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Biosensors Nanotechnology. Edition No. 2

  • Book

  • 512 Pages
  • September 2023
  • John Wiley and Sons Ltd
  • ID: 5864100
BIOSENSORS NANOTECHNOLOGY

The second edition of Biosensors Nanotechnology comprises 20 chapters and discusses a wide range of applications exploited by biosensors based on nanoparticles including new domains of bionics, power production and computing.

The biosensor industry began as a small, niche activity in the 1980s and has since developed into a large, global industry. Nanomaterials have substantially improved not only non-pharmaceutical and healthcare uses, but also telecommunications, paper, and textile manufacturing. Biological sensing assists in the understanding of living systems and is used in a variety of sectors, including medicine, drug discovery, process control, environmental monitoring, food safety, military and personal protection. It allows for new opportunities in bionics, power generation and computing, all of which will benefit from a greater understanding of the bio-electronic relationship, as advances in communications and computational modeling enable us to reconsider how healthcare is offered and R&D and manufacturing are enhanced.

In this fast-evolving discipline, the combination of nanoscale materials with biosensor technology has gained a lot of traction. Nanostructures have been used to increase the adherence of biosensor materials to electrode surfaces, print nano barcodes on biomaterials, increase the pace of bio-responses, and amplify the electric signal. Some of the topics discussed in the book include: Bioreceptors for Cells; Bioreceptors for Enzymatic Interactions; Dendrimer-Based Nanomaterials for Biosensors; Biosensors in 2D Photonic Crystals; Bioreceptors for Affinity Binding in Theranostic Development; Biosensors for Glucose Monitoring; Metal-Free Quantum Dots-Based Nanomaterials for Biosensors; Bioreceptors for Microbial Biosensors; Plasmonic Nanomaterials in Sensors; Magnetic Biosensors; Biosensors for Salivary Biomarker Detection of Cancer and Neurodegenerative Diseases; Design and Development of Fluorescent Chemosensors for the Recognition of Biological Amines and Their Cell Imaging Studies; Application of Optical Nanoprobes for Supramolecular Biosensing; In Vivo Applications for Nanomaterials in Biosensors; Biosensor and Nanotechnology for Diagnosis of Breast Cancer; Bioreceptors for Antigen-Antibody Interactions; Biosensors for Paint and Pigment Analysis; Bioreceptors for Tissue; Biosensors for Pesticide Detection; and Advances in Biosensor Applications for Agroproducts Safety.

Audience

The book is written for a large and broad readership including researchers, industry engineers, and university graduate students from diverse backgrounds such as chemistry, materials science, physics, pharmacy, medical science, biomedical engineering, electronics engineering, and nanotechnology.

Table of Contents

Preface xvii

1 Bioreceptors for Cells 1
Vipul Prajapati and Salona Roy

1.1 Introduction 1

1.2 Classification of the Cell as a Bioreceptor 2

1.3 Types of Nanomaterials Used in Cell Biosensor 9

1.4 Classification of Biosensors Based on Transducers 10

1.5 Application of Biosensors of Cells 22

1.6 Analytical Method for Biosensors of Cells 25

1.7 Recovery Time 27

1.8 Conclusion 28

2 Bioreceptors for Enzymatic Interactions 33
Vipul Prajapati and Shraddha Shinde

2.1 Introduction 33

2.2 History of Biosensors 34

2.3 Biosensors 36

2.4 Classification of Biosensors 37

2.5 Types of Bioreceptors 38

2.6 Transducers for Enzymatic Interactions 42

2.7 Enzymes and Enzymatic Interactions in Biosensor 45

2.8 Applications of Enzyme Biosensor 52

2.9 Conclusion and Future Expectations 56

3 Dendrimer-Based Nanomaterials for Biosensors 61
Chetna Modi, Vipul Prajapati, Nikita Udhwani, Khyati Parekh and Hiteshi Chadha

3.1 Introduction 61

3.2 Biosensors 69

3.3 Dendrimers in Drug Delivery System 70

3.4 Dendrimers as Sensors 74

3.5 Conclusion 79

4 Biosensors in 2D Photonic Crystals 85
Gowdhami D. and V. R. Balaji

4.1 Introduction 85

4.2 Biosensors 86

4.3 The Overall Inference 98

4.4 Conclusion 98

5 Bioreceptors for Affinity Binding in Theranostic Development 103
Tracy Ann Bruce-Tagoe, Jaison Jeevanandam and Michael K. Danquah

5.1 Introduction 103

5.2 Affinity-Binding Receptors 104

5.3 Affinity-Binding Bioreceptors in Theranostic Applications 107

5.4 Conclusion 112

6 Biosensors for Glucose Monitoring 117
Hoang Vinh Tran

6.1 Introduction 118

6.2 Development of Enzyme-Based Glucose Biosensors 124

6.3 Fabrication of Enzymatic Glucose Biosensors 127

6.4 Recent Trends for Development of Glucose Biosensors 133

6.5 Conclusion 136

7 Metal-Free Quantum Dots-Based Nanomaterials for Biosensors 145
Esra Bilgin Simsek

7.1 Introduction 145

7.2 Metal-Free Quantum Dots as Biosensors 146

7.3 Conclusions 161

8 Bioreceptors for Microbial Biosensors 169
S. Nalini, S. Sathiyamurthi, P. Ramya, R. Sivagamasundari, K. Mythili and M. Revathi

8.1 Introduction 169

8.2 Progression of Biosensor Technology 170

8.3 Biosensors Types 170

8.4 Why is a Biosensor Required? 171

8.5 Optical Microbial Biosensors 171

8.6 Mechanical Microbial Biosensor 172

8.7 Electrochemical Biosensor 172

8.8 Impedimetric Microbial Biosensor 176

8.9 Application of Bs in Various Fields 176

8.10 Recent Trends, Future Challenges, and Constrains of Biosensor Technology 178

8.11 Conclusion 180

9 Plasmonic Nanomaterials in Sensors 185
Noor Mohammadd, Ruhul Amin, Kawsar Ahmed and Francis M. Bui

9.1 Introduction 185

9.2 Fundamentals of Plasmonics 188

9.3 Optical Properties of Plasmonic Nanomaterials 189

9.4 Fiber Optic and PCF-Based Plasmonic Sensors 190

9.5 Effects of Plasmonic Nanomaterials in PCF-Based SPR Sensors 191

9.6 Current Challenges and Future Directions 195

9.7 Conclusion 195

10 Magnetic Biosensors 201
Sumaiya Akhtar Mitu, Kawsar Ahmed and Francis M. Bui

10.1 Introduction 201

10.2 History 202

10.3 Structural Design 203

10.4 Numerical Analysis 204

10.5 Outcome Analysis 206

10.5.1 Magnetic Fluid Sensor 206

10.5.2 Elliptical Hole-Assisted Magnetic Fluid Sensor 208

10.5.3 Ring Core Fiber 208

10.6 Conclusion 210

11 Biosensors for Salivary Biomarker Detection of Cancer and Neurodegenerative Diseases 215
Bhama Sajeevan, Gopika M.G., Sreelekshmi, Rejithammol R., Santhy Antherjanam and Beena Saraswathyamma

11.1 Introduction 215

11.2 Biosensors for Neurodegenerative Diseases 218

11.3 Biosensor for Cancer 229

11.4 Conclusion 235

12 Design and Development of Fluorescent Chemosensors for the Recognition of Biological Amines and Their Cell Imaging Studies 245
Nelson Malini, Sepperumal Murugesan and Ayyanar Siva

12.1 Introduction 245

12.2 Chemosensors 246

12.3 Importance of Biogenic Amines 247

12.4 Conclusion 261

13 Application of Optical Nanoprobes for Supramolecular Biosensing: Recent Trends and Future Perspectives 267
Riyanka Das, Rajeshwari Pal, Sourav Bej, Moumita Mondal and Priyabrata Banerjee

13.1 Introduction 267

13.2 Optical Nanoprobes for Biosensing Applications 270

13.3 Conclusions and Future Perspectives 297

14 In Vivo Applications for Nanomaterials in Biosensors 327
Abhinay Thakur and Ashish Kumar

14.1 Introduction 327

14.2 Types of NM-Based Biosensors 332

14.3 Conclusion and Perspectives 342

15 Biosensor and Nanotechnology for Diagnosis of Breast Cancer 347
Kavitha Sharanappa Gudadur, Aiswarya Manammal and PandiyarasanVeluswamy

15.1 Introduction 347

15.2 Characteristics of Biosensors 350

15.3 Cancer Therapy with Nanomaterials 352

15.4 Diagnosis of Breast Cancer 359

15.5 Conclusion 362

16 Bioreceptors for Antigen--Antibody Interactions 371
Vipul Prajapati and Princy Shrivastav

16.1 Introduction 371

16.2 Antibodies: A Brief Overview 372

16.3 Antigen--Antibody Reactions 379

16.4 Antibody-Based Biosensors (Immunosensors) 381

16.5 Modified Antibodies as Bioreceptors: A Novel Approach 390

16.6 Conclusion 391

17 Biosensors for Paint and Pigment Analysis 395
Sonal Desai, Priyal Desai and Vipul Prajapati

17.1 Paint and Pigments 396

17.2 Characteristics of Pigments for Paints 399

17.3 Analysis of Paints and Pigments 400

17.4 Biosensors and Their Background 400

17.5 Components, Principle and Working of Biosensors 401

17.6 Applications of Biosensors 402

17.7 Conclusion 412

18 Bioreceptors for Tissue 419
Vipul Prajapati, Jenifer Ferreir, Riya Patel, Shivani Patel and Pragati Joshi

18.1 Introduction 420

18.2 History 422

18.3 Tissue-Based Biosensors 423

18.4 Classification 425

18.5 Applications of Tissue-Based Biosensors 432

18.6 Generalized Areas Encompassing Biosensors 435

18.7 Conclusion 437

19 Biosensors for Pesticide Detection 443
Hoang Vinh Tran

19.1 Introduction 445

19.2 Biosensors for Pesticide Detection 447

19.3 Electrochemical Immunosensors for Pesticide Detection 456

19.4 Applications of Nanomaterials for the Development of Pesticide Immunosensors 462

19.5 Conclusion 464

20 Advances in Biosensor Applications for Agroproducts Safety 469
Adeshina Fadeyibi

20.1 Introduction 469

20.2 Biosensors for Safety of Plant Products 470

20.3 Biosensors for Safety of Animal Products 473

20.4 Biosensors for Safety of Microbes Used in Food Processing and Storage 476

20.5 Prospects and Conclusions 476

References 476

Index 481

Authors

Tariq Altalhi Taif University, Saudi Arabia.