Silicon Nanoparticles

Archana Singh, PhD, is an Associate Professor in the Department of Plant Molecular Biology, University of Delhi South Campus, Benito Juarez Road, Dhaula Kuan, New Delhi, India. Aryadeep Roychoudhury is a Professor in the Discipline of Life Sciences, School of Sciences, Indira Gandhi National Open University, New Delhi, India. Indrakant K. Singh is a Professor in the Department of Zoology, Deshbandhu College, University of Delhi, New Delhi and presently working at Dr. B. R. Ambedkar Centre for Biomedical Research, & Delhi School of Public Health, Institute of Eminence, University of Delhi, Delhi, India.

List of Contributors xxi

Preface xxxi

Acknowledgements xxxv

Section ABasics of Nanotechnology and Its Applications 1

1 An Introduction to Nanoparticles: Synthesis, Applications and Ethical Issues 3
Aryadeep Roychoudhury, Shreyosi Pahari and Reeddhi Banerjee

1.1 Introduction 3

1.2 Methods of Synthesis of Nanoparticles 4

1.3 Application of Nanoparticles in Crop Improvement 10

1.4 Applications of Nanoparticles on Human Health 11

1.5 Risks of Using Nanoparticles 18

1.6 Ethical Issues of Nanoparticle Application 20

1.7 Conclusion and Future Prospective 25

References 26

2 An Overview of the Synthesis and Delivery of Nanoparticles in Biological Organisms 37
Nikhil Bhosale and Tabassum Khan

2.1 Introduction 37

2.2 Methods of Synthesis of NPs 38

2.3 Methods of Delivery of NPs to Plants 48

2.4 Methods of Delivery of NPs in Animals 55

2.5 Impact of NPs on Biological Organisms 57

2.6 Conclusion and Future Prospective 58

References 59

Section B Source and Synthesis of Si/SiO2 NPs 67

3 Traditional Methods of Synthesis and Characterization of SiNPs for Biomedical Applications and Sustainable Agriculture 69
Ruby Panwar and Anjana Rustagi

3.1 Introduction 69

3.2 Synthesis of Silica Nanoparticles 72

3.3 Physical Methods 72

3.4 Ion Sputtering Technique 73

3.5 Arc Discharge Technique 74

3.6 Chemical Techniques 75

3.7 Chemical Vapour Deposition 76

3.8 Precipitation of Chemicals 76

3.9 Conclusion 78

3.10 Future Prospective 80

References 80

4 Green Synthesis of Silicon Nanoparticles and Their Application in Agriculture 87
P. Shaik Sha Valli Khan, V. Suneetha, S. Naseem, S. Khader Basha, P. Ganseh, K. Pallavi, D. Suresh and O.N. Tiwari

4.1 Introduction 87

4.2 Different Methods for the Synthesis of SiNPs 89

4.3 Characterization of SiNP/SiO2 97

4.4 Application of Si/SiO2 NPs in Agriculture 98

4.5 Toxic Effects and Safety Concerns 109

4.6 Conclusions and Future Directions 110

References 111

5 ‘From Lab to Life’: An Overview of Synthesis and Delivery of Nanoparticles in Biological Organisms 125
Debjyoti Bandhu Banerjee, Kalpak Majumdar, Sagnik Goswami, Sayan Sadhukhan and Anirban Bhar

5.1 Introduction 125

5.2 Methods of Synthesis of NPs 126

5.3 Methods of Delivery of NPs for Animals 129

5.4 Methods of Delivery of NPs for Plants 132

5.5 Impact of NPs on Biological System 133

5.6 Conclusion and Future Prospective 136

Acknowledgement 137

Glossary 137

References 138

6 Modes of Applications of Nanoparticles in Plants and Animals 147
Braulio Edgar Herrera Cabrera, Rafael Salgado Garciglia, Victor Manuel Ocaño Higuera, Luis Germán López Valdez, Alan Mendoza Alcantara, Francisco Javier Verduzco Miramón and Hebert Jair Barrales Cureño

6.1 Introduction 147

6.2 Fabrication and Characteristics of Si/SiO2 Nanoparticles 148

6.3 Design of Silica Nanoparticles 149

6.4 Delivery of SiO2 in Plants 150

6.5 Pest and Disease Resistance in Plants 151

6.6 Delivery in Animals 152

6.7 Fluorescence Imaging 153

6.8 Phototherapy and MSN-Based Nanocarriers 154

6.9 Positron Emission Tomography 154

6.10 Biosensors 155

6.11 Conclusion 155

References 156

7 Technologies to Identify and Characterize Si/SiO2 Nanoparticles 161
Vaishali Raikwar

7.1 Introduction 161

7.2 X-Ray-Based Techniques 163

7.2.1 X-Ray Diffraction Measurement 163

7.2.2 X-Ray Photoelectron Spectroscopy 164

7.3 Fourier Transform Infrared Spectroscopy 167

7.4 Nuclear Magnetic Resonance Spectroscopy 168

7.5 Low-energy Ion Scattering Spectroscopy 169

7.6 Scanning Electron Microscopy 171

7.7 UV-Visible Spectroscopy 172

7.8 Others 173

7.9 Conclusion and Future Prospective 178

Glossary 179

References 180

8 Technological Advancements for Characterization of Si/SiO2 Nanoparticles 185
Prasann Kumar and Joginder Singh

8.1 Introduction 185

8.2 Techniques for Identifying Si/SiO2 Nanoparticles 188

8.3 Characterization of Si/SiO2 Nanoparticles 201

8.4 Importance of Colloidal Stability and Surface Charge 203

8.5 Conclusion 206

References 208

9 Uptake, Translocation and Consequences of Application of Si/SiO2 Nanoparticles (SiNPs) in Plants 213
Arun Kumar Maurya, Sujata Rathi, Yogendra Prasad Saksena, Anupam Awasthi, Bharti Kaushik and Sheetal

9.1 Introduction 213

9.2 Uptake of the Silicon and SiNPs 214

9.3 Translocation of SiNPs in Plants 225

9.4 Consequences of SiNP Application in Plants 228

9.5 Conclusion and Future Prospective 243

References 243

Section C Applications of Si/SiO 2 NPs in Plants 263

10 Role of Si/SiO2 NPs in Mitigation of Biotic Stress Caused Due to Herbivory 265
Shrishti Naidu, Indrakant K. Singh and Archana Singh

10.1 Introduction 265

10.2 Impact of Herbivory on Crop Production 267

10.3 Application of Si/SiO2 NPs Causes Enhanced Plant Defence Against Herbivory 268

10.4 Cell Signalling During Si-Mediated Induced Plant Defence Against Herbivory 272

10.5 Mechanisms Involved in Si-Mediated Plant Defence Against Herbivory 272

10.6 Conclusion and Future Prospective 276

References 278

11 Role of Silicon and Silicon-Based Nanoparticles in Mitigation of Heat and Drought Stresses 287
Adeeb Rahman, Venkataraja V. Mokshith, Shashi Ranjan, Sumit Kumar Kashyap, Aman Prakash, Ayyagari Ramlal, Dhandapani Raju, Ambika Rajendran and Sreeramanan Subramaniam

11.1 Introduction 287

11.2 Impact of the Role of Si/SiO2 -NPs in Mitigating Drought and Heat Stresses 289

11.3 Application of Si/SiO2 -NPs Causing Tolerance 292

11.4 Effect of SiNPs Foliar Treatment on Physiological Parameters 295

11.5 Effects of SiNPs Treatment on Gene and Protein Expression 297

11.6 Mechanism of Si-Mediated Tolerance 299

11.7 Conclusion and Future Prospectives 303

References 304

12 Role of Si/SiO2 NPs in Mitigation of Heavy Metal Stress 317
Naveen Kumar, Prabhavathi Venkat Raman and Archana Singh

12.1 Introduction 317

12.2 Impact of Si/SiO2 NPs in Mitigation of Heavy Metal Stress on Crop Production 319

12.3 Application of Si/SiO2 NPs Causes Tolerance Against Heavy Metal Stress 321

12.3.1 Seed Priming 322

12.4 Utilizing Si/SiO2 NPs in Conjunction with Biochar to Reduce Heavy Metal Stress 323

12.5 Mechanisms of Si-Mediated Tolerance to Heavy Metal Stress 325

12.6 Influence of Si/SiO2 NPs on Phytohormone 325

12.7 Effect of Si/SiO2 NPs on Photosynthesis and Reactive Oxygen Species 327

12.8 Conclusion and Future Prospective 330

References 330

13 Use of Nanomaterials as Nanofertilizers for Crop Betterment 341
Ankur Singh, Subhransu Panda, Sumali Sucharita and Aryadeep Roychoudhury

13.1 Introduction 341

13.2 Nanofertilizer and Agriculture 344

13.3 Types of Nanoparticles Used in Agriculture 345

13.4 Forms of Nanomaterial in Agriculture 348

13.5 Positive Effects of Nanomaterials 349

13.6 Nanotechnology Delivery System 353

13.7 Application of Nanoparticles in Plant Growth and Seed Germination 355

13.8 Nanoparticles in Abiotic Stress Response 356

13.9 Role of Nanotechnology in Plant Nutrition 358

13.10 Application of Nanotechnology in Seed Science 359

13.11 Positive Effects of Nanomaterials in Crop Protection 361

13.12 Nanotechnology and Safety 363

13.13 Safety and Regulations for Nanotechnology-Based Agri-products in India 364

13.14 Negative Effects of Nanomaterials on Plant Health 365

13.15 Conclusion 366

References 367

14 Benefits of Si/SiO2 Nanoparticles in Developing Climate Resilient Crop Plants: Opportunities and Challenges 387
Sagnik Goswami, Sayan Sadhukhan, Kalpak Majumdar, Debjyoti Bandhu Banerjee and Anirban Bhar

14.1 Introduction 387

14.2 Climate Change: Facts and Consequences 389

14.3 ‘Climate Change–Loss of Productivity–Yield Improvement’: the Self-Damaging Loop 391

14.4 Emerging Infectious Diseases (EIDs) in Plants due to Climate Change 392

14.5 Nanoparticles in Agriculture: A Way Towards Climate-Smart Stress-Tolerant Plants 393

14.6 Conclusion and Future Prospective 406

Acknowledgement 406

Glossary 406

References 408

Section D Applications of Si/SiO2 NPs in Medicine and Remediation 419

15 Si/SiO2 NPs as a Versatile Tool for the Treatment of Cancer 421
Aarti Sharma, Disha Mittal, Archana Singh and Indrakant K. Singh

15.1 Introduction 421

15.2 Si/SiO2 NPs-Based Platforms for Cancer Therapy 422

15.3 Active Targeting Tumour Tissues Using Si/SiO2 NPs 425

15.4 Passive Targeting of Tumour Tissues Using Si/SiO2 NPs 429

15.5 Stimuli-Responsive Therapy Using MSNPs 434

15.6 External Stimuli Triggering Drug Delivery 437

15.7 Conclusion and Future Prospective 441

Glossary 442

References 442

16 Role of Silicon Nanoparticles (SiNPs) in the Treatment of Dermatitis 453
Aparna Sharma

16.1 Introduction 453

16.2 Dermatitis 454

16.3 Contact Dermatitis: Symptoms 454

16.4 Contact Dermatitis: Treatment 455

16.5 Contact Dermatitis: Immune Response 456

16.6 Contact Dermatitis: Treatment Utilizing Silicon Nanoparticles (SiNPs) 461

16.7 Conclusion 464

References 464

17 Si/SiO2 Nanoparticles as a Versatile Tool for the Treatment ofBacterialInfectionsinHuman 469
Maya Madhavan, Seena Thomas, R.S. Silpa, Ameen Pareesa Zidhiq and Sabeena Mustafa

17.1 Introduction 469

17.2 Different Types of Nanocomposites of Si/SiO2 Nanoparticles and Their Biocompatibility and Biodistribution 471

17.3 Applications of Silica Nanoparticles in Antimicrobial Therapeutics 472

17.4 Conclusion and Future Prospective 479

References 480

18 Si/SiO2 NPs-Based Therapies for Diagnostic Applications 485
Nancy Sanjay Gupta, Shubham Kumar Shrivastav, Archana Singh and Indrakant K. Singh

18.1 Introduction 485

18.2 Diagnostic Applications of Si/SiO2 NPs 488

18.3 Advanced Diagnostic Techniques Using Si/SiO2 NPs 493

18.4 Combining Si/SiO2 NPs with AI Machine Learning 496

18.5 Si/SiO2 NPs in Combination with Other Nanomaterials 496

18.6 Biocompatibility and Toxicity 497

18.7 Current Clinical Applications 499

18.8 Challenges Due to Application of SiO2 NPs and Regulatory Considerations 505

18.9 Commercialization and Future Prospects 506

18.10 Conclusion 507

References 508

19 Si/SiO2 NPs as an Agent for Remediation of Contaminated Soil and Water 515
Upasana Medhi, Sampa Paul, Bharat Engleng, Ramesh Chandra Deka and Eeshan Kalita

19.1 Introduction 515

19.2 Pollutants and their Sources 518

19.3 Impact of Pollutants on Flora and Fauna 521

19.4 SiNPs-remediation of Agro-Pollutants 523

19.5 Nano-Silica-Mediated Remediation of Industrial Pollutants 530

19.6 Conclusion and Future Prospective 538

Glossary 542

References 544

Section E Biosafety and Ethics 563

20 Environmental Impact, Risk Assessment and Biosafety Issues of Si/SiO2 NPs 565
Himanshu, Arun Kumar, Vikanksha and Jatinder Singh

20.1 Introduction 565

20.2 Environmental Fate and Transport 567

20.3 Ecotoxicity and Environmental Effects 569

20.4 Risk Assessment and Hazard Analysis 573

20.5 Fate and Transport Modelling 575

20.6 Environmental Monitoring and Surveillance 576

20.7 Biosafety and Health Implications 577

20.8 Risk Mitigation and Management 581

20.9 Conclusion 584

References 584

21 Ethical and Societal Considerations and Challenges of Si/SiO2 Nanoparticle Application 591
Prasann Kumar and Joginder Singh

21.1 Introduction 591

21.2 Health Risks due to use of Si/SiO2 NPs: A Moral Issue 592

21.3 Moral Consideration for Environmental Sustainability 597

21.4 Societal Accessibility and Fairness 600

21.5 Ethical Concerns About Transparency and Informed Consent 603

21.6 Comprehensive Approach to Address Moral and Societal Impacts 606

21.7 Conclusion 608

References 609

Index 615