPOUNDS USING CO2 AS PRECURSOR -- 2.1. Conversion of CO2 into Cyclic Carbonates (CC) -- 2.1.1. CO2 Conversion into Cyclic Carbonates Using MOF Catalysts -- 2.1.2. CO2 Conversion into Cyclic Carbonates Catalyzed by MOF Composites -- 2.1.3. CO2 Conversion into Cyclic Carbonates Using MOF Derivatives -- 2.2. Fixation of CO2 in Carboxylation of Terminal Alkynes by MOF-Based Materials -- 3. CONVERSION OF CO2 INTO FUELS AND HYDROCARBONS -- 3.1. MOF-Based Materials as Photocatalysts for CO2 Conversion -- 3.2. Application of MOF in CO2 Conversion to Methanol -- 3.3. Conversion of CO2 into Formic Acid/ Formate -- 3.4. Conversion of CO2 to Methane -- CONCLUDING REMARKS -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Metal-Organic Framework Composites for Photocatalytic Water Purification -- Ning Yuan1, and Xinling Zhang1 -- 1. INTRODUCTION -- 2. SYNTHESIS OF MOF-BASED COMPOSITES -- 2.1. The Solvothermal Method -- 2.2. The Hydrothermal Method -- 2.3. The Ball-milling Method -- 2.4. The Ultrasonic-assisted Solvothermal Method -- 2.5. The Co-precipitation Method -- 3. PHOTOCATALYTIC WATER PURIFICATION -- Organic Pollutants -- 3.1. Dyes -- 3.2. Phenols -- 3.3. PPCPs. 3.4. Herbicides and Pesticides -- 3.5. Other Organics -- 3.6. Inorganic Pollutants -- 3.7. Mixed Pollutants -- 3.8. The Correlation Between Photocatalytic Properties and Physical Properties of MOFs -- 4. ADSORPTION-PHOTOCATALYSIS SYNERGISTIC WATER PURIFICATION -- CONCLUSIONS AND PERSPECTIVES -- LIST OF ABBREVIATIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Subject Index -- Back Cover. Metal-organic frameworks. http://id.loc.gov/authorities/subjects/sh2020006026 Catalysts. http://id.loc.gov/authorities/subjects/sh85020940 Pollution. http://id.loc.gov/authorities/subjects/sh85104530 Catalyseurs. Pollution. catalyst. aat
subject_GND	http://id.loc.gov/authorities/subjects/sh2020006026 http://id.loc.gov/authorities/subjects/sh85020940 http://id.loc.gov/authorities/subjects/sh85104530
title	Advanced Catalysts Based on Metal-Organic Frameworks.
title_auth	Advanced Catalysts Based on Metal-Organic Frameworks.
title_exact_search	Advanced Catalysts Based on Metal-Organic Frameworks.
title_full	Advanced Catalysts Based on Metal-Organic Frameworks. Part 1 / edited by Junkuo Gao and Reza Abazari.
title_fullStr	Advanced Catalysts Based on Metal-Organic Frameworks. Part 1 / edited by Junkuo Gao and Reza Abazari.
title_full_unstemmed	Advanced Catalysts Based on Metal-Organic Frameworks. Part 1 / edited by Junkuo Gao and Reza Abazari.
title_short	Advanced Catalysts Based on Metal-Organic Frameworks.
title_sort	advanced catalysts based on metal organic frameworks
topic	Metal-organic frameworks. http://id.loc.gov/authorities/subjects/sh2020006026 Catalysts. http://id.loc.gov/authorities/subjects/sh85020940 Pollution. http://id.loc.gov/authorities/subjects/sh85104530 Catalyseurs. Pollution. catalyst. aat
topic_facet	Metal-organic frameworks. Catalysts. Pollution. Catalyseurs. catalyst.
work_keys_str_mv	AT gaojunkuo advancedcatalystsbasedonmetalorganicframeworkspart1 AT abazarireza advancedcatalystsbasedonmetalorganicframeworkspart1

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