Layered Double Hydroxides and Oxides

Dr. Peter R. Makgwane is a Full Professor at the University of South Africa (UNISA) Institute of Catalysis and Energy Solutions (ICES). His research focuses on catalysis for green and sustainable processes. Dr. Ram K. Gupta is an Associate Vice President for Research and Support and a Professor of Chemistry at Pittsburg State University. He was recently named by Stanford University as being among the top 2% of research scientists worldwide.

About the Editors xvii

List of Contributors xix

Preface xxvii

Part I Introduction and Fundamentals 1

1 Layered Double Hydroxides and Oxides – An Introduction and Scope of Applications 3
Katekani Shingange and Peter R. Makgwane

1.1 Introduction 3

1.2 Classification and Basic Properties of Layered Double Hydroxides and Oxides 4

1.3 Application Scope of LDHs and LDOs in Catalytic-Driven Technologies 6

1.4 Conclusion 13

References 13

2 Structure Aspects of Layered Double Hydroxides and Oxides: Physicochemical, Optical, and Electronic Properties 19
Jodinio Lemena, Nkhosikhona Dlamini, Rethabile Makole, Hendrik C. Swart, Richard A. Harris, Jacobus J. Terblans, Peter R. Makgwane, and David E. Motaung

2.1 Introduction 19

2.2 Structure Properties of LDHs and LDOs 20

2.3 Effect of Synthesis Method and Morphology on the Physicochemical, Electronic, and Optical Properties 31

2.4 Conclusion 33

References 33

3 Synthesis of Layered Double Hydroxides and Oxides Catalysts with Controlled Structure Properties 43
Aditi De and Subrata Kundu

3.1 Introduction 43

3.2 Fundamentals of Layered Double Hydroxides and Oxides 44

3.3 Synthesis and Strategic Approaches for LDHs and LDOs 48

3.4 Challenges, Recent Advances, and Future Perspectives in Synthesis Techniques 64

3.5 Conclusion 69

3.6 Acknowledgments 70

References 70

Part II Energy Generation and Storage 75

4 Layered Double Hydroxides and Oxides Catalysts in Photocatalytic Water Splitting for Hydrogen Generation 77
Kriti Shrivastava and Ankur Jain

4.1 Introduction 77

4.2 Structure of Layered Double Hydroxides and Oxides 79

4.3 LDH/LDO-Based Photocatalyst for Hydrogen Production by Water Splitting 80

4.4 LDHs Materials in Photocatalytic Water Splitting H 2 Production 81

4.5 Conclusion 90

References 91

5 Photoelectrochemical Hydrogen Production via Water Splitting with Layered Double Hydroxides and Oxides Catalysts 99
Yogita Dahiya, Ankur Jain, and Debasish Sarkar

5.1 Introduction 99

5.2 Photoelectrochemical Water Splitting 100

5.3 Layered Double Hydroxides 105

5.4 Conclusion 119

References 120

6 Electrocatalytic Fuel Cells Based on Layered Double Hydroxides and Oxides 127
Bhawna Rathi, Monika Shrivastav, Rajnish Dhiman, Ankur Jain, and Manoj Kumar

6.1 Introduction 127

6.2 Selection Standards to Choose Electrocatalysts, Support, and Their Mechanism 131

6.3 Layered Double Hydroxides Electrocatalysts in Fuel Cells Applications 135

6.4 Layered Double Hydroxides Electrocatalysts in Fuel Cells Applications 143

6.5 Industrial Perspective of Fuel Cell Technology and the Context of LDHs/LDOs 145

References 147

7 Layered Double Hydroxides and Oxides Electrocatalysts for the Generation of Hydrogen 151
Suprobhat Singha Roy and Subrata Kundu

7.1 Introduction 151

7.2 Structure of LDHs and Their Electrocatalytic Properties for Hydrogen Production 152

7.3 Types of Metal Oxides and Their Impact on Electrochemical Hydrogen Production 153

7.4 Water Splitting Mechanism 154

7.5 Strategies to Develop Catalysts for HER and OER 158

7.6 LDH Materials for Water Splitting Application 159

7.7 Recent Development of Metal Oxides for Water Splitting Application 165

7.8 Other Strategies Counter to HER 169

7.9 Challenges and Solutions 172

7.10 Conclusion and Future Perspective 173

Acknowledgments 173

References 173

8 Layered Double Hydroxides and Oxides for Energy Storage in Sodium-Ion Batteries 179
Prajakta Dattakumar Dange and Pratap Kollu

8.1 Introduction 179

8.2 Layered Double Hydroxides 180

8.3 Layered Double Oxides 189

8.4 Conclusion 192

References 193

9 Layered Double Hydroxides and Oxides Catalysts in Methane Reforming, Syngas Generation, and Conversion 197
Jodinio Lemena, Peter R. Makgwane, and David E. Motaung

9.1 Introduction 197

9.2 Overview of Methane and Syngas Conversion Processes 198

9.3 Application of LDHs and LDOs in Methane and Syngas Conversions 202

9.4 Catalysts Stability, Deactivation, and Regenerations 210

9.5 Industrial Perspective of LDHs and LDOs Catalysts in Methane and Syngas Conversions 210

9.6 Conclusion 211

Acknowledgments 211

References 211

Part III Chemical Conversionsenergy Generation and Storage 219

10 Layered Double Hydroxide and Oxide Catalysts in Thermocatalytic Hydrogenation of CO 2 to Chemicals 221
Sivuyisiwe Mapukata, Nyiko Chauke, Andile Mkhohlakali, William Moloto, Reagan Mohlala, Mpho Ledwaba, and Mpfunzeni Raphulu

10.1 Introduction 221

10.2 Overview of CO 2 Hydrogenation Using LDHs and LDOs 222

10.3 Thermo-catalytic Hydrogenation of CO 2 Using LDH and LDO Catalysts 224

10.4 Photocatalytic Hydrogenation of CO 2 to Chemicals Using LDH and LDO Catalysts 229

10.5 CO 2 Hydrogenation Enhancement Strategies 234

10.6 Conclusions 236

Acknowledgments 237

References 237

11 Layered Double Hydroxides Catalysts in Photocatalytic CO 2 Reduction to Chemicals 247
Dhivya Sundar, Sambandam Anandan, Cheng-Hua Liu, and Jerry J. Wu

11.1 Introduction 247

11.2 Structure and Synthesis of LDH 249

11.3 LDHs for Photocatalytic CO 2 Reduction 250

11.4 Conclusion 260

Acknowledgment 261

References 261

12 Layered Double Hydroxides and Oxides for Electrocatalytic CO 2 Reduction to Chemicals 269
Shailendra K. Jha, Niki S. Jha, Alka Kumari, and Rehash Ranjan

12.1 Introduction 269

12.2 Fundamental Aspects and Challenges of Electrocatalytic CO 2 Reduction 270

12.3 LDHs as Electrocatalyst for CO 2 Reduction Reaction 273

12.4 Oxides as Electrocatalyst for CO 2 Reduction Reaction 279

12.5 Conclusions 285

References 286

13 Photo (Electro) Catalytic Fixation of Nitrogen with Layered Double Hydroxides and Oxides Catalysts 295
Rehash Ranjan and Shailendra K. Jha

13.1 Introduction 295

13.2 Benefits and Challenges of Photo (Electro) Catalytic N 2 Reduction 297

13.3 Mechanistic Aspects of Photo (Electro) Catalytic N 2 Fixation Reactions 298

13.4 Essential Activity Descriptors for N 2 Fixation 300

13.5 LDHs and LDOs Catalysts for N 2 Fixation 301

13.6 LDH Design Strategies for Enhanced Photo (Electro) Catalytic N 2 Fixation 307

13.7 Conclusions 309

References 310

14 Layered Double Hydroxides and Oxides in Photocatalytic Organic Chemical Conversions 317
David M. Mabena, Tumisang Lekgetho, and Mabuatsela V. Maphoru

14.1 Introduction 317

14.2 Mechanisms of LDH-Based Photocatalytic Reaction 319

14.3 Oxidation Reactions 321

14.4 Hydrogenation Reactions 326

14.5 Coupling and Esterification Reactions 331

14.6 Conclusions 335

References 336

15 Layered Double Hydroxide-Based Catalysts for Conversion of Biomass to Chemicals and Fuels 343
Qian Wang, Huifang Wu, Yang Zhao, Xuanlin Guo, Xinlan Zhang, and Junting Feng

15.1 Introduction 343

15.2 LDHs Catalysts in Oxidation Reactions 345

15.3 LDHs Catalysts in Hydrogenation Reactions 348

15.4 LDHs Catalysts in Cyclization Reactions 354

15.5 Reductive Amination 356

15.6 Catalytic Steam-Reforming of Biomass 361

15.7 LDHs Catalysts in Catalytic C—C Coupling of Biomass 363

15.8 Conclusion and Future Perspectives 365

References 367

Part IV Environmental Applications 375

16 Layered Double Hydroxides Photocatalysts for Degradation Organic Pollutants 377
Rajesh Sahu, Tarun Patodia, and Ankur Jain

16.1 Introduction 377

16.2 Properties and Synthesis of LDHs 379

16.3 Mechanism of LDH as a Photocatalyst 381

16.4 LDHs in Photocatalytic Degradation of Organic Pollutants 381

16.5 Conclusion 391

Acknowledgment 391

References 392

17 Layered Double Hydroxides and Oxides Catalysts for Fenton and Persulfate-Driven Removal of Organic Wastewater Pollutants 401
Michael B. Mensah, Prince Asante, Julius R. Ogbey, Benjamin Kokloku, Nathaniel N. Nubuor, Isaac Aidoo, Wisdom Dzansi, and Nathaniel O. Boadi

17.1 Introduction 401

17.2 Advanced Oxidation Processes 402

17.3 LDHs and LDOs 403

17.4 Catalytic Mechanisms in Fenton-Like Reactions 404

17.5 Catalytic Mechanisms in Persulfate Activation 405

17.6 Comparative Analysis of LDHs and LDOs in Fenton and Persulfate Reactions 406

17.7 Applications in Organic Pollutant Removal 411

17.8 Challenges and Future Perspectives 413

17.9 Innovations in LDH/LDO Design for Enhanced Catalysis 415

17.10 Prospects for Integrating LDHs/LDOs with Other Treatment Technologies 418

17.11 Conclusion 419

References 419

18 Layered Double Hydroxide and Oxide Catalysts for Remediation of Gaseous Air Pollutants 429
Katekani Shingange, Nyiko Chauke, Mandla Chabalala, Sivuyisiwe Mapukata, and Teboho Mokhena

18.1 Introduction 429

18.2 Overview of LDHs and Oxide Catalysts 430

18.3 Evolution of Catalysts for Air Pollution Control 431

18.4 Gaseous Air Pollutants 432

18.5 Mechanisms of Catalytic Remediation 433

18.6 Applications and Performance Evaluation of LDH Catalysts 438

18.7 Challenges and Future Directions 443

18.8 Conclusion 446

Acknowledgments 447

References 447

19 Layered Double Hydroxide Adsorbents for Removal of Metal Ions from Water Contaminants 459
Peyman Ghorbani, Aydin Hassani, Alireza Abbasi, and Paria Eghbali

19.1 Introduction 459

19.2 LDHs Fundamental, Structure, and Functionalization 461

19.3 LDHs Properties 469

19.4 Mechanism and Application of LDHs in Adsorption of Metal Ions from Water 471

19.5 Recyclability, Desorption, and Regeneration 479

19.6 Conclusions 485

References 486

20 Layered Double Hydroxides Catalytic Materials in Gas Chemical Sensing and Detection 497
Thabang J. Theka, Ratshilumela S. Dima, Themba Ntuli, Pontsho S. Mbule, Tlabo C. Leboho, and Katekani Shingange

20.1 Introduction 497

20.2 Overview of LDHs 498

20.3 Modification of LDHs for Gas Sensing 499

20.4 Gas Sensing Performance of LDH-Based Materials 501

20.5 Conclusion 507

References 508

21 Layered Double Hydroxides and Their Antimicrobial and Antibacterial Catalytic Activity Disinfections 515
Pratiksha Pise, Revanasiddappa Moolemane, Suresh Babu Naidu Krishna, and Peter R. Makgwane

21.1 Introduction 515

21.2 Mechanisms Underlying Antimicrobial Action 517

21.3 Antibacterial Activity of LDHs 519

21.4 Disinfection Applications of LDHs 521

21.5 Toxicity and Safety Considerations 522

21.6 LDHs in Photocatalytic Antimicrobial Disinfection 525

21.7 LDHs in Photocatalytic Antibacterial Disinfection 525

21.8 Conclusions 527

References 528

Index 531