| 000 | 03865nam a2200253Ia 4500 | ||
|---|---|---|---|
| 999 |
_c3031 _d3031 |
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| 005 | 20250424112219.0 | ||
| 008 | 240918s9999||||xx |||||||||||||| ||und|| | ||
| 020 | _a9780128216613 | ||
| 041 | _aeng | ||
| 082 | _a681.2 NAR/W | ||
| 100 |
_aMorales-Narvaez, Eden (Editor) _912728 |
||
| 100 |
_aDincer, Can (Editor) _912729 |
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| 245 | 0 | _aWearable physical, chemical and biological sensors: fundamentals, materials and applications | |
| 260 |
_bElsevier _aAmsterdam _c2022 |
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| 300 | _axiii, 314p. | ||
| 500 | _aTable of Contents: Chapter 1 Introduction Chapter 2 Materials for wearable sensors 2.1 Introduction 2.2 Materials for wearable (bio)sensors 2.3 Functionalization of substrate materials 2.4 Wearables sensors for noninvasive healthcare monitoring 2.5 Conclusion and future perspectives Chapter 3 Biorecognition elements 3.1 Introduction 3.2 Biorecognition elements in wearable biosensors 3.3 Immobilization strategies for biorecognition elements 3.4 Applications of wearable biosensors for monitoring body fluids 3.5 Current challenges and prospects Chapter 4 Signal detection techniques 4.1 Introduction 4.2 Signal transduction in wearable sensors 4.3 Optical detection 4.4 Electrical and electrochemical detection 4.5 Conclusions and outlook Chapter 5 Signal enhancement strategies 5.1 Introduction 5.2 Part A—Sample collection via microfluidics 5.3 Fabrication techniques of microfluidic structures 5.4 Membranes 5.5 Sampling for wearable sensing 5.6 Challenges and future perspectives 5.7 Part B—Nanomaterial-based signal amplification strategies 5.8 Definition 5.9 History 5.10 Features for sensing 5.11 Classification and examples (0-D/1-D/2-D/3-D nanomaterials) 5.12 Nanomaterials enhanced strategy 5.13 Conclusions and future perspectives Chapter 6 Healthcare data analytics for wearable sensors 6.1 Introduction 6.2 Machine learning at the edge 6.3 Uncertainties in healthcare data 6.4 Data analysis in healthcare using Big Data 6.5 Algorithmic approach for data storage and access 6.6 Signal conditioning, wireless communication, and regulatory landscape 6.7 Conclusion and outlook Chapter 7 Wearable physical sensors 7.1 Introduction 7.2 Self-powered wearable physical sensors 7.3 Non-self-powered wearable physical sensors 7.4 Conclusions and future perspectives Chapter 8 Wearable chemosensors 8.1 Introduction 8.2 Chemical biomarkers 8.3 Analytical parameters 8.4 Intrinsic challenges of wearable chemosensors 8.5 Wearable platforms 8.6 System integration 8.7 Conclusions Chapter 9 Wearable Biosensors 9.1 Introduction 9.2 Noninvasive biosensing: eccrine sweat 9.3 Minimally invasive biosensing: dermal ISF 9.4 Noninvasive biosensing: other body fluids and sources 9.5 Current challenges and outlook Chapter 10 Wearable hybrid sensors 10.1 Introduction 10.2 Flexible and stretchable materials 10.3 Electrically conducting materials 10.4 Strategies to manufacture wearable systems 10.5 Applications 10.6 Conclusions and outlook Chapter 11 Smart-agriculture: wearable devices for plant protection 11.1 Introduction 11.2 Wearable devices for monitoring plant status under stress 11.3 Wearable devices for detecting pesticides from agricultural products and environment 11.4 Current challenges and conclusion Chapter 12 Internet of wearable things 12.1 Wearables and Internet of Things 12.2 Toward IoWT 12.3 Concluding remarks and future perspectives Index | ||
| 650 |
_aDetectors _912730 |
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| 650 |
_aWearable technology _912731 |
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| 650 |
_aSensors _912732 |
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| 650 |
_aPrecision instruments and other devices _912733 |
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| 650 |
_aTesting, measuring, sensing instruments _912734 |
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| 856 | _uhttps://www.sciencedirect.com/book/9780128216613/wearable-physical-chemical-and-biological-sensors#book-description | ||
| 942 | _cBK | ||