Verfügbarkeit: Nanotechnology in electronics | Technische Universität München

Nanotechnology in electronics: materials, properties, devices

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Bibliographische Detailangaben
Weitere beteiligte Personen:	P. M., Visakh 1984- (HerausgeberIn), Semkin, Artem (HerausgeberIn), Balakrishnan, Raneesh 1986- (HerausgeberIn), Lazović, Saša (HerausgeberIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Weinheim Wiley-VCH [2023]
Schlagwörter:	Elektronisches Bauelement Nanostrukturiertes Material Biosensor Nanotechnologie Biomedizinische Technik EEB0: Elektronische Materialien Electrical & Electronics Engineering Electronic Materials Elektronische Materialien Elektrotechnik u. Elektronik Halbleiterphysik NT10: Nanomaterialien Nanomaterialien Nanomaterials Nanotechnology PH62: Halbleiterphysik Physics Physik Semiconductor Physics
Links:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34673-8/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033953326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	xiv, 362 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
ISBN:	9783527346738

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Datensatz im Suchindex

_version_	1819295902263672832
adam_text	V CONTENTS PREFACE XLII 1 NANOTECHNOLOGY IN ELECTRONICS, MATERIALS PROPERTIES, AND DEVICES: STATE OF THE ART AND FUTURE CHALLENGES 1 P. M. VISAKH AND RANEESH BALAKRISHNAN 1.1 1.2 GRAPHENE-BASED NANOELECTRONIC BIOSENSORS 1 ZINC OXIDE PIEZOELECTRIC NANOGENERATORS FOR LOW-FREQUENCY APPLICATIONS 2 1.3 INVESTIGATION OF THE HOT CARRIER-INDUCED DEGRADATION IN NANOSCALE JUNCTIONLESS MOSFETS: A RELIABILITY-BASED ANALYSIS 3 1.4 STUDY OF ELECTROSTATIC AND DISPERSION FORCES IN NANOELECTROMECHANICAL SYSTEMS (NEMS) 4 1.5 NANOMATERIALS FOR WEARABLE, FLEXIBLE, AND STRETCHABLE STRAIN/PRESSURE SENSORS 5 1.6 CONDUCTIVE NANOMATERIALS FOR PRINTED AND FLEXIBLE ELECTRONICS APPLICATION 6 1.7 METAL-OXIDE SEMICONDUCTORS FOR NONINVASIVE DIAGNOSIS OF BREAST CANCER 8 1.8 DOWN-CONVERSION PHOTOLUMINESCENCE PROPERTIES OF ZRO 2 : LN3+ (LN = EU, SM, ER, TB, HO, TM, PR, GD, DY) FILMS FORMED BY PLASMA ELECTROLYTIC OXIDATION 10 1.9 1.10 MULTIFERROICS FOR SPINTRONIC APPLICATIONS 10 QUARTZ TUNING FORK BASED NANOSENSORS 12 REFERENCES 13 2 GRAPHENE-BASED NANOELECTRONIC BIOSENSORS 25 MUHAMMAD AAMIR, AHMED SHUJA, SABA ASHRAF, AND JAVEED AKHTAR 2.1 2.2 2.3 2.4 2.5 2.5.1 INTRODUCTION ON GRAPHENE 25 HISTORY OF GRAPHENE 26 PROPERTIES OF GRAPHENE 27 FUNDAMENTALS OF G-DERIVATIVES 27 SYNTHESIS OF GRAPHENE 28 GRAPHENE-BASED NANOELECTRONICS 30 VI CONTENTS 2.5.2 2.5.3 2.5.4 2.5.5 2.6 2.6.1 2.6.2 2.6.3 2.6.4 2.6.5 2.6.5.1 2.6.5.2 2.6.6 2.6.6.1 2.6.6.2 2.6.7 2.6.8 2.6.9 2.6.10 2.6.11 2.6.12 2.6.13 2.6.14 2.6.15 2.6.16 2.6.17 2.6.18 GRAPHENE-BASED BIOSENSORS 32 GRAPHENE IN ELECTROCHEMICAL BIOSENSING PLATFORMS 33 FIELD-EFFECT TRANSISTORS 34 OPTICAL PLATFORM FOR BIOSENSING 34 APPLICATIONS OF GRAPHENE-BASED BIOSENSORS 35 GRAPHENE-BASED ELECTROCHEMICAL BIOSENSORS 35 DETECTION OF ACUTE MYOCARDIAL INFARCTION 36 DETECTION OF LUNG CANCER 37 DETECTION OF ASTHMA 37 DETECTION OF DIABETES 38 ELECTROCHEMICAL ENZYMATIC GLUCOSE BIOSENSOR 38 NONENZYMATIC GLUCOSE BIOSENSORS 40 DETECTION OF CHOLESTEROL 41 ENZYMATIC DETECTION OF CHOLESTEROL 41 ENZYME-FREE BIOCATALYTIC OXIDATION OF CHOLESTEROL 41 DETECTION OF HYDROGEN PEROXIDE 42 HYDROGEN PEROXIDE DETECTION IN LIVING CELLS 43 NUCLEIC ACID BIOSENSORS 43 DETECTION OF ENZYMES 44 FOOD TOXIN SENSING 45 HEAVY METAL DETECTION 45 DETECTION OF PESTICIDES 45 GRAPHENE-BASED FLUORESCENT BIOSENSORS 46 DETECTION OF SMALL MOLECULES 46 DETECTION OF NUCLEIC ACIDS 47 DETECTION OF PATHOGENS AND FOOD TOXINS 47 DETECTION OF TOXIC HEAVY METAL IONS 47 REFERENCES 48 3 ZINC OXIDE PIEZOELECTRIC NANOGENERATORS FOR LOW-FREQUENCY APPLICATIONS 63 ZOHREH MOARREF, NEGAR HONARAMIZ FAHIM, AND MAJID MONTAZER 3.1 3.1.1 3.1.2 3.1.3 3.1.3.1 3.1.3.2 3.1.3.3 3.1.3.4 3.1.3.5 3.1.3.6 3.1.4 3.2 3.2.1 INTRODUCTION OF ZINC OXIDE 63 STRUCTURE OF ZNO NPS 63 CRYSTAL STRUCTURE OF ZNO NPS 63 METHODS FOR SYNTHESIS OF ZNO NPS 66 MECHANOCHEMICAL METHODS 66 SOL-GEL SYNTHESIS 66 HYDROTHERMAL METHOD 67 LIQUID-PHASE SYNTHESIS 67 CONTROLLED PRECIPITATION 67 VAPOR TRANSPORT SYNTHESIS 68 PIEZOELECTRIC EFFECT OF ZNO 69 ZINC OXIDE PIEZOELECTRIC NANOGENERATORS 70 NANOGENERATORS 71 CONTENTS VII 3.2.1.1 3.2.1.2 3.2.1.3 3.2.1.4 3.2.2 3.3 PIEZOELECTRIC NANOGENERATORS (PENGS) 71 TRIBOELECTRIC NANOGENERATORS (TENGS) 73 PYROELECTRIC NANOGENERATORS 74 HYBRID NANOGENERATORS 75 ZINC OXIDE PIEZOELECTRIC NANOGENERATORS 76 ZINC OXIDE PIEZOELECTRIC NANOGENERATORS FOR LOW-FREQUENCY APPLICATIONS 79 3.3.1 3.3.2 3.3.2.1 3.3.2.2 APPROACHES FOR SCAVENGING LOW-FREQUENCY VIBRATIONS 79 DEVICE STRUCTURES 79 ARC SHAPED 79 CANTILEVER 80 CONCLUSION 85 REFERENCES 86 4 INVESTIGATION OF HOT CARRIER-INDUCED DEGRADATION IN NANOSCALE JUNCTIONLESS MOSFETS: A RELIABILITY-BASED ANALYSIS 97 NIDHAL ABDELMALEK, FAYGAL DJEJFAL, AND TOUFIK BENTRCIA 4.1 4.2 4.3 4.4 4.5 4.6 4.6.1 4.6.2 4.7 INTRODUCTION 97 OVERVIEW OF THE JUNCTIONLESS PARADIGM 98 SIMULATION FRAMEWORK OF HOT CARRIER DEGRADATION 102 CREATION OF INTERFACE TRAPS 104 PERFORMANCE DEGRADATION DUE TO HOT CARRIER EFFECT 108 HOT CARRIER DEGRADATION IN DIGITAL APPLICATIONS 118 STATIC ANALYSIS 118 TRANSIENT ANALYSIS 119 CONCLUDING REMARKS 122 REFERENCES 122 5 STUDY OF ELECTROSTATIC AND DISPERSION FORCES IN NANOELECTROMECHANICAL SYSTEMS (NEMS) 127 MASOUD SOLTAN REZAEE AND AMIN FARROKHABADI 5.1 5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 5.3 5.3.1 5.3.2 5.3.3 5.4 5.5 INTRODUCTION 127 ELECTROSTATIC FORCES 131 RECTANGULAR BEAM-PLATE 131 WIRE-PLATE 131 CARBON NANO TUBE (CNT) SHEETS 132 RECTANGULAR TWEEZERS 132 CARBON NANOTUBE (CNT) TWEEZERS 134 FRINGING FIELD EFFECTS 135 PALMER S MODEL 136 MEJIS-FOKKEMA MODEL 136 OTHER MODELS 136 VAN DER WAALS FORCE 137 RECTANGULAR BEAM-SHEETS 138 VIII CONTENTS 5.5.1 5.5.2 5.5.3 5.5.4 5.5.5 5.6 5.6.1 5.6.2 5.6.3 5.6.4 5.6.5 5.6.6 5.7 5.7.1 5.7.2 5.8 5.8.1 5.8.2 5.9 WIRE-PLATE 138 CARBON NANOTUBE (CNT) SHEETS 138 RECTANGULAR TWEEZERS 139 CIRCULAR TWEEZERS 140 CARBON NANOTUBE (CNT) TWEEZERS 140 CASIMIR FORCE 141 RECTANGULAR BEAM-PLATE 142 WIRE-PLATE 142 CARBON NANOTUBE (CNT) SHEETS 143 RECTANGULAR TWEEZERS 143 CIRCULAR TWEEZERS 143 CARBON NANOTUBE (CNT) TWEEZERS 144 OTHER THEORIES RELATED TO THE CASIMIR FORCE 144 PROXIMITY FORCE APPROXIMATION (PFA) 144 DIRICHLET AND NEUMANN MODES 148 FREESTANDING PHENOMENON 149 DETACHMENT LENGTH 149 SURFACE LAYER AND SIZE-DEPENDENT EFFECTS 150 SUMMARY 151 REFERENCES 151 6 NANOMATERIALS FOR WEARABLE, FLEXIBLE, AND STRETCHABLE STRAIN/PRESSURE SENSORS 155 AU SEDIGHI AND MAJID MONTAZER 6.1 6.2 6.2.1 6.2.2 6.2.3 6.2.4 6.3 6.3.1 6.3.2 6.3.3 6.4 INTRODUCTION 155 WEARABLE STRAIN/PRESSURE SENSORS 156 PIEZORESISTIVE SENSORS 157 CAPACITIVE SENSOR 167 PIEZOELECTRIC SENSORS 171 TRIBOELECTRIC SENSORS 173 APPLICATIONS 174 MOVEMENT MONITORING AND DAILY PERFORMANCE TRACKING 174 HEALTH MONITORING 176 HUMAN-MACHINE INTERFACE, SOFT ROBOTICS, AND ARTIFICIAL SKIN 178 CONCLUSION AND OUTLOOK 184 REFERENCES 185 7 CONDUCTIVE NANOMATERIALS FOR PRINTED AND FLEXIBLE ELECTRONICS APPLICATION 207 K. THIYAGARAJAN, S.G. RAHUL F G.K. RAJ INI, DEBASHIS MAJI, AND ARUNKUMAR CHANDRASEKHAR 7.1 7.2 INTRODUCTION 207 PRINTING TECHNOLOGY AND CHALLENGES WITH FABRICATION OF ELECTRONICS 208 7.2.1 INKJET PRINTING 209 CONTENTS IX 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 7.2.7 7.2.8 7.3 7.3.1 7.3.1.1 7.3.1.2 7.3.2 7.3.2.1 7.3.2.2 7.4 SCREEN PRINTING 210 SLOT DIE COATING 210 ELECTROHYDRODYNAMIC (EHD) PRINTING 211 GRAVURE PRINTING 211 FLEXOGRAPHIC PRINTING 212 ROLL-TO-ROLL (R2R) PRINTING 212 PRINTABLE NANOMATERIALS REQUIREMENTS 212 SYNTHESIS AND PREPARATION OF NANOMATERIAL-BASED INKS 213 METALLIC-BASED INKS 214 SILVER NANOPARTICLES 215 SILVER NANOWIRES 222 ID AND 2D MATERIAL-BASED INKS 225 CNT INK 225 GRAPHENE INK 228 OUTLOOKS AND PERSPECTIVES 235 REFERENCES 235 8 METAL-OXIDE SEMICONDUCTORS FOR NONINVASIVE DIAGNOSIS OF BREAST CANCER 241 MOHAN VELUMANI, IVNEET BANGA, ANIRBAN PAUL, ASOKAN PRASANTH, SAMIR RANJAN MEHER, ELIZABETH RUFUS, SRIRAM MUTHUKUMAR, SHALINI PRASAD, AND ZACHARIAH C. ALEX 8.1 8.2 8.3 8.3.1 8.3.2 8.3.3 8.4 8.4.1 8.4.2 8.4.3 8.5 8.5.1 8.5.1.1 8.5.1.2 8.5.2 8.5.3 8.5.3.1 8.5.3.2 8.6 8.6.1 8.6.2 8.6.3 8.6.4 INTRODUCTION 241 SENSING MATERIAL AND TECHNIQUES 244 BIOMARKERS FOR NONINVASIVE DIAGNOSIS OF BREAST CANCER 246 BODY METABOLISM FOR VOC GENERATION 247 VARIOUS COMPONENTS OF HUMAN BREATH AND ITS RELATED DISEASES 249 BREAST CANCER-RELATED VOCS 250 SENSING ELEMENTS 251 VARIOUS MATERIALS FOR VOC SENSING 251 METAL OXIDES FOR VOC SENSING 252 SIGNIFICANCE OF COMPOSITE METAL OXIDES 252 FABRICATION METHODS 252 THIN FILM DEPOSITION 252 VACUUM-BASED TECHNIQUES 254 CHEMICAL ROUTES 254 THICK FILM DEPOSITION 255 GROWTH OF NANOMATERIALS 255 PHYSICAL METHODS 256 CHEMICAL METHODS 257 NONINVASIVE TECHNIQUES FOR BREAST CANCER DIAGNOSIS 257 SELECTED ION FLOW TUBE MASS SPECTROMETRY (SIFT-MS) 257 PROTON TRANSFER REACTION MASS SPECTROMETRY (PTR-MS) 258 GAS CHROMATOGRAPHY-MASS SPECTROMETRY (GC-MS) 258 DIFFERENTIAL MOBILITY SPECTROMETER (DMS) 261 CONTENTS 8.6.5 8.6.6 8.6.6.1 8.6.6.2 8.6.7 8.6.8 8.7 CHEMIRESISTIVE SENSING MECHANISM 261 FIBER-OPTIC SENSORS 262 EVANESCENT WAVE FIBER-OPTIC VOC SENSORS 263 LOSSY MODE RESONANCE FIBER-OPTIC VOC SENSORS 263 SURFACE PLASMON RESONANCE SENSOR 264 CALORIMETRIC SENSORS 265 CONCLUSION 266 ACKNOWLEDGEMENTS 266 REFERENCES 267 9 DOWN-CONVERSION PHOTOLUMINESCENCE PROPERTIES OF ZRO 2 : LN 3+ (LN = EU, SM, ER, TB, HO, TM, PR, GD, DY) FILMS FORMED BY PLASMA ELECTROLYTIC OXIDATION 279 ALEKSANDAR CIRID AND STEVAN STOJADINOVID 9.1 9.2 9.3 9.3.1 9.3.2 9.3.2.1 9.3.2.2 9.3.2.3 9.3.2.4 9.3.2.5 9.3.2.6 9.3.2.7 9.3.2.8 9.3.2.9 9.3.2.10 9.4 9.5 INTRODUCTION 279 EXPERIMENT 280 RESULTS AND DISCUSSION 281 MORPHOLOGY, CHEMICAL, AND PHASE COMPOSITION 281 PL OF ZRO 2 FILMS 283 PL OF UNDOPED ZRO 2 283 PL OF ZRO 2 : E U 3+ 283 PL OF ZRO 2 : SM 3+ 286 PL OF ZRO 2 : ER 3+ 286 PL OF ZRO 2 : TB 3+ 287 PL OF ZRO 2 : H O 3+ 288 PL OF ZRO 2 : TM 3+ 288 PLOFZRO 2 : PR 3+ 290 PLOFZRO 2 :GD 3+ 292 PL OF ZRO 2 : DY 3+ 292 CIE CHROMATICITY OF ZRO 2 : LN 3+ 295 CONCLUSION 295 ACKNOWLEDGMENTS 296 REFERENCES 296 10 MULTIFERROICS FOR SPINTRONIC APPLICATIONS 301 JINI K. JOSE AND RANEESH BALAKRISHNAN 10.1 10.2 10.2.1 10.2.2 10.2.3 10.3 10.3.1 10.3.2 10.3.3 MAGNETOELECTRIC MULTIFERROIC MATERIALS 301 SPINTRONICS 302 FUNDAMENTAL ASPECTS OF SPINTRONICS 302 GIANT MAGNETORESISTANCE 303 TUNNELING MAGNETORESISTANCE 304 SPINTRONIC DEVICES 305 SPIN VALVE 306 MULTIFERROIC TUNNEL JUNCTIONS 307 SPINFET 309 CONTENTS XI INDEX 357 10.3.4 10.4 SPIN LED 311 SUMMARY 311 REFERENCES 312 11 QUARTZ TUNING FORK-BASED NANOSENSORS 317 S. ABRAHAM SAMPSON AND SUWARNA S. DATAR 11.1 11.2 11.3 11.4 11.5 11.5.1 11.5.2 11.5.2.1 11.5.2.2 11.5.2.3 INTRODUCTION 317 CHEMICAL SENSORS 318 QUARTZ TUNING FORKS (QTFS) 319 EARLY QTF DEVELOPMENT 324 QTF AS A SENSOR 325 MASS-LOADED QTFS AS SENSORS 328 POLYMER WIRE/FILM MODIFIED QTF SENSOR 331 QTFS MODIFIED WITH POLYMER WIRE BRIDGES 331 QTFS MODIFIED WITH POLYMER FILM BRIDGES 338 IMPROVING SELECTIVITY OF POLYMER-MODIFIED QTF SENSORS AND CLASSIFICATION OF VOCS 342 11.6 CONCLUSIONS 347 REFERENCES 351
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id	DE-604.BV048577366
illustrated	Illustrated
indexdate	2024-12-20T19:49:02Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527346738
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033953326
oclc_num	1356729134
open_access_boolean
owner	DE-29T DE-703
owner_facet	DE-29T DE-703
physical	xiv, 362 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
publishDate	2023
publishDateSearch	2023
publishDateSort	2023
publisher	Wiley-VCH
record_format	marc
spellingShingle	Nanotechnology in electronics materials, properties, devices Elektronisches Bauelement (DE-588)4014360-0 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Biosensor (DE-588)4193016-2 gnd Nanotechnologie (DE-588)4327470-5 gnd Biomedizinische Technik (DE-588)4006882-1 gnd
subject_GND	(DE-588)4014360-0 (DE-588)4342626-8 (DE-588)4193016-2 (DE-588)4327470-5 (DE-588)4006882-1
title	Nanotechnology in electronics materials, properties, devices
title_auth	Nanotechnology in electronics materials, properties, devices
title_exact_search	Nanotechnology in electronics materials, properties, devices
title_full	Nanotechnology in electronics materials, properties, devices edited by Visakh P.M., Artem Semkin, Raneesh Balakrishnan, and Saša Lazović
title_fullStr	Nanotechnology in electronics materials, properties, devices edited by Visakh P.M., Artem Semkin, Raneesh Balakrishnan, and Saša Lazović
title_full_unstemmed	Nanotechnology in electronics materials, properties, devices edited by Visakh P.M., Artem Semkin, Raneesh Balakrishnan, and Saša Lazović
title_short	Nanotechnology in electronics
title_sort	nanotechnology in electronics materials properties devices
title_sub	materials, properties, devices
topic	Elektronisches Bauelement (DE-588)4014360-0 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Biosensor (DE-588)4193016-2 gnd Nanotechnologie (DE-588)4327470-5 gnd Biomedizinische Technik (DE-588)4006882-1 gnd
topic_facet	Elektronisches Bauelement Nanostrukturiertes Material Biosensor Nanotechnologie Biomedizinische Technik
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34673-8/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033953326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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