3rd International Conference on Nanotechnologies and Biomedical Engineering (eBook)

Preface 6
Committees 8
Table of Contents 11
Part I Nanotechnologies and Nanomaterials 20
Role of Charge-Transfer Complexes in Regulation of Processes Associatedwith Redistribution Electron Density in Biocomposite Systems 21
I. INTRODUCTION 21
II. THEORETICAL MODEL 21
III. RESULTS AND DISCUSSION 22
IV. CONCLUSIONS 24
REFERENCES 25
Influence of Resonant Optical Phonons on IntersubbandMagnetoabsorption in Nanowires 26
I. INTRODUCTION 26
II. THEORETICAL APPROACH 26
III. RESULTS AND DISCUSSION 28
IV. CONCLUSIONS 30
REFERENCES 30
Peculiarity of High-Field Galvanomagnetic Effects in Bicrystalsof Bi and Its Alloys with Sb 31
I. INTRODUCTION 31
II. EXPERIMENTAL PROCEDURE 31
III. RESULTS AND DISCUSSION 32
IV. CONCLUSION 34
Effective Transfer of UV Energy to Red Luminescence in the NanocompositesPolymer/Eu Coordination Compounds 35
I. INTRODUCTION 35
II. PREPARATION TECHNOLOGY ANDEXPERIMENTAL SET-UP 35
III. EXPERIMENTAL RESULTS 36
IV. DISCUSSION OF RESULTS 37
V. CONCLUSION 38
Transfer of Heat between Electrons and Phonons in Metallic Nanostructures 39
I. INTRODUCTION 39
II. NORMALIZATION AND ELECTRONPHONON COUPLING 40
III. THE HEAT FLUX 41
IV. CONCLUSIONS 42
Theory of Catalytic Micro- and Nanoengines: From Self-propulsion Mechanismsto Remediation of Polluted Water 43
I. INTRODUCTION 43
III. SELF-PROPELLED MICROMOTORS FORCLEANING POLLUTED WATER 45
IV. CONCLUSIONS 46
REFERENCES 46
Characterisation of Silicon Nanolayers Deposited by Plasma Enhanced ChemicalVapor Deposition on 3-D ZnO Templates for Hollow Silicon Microstructures 48
I. INTRODUCTION 48
II. EXPERIMENTAL 48
III. RESULTS AND DISCUSSION 49
IV. CONCLUSION 51
REFERENCES 51
Two-Dimensional Cavity Polaritons under the Influence of the LandauQuantization, Rashba Spin-Orbit Coupling and Zeeman Splitting 53
I. INTRODUCTION 53
II. THE HAMILTONIAN DESCRIBING THE 2DMAGNETOEXCITONS, CAVITY PHOTONS ANDTHEIR INTERACTION 53
III. THE ENERGY SPECTRUM OF THE CAVITYMAGNETOEXCITON-POLARITONS 54
IV. CONCLUSIONS 56
Detection in the Contacts with HTSC - InSb: Numerical Modelingof the Contact Area Role 58
I. INTRODUCTION 58
II. RESULTS AND DISCUSSION 58
III. CONCLUSIONS 60
XRD and XPS of Cd2SnO4 Thin Films Obtained by Spray Pyrolysis 61
I. INTRODUCTION 61
II. EXPERIMENTAL 61
III. REZULTS AND DISCUSION 61
IV. CONCLUSION 64
REFERENCES 64
Superconductivity on the Background of the State of the Spin DensityWave in Anisotropic Systems 65
I. INTRODUCTION 65
II. MATERIAL AND METHODS 65
III. RESULTS AND DISCUSSION 67
Peculiarities of Seebeck Effect in Strained Bismuth Nanowires 69
I. INTRODUCTION 69
II. RESULTS AND DISCUSSION 70
III. CONCLUSIONS 72
REFERENCES 72
X-Ray Photoelectronic Spectroscopy of GaN, AlGaN Layers, Grown on Siliconby the Chemical Transport Reactions Method 74
I. INTRODUCTION 74
II. EXPERIMENTAL 75
III. RESULTS AND DISCUSION 75
IV. CONCLUSION 77
REFERENCES 77
Birefraction in CdP2 Photodiodes 78
I. INTRODUCTION 78
II. EXPERIMENTAL METHODS 78
III. RESULTS 78
IV. CONCLUSIONS 81
REFERENCES 81
Birefractive Effects in Quantum Wells 82
I. INTRODUCTION 82
II. EXPERIMENTAL METHODS 82
III. RESULTS 82
IV. CONCLUSIONS 85
REFERENCES 85
Optical Properties of ZnAl2Se4 Crystals 86
I. INTRODUCTION 86
II. EXPERIMENTAL METHODS 86
III. RESULTS 86
IV. CONCLUSIONS 89
REFERENCES 89
Nanomultilayer As2S3:Mn-Se Systems: Properties and Use as the Recording Media 90
I. INTRODUCTION 90
II. EXPERIMENTAL RESULTS AND DISCUSSION 90
III. CONCLUSIONS 93
REFERENCES 93
Properties of Carbazole-Based Azopolymer Used in Formation of PhotoinducedSurface Relief Gratings 94
I. INTRODUCTION 94
II. EXPERIMENTAL 94
III. RESULTS 96
IV. CONCLUSIONS 98
REFERENCES 98
The Impact of Porosification upon Luminescence of HVPE Grown GaNand the Influence of the Porous Layer upon the Quality of the Overgrown GaN Film 99
I. INTRODUCTION 99
II. EXPERIMENTAL 99
III. RESULTS AND DISCUSSIONS 100
IV. CONCLUSIONS 102
REFERENCES 102
Chronic Toxicity of Silver Nanoparticles 103
I. INTRODUCTION 103
II. MATERIALS AND METHODS 103
III. RESULTS 104
IV. DISCUSSION 105
Effect of Spin Coating Technique on Mechanical Properties of Silicophosphate ThinFilm Doped by Neodymium 107
I. INTRODUCTION 107
II. EXPERIMENTAL 107
III. RESULTS 107
IV. CONCLUSIONS 110
Characterization of TiO2 Nanoparticles and ZnO/TiO2 Composite Obtainedby Hydrothermal Method 111
I. INTRODUCTION 111
II. MATERIAL SYNTHESIS 111
III. CHARACTERIZATION 112
IV. CONCLUSION 114
Fabrication of Bismuth Telluride Wire Thermoelectric Devices 115
I. INTRODUCTION 115
II. BISMUTH TELLURIDE WIRE ARRAYS 115
III. ISOLATING BITE WIRES 116
IV. CONCLUSIONS 118
Nanolayers with Advanced Properties for Superconducting Spintronics 119
I. NANOSTRUCTURES DEPOSITION ANDCHARACTERIZATION 119
II. TRILAYER STRUCTURES 119
III. SUPERCONDUCTING PROPERTIES OFCU41NI59 /NB/CU41NI59 TRILAYERS 120
IV. FIVE-LAYER SPIN VALUE STRUCTURE 121
V. MAGNETIC PROPERTIES OF FIVE-LAYER STRUCTURE 121
VI. CONCLUSIONS 122
Application of the Strenghening Nanostructured Coatings Obtainedat Electrodischarge Treatment by Tool Electrodes Manufacturing from Al-Sn Alloy 123
I. INTRODUCTION 123
II. OBTAINING COATINGS USING ESD 123
III. APPLICATION OF TOOL ELECTRODESMADE FROM AL-SN FOR THE RECOVERYOF MATCHING SITES OF ROLLING BEARINGS 126
IV. THE USE OF THE TOOL ELECTRODESFROM AL-SN TO ELIMINATE LEAKS INALUMINIUM TUBES OF HEAT EXCHANGE UNITS 127
Structural, Optical and Electrical Properties of ZnO: Al Thin Films Synthesizedby Sol-gel Method 129
I. INTRODUCTION 129
II. MATERIAL AND METHODS 129
III. RESULTS AND DISCUSSION 129
IV. CONCLUSIONS 132
Single Nanowire Nanosensors: A Case Study of the Effects of Metal Doping on ZnO 133
I. INTRODUCTION 133
II. EXPERIMENTAL 133
III. RESULTS AND DISCUSSION 134
IV. CONCLUSIONS 136
Anisotropic Thermoelectric Generator Made from Single Crystal Bi Microwire 137
I. INTRODUCTION 137
II. SAMPLE AND EXPERIMENT 137
III. RESULTS AND DISCUSSION 138
IV. CONCLUSIONS 140
Removal of Barrier Oxide in the Anodized Aluminum Oxide Nanotemplates 141
I. INTRODUCTION 141
II. MATERIALS AND METHODS 141
III. RESULTS AND DISSCUSIONS 142
IV. CONCLUSIONS 144
Cavity Field Suppression via Interference Effects 145
I. INTRODUCTION 145
II. QUANTUM DYNAMICS OF A PUMPED TWOLEVELATOM INSIDE A DRIVEN PHOTONICCRYSTAL MICROCAVITY 145
III. CONCLUSIONS 147
Slow Relaxation of Magnetization in a Family ofLinear MnIIIMIIIMnIII (M = Fe, Ru, Os) Compounds 149
I. INTRODUCTION 149
II. MODEL 149
III. RESULTS 150
IV. SUMMARY 151
Slow Magnetic Relaxation in Dysprosium Based Single-Ion Magnets 152
I. INTRODUCTION 152
II. MODEL 152
III. RESULTS 153
IV. SUMMARY 154
Electric Field Control of Magnetic and Polarizability Propertiesof Trimeric Mixed Valence Clusters 156
I. INTRODUCTION 156
II. THE MODEL 156
III. ANISOTROPY OF POLARIZABILITY 157
IV. FIELD AND TEMPERATURE DEPENDENCEOF THE EFFECTIVE MAGNETIC MOMENT 158
V. CONCLUSIONS 159
Perspectives of Bulk and Nanosized II-VI Compoundsfor Light-Emission Application 160
I. INTRODUCTION 160
II. RESULTS AND DISCUSSION 160
III. CONCLUSIONS 163
REFERENCES 163
Spiropyran Based Smart Composites: Memorizing Polymer with Enhanced Molecular Switches 164
I.INTRODUCTION 164
II. EXPERIMENTS 164
III. RESULTS AND DISCUSSION 165
IV. CONCLUSIONS 166
Sensing Properties of Ultra-Thin TiO2 Nanostructured Films Based Sensors 167
I. INTRODUCTION 167
II. EXPERIMENTAL 167
III. RESULTS 168
IV. CONCLUSIONS 170
Nanotechnological Application Based on CoFe2O4 Nanoparticlesand Electromagnetic Exposure on Agrotechnical Plant Growth 171
I. INTRODUCTION 171
II. MATERIALS AND METHODS 171
III. RESULTS AND DISCUSSION 172
IV. CONCLUSIONS 174
Application of Nano-Oxide Films on the Surfaces of Parts Made of Titanium Alloysin Order to Increase Their Corrosion Resistance 175
I. INTRODUCTION 175
II. METHODOLOGY OF EXPERIMENTALINVESTIGATIONS 175
III. RESULTS OF EXPERIMENTALINVESTIGATIONS 176
IV. CONCLUSIONS 177
Entanglement among Photon and Phonon Degrees of Freedom 178
I. INTRODUCTION 178
II. ANALITICAL MODEL 178
III. RESULTS 179
IV. CONCLUSIONS 180
Activation Process of GaAs NEA Photocathode and Its Spectral Sensitivity 181
I. INTRODUCTION 181
II. EXPERIMENTAL 181
III. RESULTS AND DISCUSSION 182
IV. SUMMARY 184
Anticipated Synchronization of Passive Dispersive Reflector Semiconductor Laser 185
i. INTRODUCTION 185
ii. MODEL SKETCH 185
III. NUMERICAL RESULTS 186
IV. CONCLUSIONS 188
Observation of Electron Spin Relaxation Time in Pnpn Structured GaAs 189
I. INTRODUCTION 189
II. PNPN STRUCTURE 189
III. POLARIZATION RESOLVED PL SPECTRALMEASUREMENTS 190
IV. POLARIZATION AND TIME-RESOLVED PLMEASUREMENTS 191
V. CONCLUSION 191
Evaluation of Spin Relaxation Time by Polarization- and Time-Resolved Pumpand Probe Measurements 193
I. INTRODUCTION 193
II. CONDITIONS FOR OBSERVING SPINSUPERPOSITION 193
III. PUMP-PROBE (PP) MEASUREMENTS 194
IV. CONCLUSIONS 196
The Influence of External Cavity Optical Feedback on the Dynamics of QuantumDots Lasers 197
I. INTRODUCTION 197
II. MODEL AND EQUATIONS 197
III. NUMERICAL RESULTS AND DISCUSSIONS 198
IV. CONCLUSIONS 200
PbTe Nanoparticles Obtaining and Studies of Their Electrical Properties 201
I. INTRODUCTION 201
II. EXPERIMENTAL REZULTS AND DISCUSSION 201
III. CONCLUSIONS 203
Plasmonic Effects for Enhanced Optical Mixing in View of THz Signal Generation 204
I. INTRODUCTORY REMARKS 204
II. DESIGN OF OTHER TYPICAL GRAPHENETHZ SOURCES 204
III. FABRICATION TECHNOLOGY 204
IV. PLASMONICS AND GRAPHENE FOR THZGENERATION BY OPTICAL MIXING 205
V. CONCLUSION 205
Features of Nanotemplates Manufacturing on the II-VI Compound Substrates 206
I. INTRODUCTION 206
II. EXPERIMENTAL TECHNIQUE 206
III. RESULTS AND DISCUSSION 206
IV. CONCLUSIONS 209
Excitonic Luminescence, X-ray Analysis and Local Band Structureof Chlorine Intercalated 2H- and 3R-MoS2 Polytypes 210
I. INTRODUCTION 210
II. EXPERIMENTAL PROCEDURE 210
III. THEORETICAL CALCULATIONS 211
IV. RESULTS AND DISCUSSIONS 211
V. CONCLUSIONS 213
Exciton-polariton Laser 214
I. INTRODUCTION 214
II. A SHORT REVIEW RELATED TO THE BEC INA SYSTEM OF 2D CAVITY POLARITONS INSEMICONDUCTOR NANOSTRUCTURES 214
III. CONCLUSIONS 217
Preparation of Fine Bentonite Suspensions in Cavitation Fields 219
I. INTRODUCTION 219
II. EXPERIMENTAL 219
III. RESULTS AND DISCUSSION 220
IV. CONCLUSIONS 222
REFERENCES 222
Influence of Fe Catalyst Morphology on the Growing of Carbon Nanotubes 223
I. INTRODUCTION 223
II. EXPERIMENTAL 223
III. RESULTS AND DISCUSSION 224
IV. CONCLUSIONS 225
REFERENCES 226
Investigation of the Generalized Anderson Impurity Model 227
I. INTRODUCTION 227
II. CANONIC TRANSFORMATION 227
III. GREEN’S FUNCTIONS 229
IV. CONCLUSIONS 230
REFERENCES 230
Thermoelectric Properties of Bi1-xSbx Alloys, Wires and Foils 231
I. INTRODUCTION 231
II. SAMPLES AND EXPERIMENT 231
III. RESULTS AND DISCUSSIONS 232
IV. CONCLUSIONS 235
REFERENCES 234
Prospect Nanostructured Material for Thermoelectric Sensors of Infrared Radiations 236
I. INTRODUCTION 236
II. HIGH-CONDUCTIVE COMPLEX TTT(TCNQ)2 237
III. TRANSPORT PROPERTIES 237
IV. RESULTS AND DISCUSSIIONS 238
V. CONCLUSIONS 239
REFERENCES 239
The Generalization of Scientific and Educational Materials on Nanoelectronics 240
I. INTRODUCTION 240
II. BASICALLY INFORMATION 240
III. CONCLUSIONS 242
REFERENCES 243
Study of a New Colloidal Composite: Polymer-Magnetite Particles/LyotropicLiquid Crystal 244
I. INTRODUCTION 244
ii. EXPERIMENTAL PROCEDURES 244
III. RESULTS AND DISCUSSIONS 246
IV. CONCLUSIONS 247
REFERENCES 247
Polaron Theory of the Emission Current in a Cathode-Adsorbed Nanofilm Systemat the Initial Stage of a High-Voltage Gas Discharge 248
I. INTRODUCTION 248
II. ORIGINAL FORMULA FOR THE NORDHEIMFUNCTION 248
III. DISCUSSION 251
REFERENCES 251
Zero Frequency Spectrum of 3-D Metal Photonic Crystals Obtainedby the 3-D Kronig–Penney Model 252
I. INTRODUCTION 252
II. THE EQUATION FOR METALLICNANOSPHERES 252
III. A MODEL PROBLEM FOR A SIMPLEST-TYPENANOSPHERE 253
IV. ZERO FREQUENCY SPECTRUM OF 3DMETAL PHOTONIC CRYSTALS 254
V. CONCLUSIONS 255
REFERENCES 255
Conditions for Plasma Obtaining in the Gaseous Media and Its Applicationin Nanotechnology 256
I. INTRODUCTION 256
II. THEORETICAL PREMISES ON PLASMAOBTAINING IN THE GASEOUS MEDIA 257
III. METHODOLOGY OF EXPERIMENTALINVESTIGATIONS 259
IV. RESULTS OF EXPERIMENTALINVESTIGATIONS 259
V. CONCLUSIONS 260
REFERENCES 260
Bio-Nanotechnologies and Biomaterials 261
Quantum Information Processes in Protein Microtubules of Brain Neurons 262
I. INTRODUCTION 262
II. FLUCTUATION FUNCTION OF PROTEINMICROTUBULES 263
III. QUANTUM ENTANGLEMENT AND NON-LOCAL MODELS OF QUANTUM INFORMATION PROCESSES IN MICROTUBULESOF BRAIN NEURONS 265
IV. CONCLUSIONS 265
REFERENCES 265
Functional Ecofriendly Coatings for Marine Applications 267
I. INTRODUCTION 267
II. MATERIALS AND METHODS 268
III. RESULTS 268
IV. CONCLUSION 269
REFERENCES 270
New Opportunities For Biomedicine 271
I. INTRODUCTION 271
II. GENERAL CONCEPTS OF SPIN ANDORBITAL MOMENTS 272
III. MECHANISM OF SPINAND ORBITAL MOMENTS 272
IV. RESULTS OF EXPERIMENTAL MODULATIONFOR GENERATED SPIN FLOWS 274
CONCLUSION 275
REFERENCES 275
New Perspective for Biomedical Productions: Application of Cast AmorphousMicrowire for Electromagnetic Absorption 276
I. INTRODUCTION 276
II. DATABASE AND METHODS 277
III. RESULTS 278
IV. CONCLUSIONS 279
REFERENCES 280
Assessment of the Antimicrobial Activity of Polymer Materials with AddedNanosilica Modified by Silver Compounds 281
I. INTRODUCTION 282
II. MATERIALS AND METHODS 282
III. RESULTS 282
IV. CONCLUSION 283
V. FUNDING 283
REFERENCES 283
Antibacterial Properties of the Nanoparticles with the Zinc Sulfide Quantum Dots 284
I. INTRODUCTION 284
II. DATABASE AND METHODS 285
III. RESULTS 285
IV. CONCLUSIONS 286
REFERENCES 287
Influence of Dispersed Solutions of Copper, Silver, Bismuth and Zinc OxideNanoparticles on Growth and Catalase Activity of Penicillium Funiculosum 288
I. INTRODUCTION 288
II. DATABASE AND METHODS 289
III. RESULTS 290
IV. CONCLUSION 290
REFERENCES 291
Effect of Aqueous Dispersions with NPAg, NPCu, NPBi, and ZnNO, Millimeter-Wave Radiation, and Weak Magnetic Fields on the Germination of Triticale andWheat Seeds under the Action of a Pathogenic Fungus and Low Temperatures 292
I. INTRODUCTION 292
II. DATABASE AND METHODS 292
III. RESULTS 293
IV. CONCLUSION 295
REFERENCES 296
Theoretical Treatment of Millimeter and Terahertz Radiation Actionon Biological Media 297
I. INTRODUCTION 297
II. MODEL HAMILTONIAN AND EQUATIONOF MOTIONS 297
III. STEADY STATE, DIELECTRIC FUNCTIONSAND THEIR PROPERTIES 298
IV. NUMERICAL RESULTS 299
V. CONCLUSIONS 300
Fabrication MEMS Platform for Sensors Applications by Laser Micro Engraving 302
I. INTRODUCTION 302
II. EXPERIMENT 303
III. RESULTS AND DISCUSSION 303
IV. CONCLUSIONS 305
REFERENCES 304
A Novel Bioactive Compound of Palladium(II) with Mercaptoethanol 306
I. INTRODUCTION 306
II. RESULTS AND ANALYSIS 306
III. CONCLUSIONS 308
REFERENCES 308
Copper-Containing Polyoxometalates: Syntheses and Anticancer Activityagainst the SH-SY5Y Human Neuroblastoma Cell Line 309
I. INTRODUCTION 309
II. MATERIALS AND METHODS 309
III. RESULTS AND DISCUSSION 311
IV. CONCLUSIONS 313
REFERENCES 313
Genotoxicity of Nanoparticulate Zinc Ferrite – Possible Application in PlantBiotechnology 314
I. INTRODUCTION 314
II. MATERIALS AND METHODS 314
III. RESULTS AND DISCUSSION 315
IV. CONCLUSIONS 317
REFERENCES 317
Enhancement of Antioxidant and Antibacterial Activities by Immobilization of Natural Bactericide into Hybrid Supra-molecular Chitosan Bio-composite Gel 318
I. INTRODUCTION 318
II. MATERIALS AND METHODS 318
III. RESULTS AND DISCUSSIONS 318
IV. CONCLUSIONS 318
Antimicrobial Reagents as Functional Finishing for Textiles Intendedfor Biomedical Applications. II. Metals and Metallic Compounds: Silver 322
I. INTRODUCTION 322
II. SILVER FORMULATIONS 322
III. MECHANISM OF BIOCIDE ACTION 323
IV. AG-FUNCTIONALIYED TEXTILES FORBIOMEDICAL APPLICATIONS 323
V. CONCLUSIONS 324
REFERENCES 325
Antimicrobial Reagents as Functional Finishing for Textiles Intendedfor Biomedical Applications. III. Other Metals and Metallic Compounds 326
I. INTRODUCTION 326
II. FORMULATIONS AND MECHANISMOF ACTION 326
III. TEXTILE FINISHING APPROACHES 329
IV. CONCLUSIONS 330
REFERENCES 330
Biological Evaluation of Slip Casting Hydroxyapatite Intended for Cranioplasty 332
I. INTRODUCTION 332
II. MATERIALS AND METHODS 332
III. RESULTS AND DISCUSSIONS 333
IV. CONCLUSIONS 335
REFERENCES 335
Nanofibers for Tissue Engineering and Regenerative Medicine 336
I. INTRODUCTION 336
II. POLY (?-CAPROLACTONE) 336
III. ELECTROSPINNING 336
IV. ELECTROSPUN PCL NANOFIBERS 337
V. CONCLUSION 338
REFERENCES 339
Biocompatible SPIONs with Superoxid Dismutase/Catalase Immobilizedfor Cardiovascular Applications 340
I. INTRODUCTION 341
II. MATERIALS AND METHODS 341
III. RESULTS AND DISCUSSIONS 341
IV. CONCLUSIONS 343
REFERENCES 343
Part IIIBiomedical Instrumentation and Biosensors 344
Multilevel Signal Processing for Biomedical Nanodevices 345
I. INTRODUCTION 345
II. MANAGEMENT OF DISEASES 345
III. UBIQUITOUS MEDICAL SENSORNETWORKS 347
IV. CONCLUSIONS 347
REFERENCES 347
Transmission of Resistance Sensor Signals over Multi-wire Line with Losses 348
I. INTRODUCTION 348
II. STATEMENT OF THE PROBLEM 348
III. BALANCED MULTI-PORT CIRCUITS 348
IV. PROJECTIVE COORDINATES OF THEOUTPUT 349
V. PROJECTIVE COORDINATES OF THE INPUT 351
VI. CONCLUSIONS 351
REFERENCES 351
Projective Geometry Invariants of Human Body and Multi-port Electrical Circuits 352
I. INTRODUCTION 352
II. SOME FACTS ABOUT PROJECTIVETRANSFORMATION 352
III. PROJECTIVE TRANSFORMATIONS OF ANELECTRICAL NETWORK FOR LINES AND PLANES 353
IV. PROJECTIVE SPACE OF A MULTI-PORTNETWORK 355
V. CONCLUSIONS 355
REFERENCES 355
UV Effect on NO2 Sensing Properties of Nanocrystalline In2O3 356
I. INTRODUCTION 356
II. DATABASE AND METHODS 356
III. RESULTS 357
IV. CONCLUSION 359
REFERENCES 360
Sensitivity Evaluation of the Nanostructure-Enhanced BAW Mass Sensor 361
I. INTRODUCTION 361
II. SENSING LAYER PARAMETERSEXTRACTION 361
III. MODEL CONSIDERATION FOR BAWSENSOR 362
IV. CONCLUSIONS 364
REFERENCES 364
Effect of Dopant on Selectivity of CuO Nanostructured Films – Based Sensors 365
I. INTRODUCTION 365
II. EXPERIMENTAL 365
III. RESULTS AND DISCUSSION 365
IV. CONCLUSIONS 368
REFERENCES 368
Photocatalytic Applications of Doped Zinc Oxide Porous Films Grownby Magnetron Sputtering 369
I. INTRODUCTION 369
II. EXPERIMENTAL 369
III. RESULTS 370
IV. CONCLUSIONS 372
REFERENCES 372
A DVG003 Medical Device for Millimeter Wave Therapy 373
I. INTRODUCTION 373
II. OVERVIEW 373
III. DESCRIPTION OF PATENTED SOLUTIONS 373
IV. DESIGN DESCRIPTION 375
REFERENCES 376
Hydrogen Gas Sensor Based on Nanograined Pd/?-MoO3 Belts 377
I. INTRODUCTION 377
II. EXPERIMENTAL 378
III. RESULTS 379
IV. CONCLUSIONS 380
REFERENCES 380
Hypothermia Device Used in Medicine 381
I. INTRODUCTION 381
II. EXPERIMENT 381
III. FUZZY ALGORITHM 382
IV. CONSTRUCTION 383
V. CIRCUITS 384
VI. CONCLUSION 385
REFERENCES 385
Accuracy Analysis of Measurements in Electrochemical Biosensing 386
I. INTRODUCTION 386
II. MATERIAL AND METHODS 386
III. RESULTS, DISCUSSION 387
IV. CONCLUSIONS 389
REFERENCES 389
Electronic Circuits for Graphene-Based Biosensor 390
I. INTRODUCTION 390
II. DEVELOPEMENT OF BIOSENSINGELECTRODE 390
III. TWO CONCEPTS 391
IV. COMPARISON OF BOTH SYSTEMS IN EIS MEASUREMENTS 393
V. CONCLUSIONS 393
REFERENCES 393
Pulsatile Mechanical Heart Assist Device 394
I. INTRODUCTION 394
II. MATERIALS AND METHODS 394
III. RESULTS 395
IV. DISCUSSIONS 396
V. CONCLUSIONS 397
REFERENCES 397
Impedance Characterization of Gas Sensitive S-Te Based QuaternaryChalcogenides 398
I. INTRODUCTION 398
II. MATERIALS AND METHODS 398
III. RESULTS 399
IV. DISCUSSION 403
V. CONCLUSIONS 403
REFERENCES 403
Part IVBiomedical Signal and Image Processing 405
Automated Morphometry of Neutrophilic Granulocytes – A Simple and ReliableMethod of Assessment of the Wound Process Activity 406
I. INTRODUCTION 406
ii. MATERIALS AND METHODS 406
III. RESULTS 407
IV. CONCLUSION 408
REFERENCES 408
Restoringn Spatial Phase Distribution of Complex Optical Fieldsfor Biomedicine Application 409
I. INTRODUCTION 409
II. ALGORITHMS OF THE PHASE DISTRIBUTIONRECONSTRUCTION 409
III. RESULTS 412
IV. CONCLUSION 412
REFERENCES 412
Development of Digital Holographic Microscope for 3D Sensing of BiologicalSurface Morphology 413
I. INTRODUCTION 413
II. ELABORATION OF OPTICAL SET-UP 413
III. RESULTS AND DISCUSSION 416
IV. CONCLUSIONS 417
REFERENCES 418
Modeling of IMS Spectra in Medical Diagnostic Purposes 419
I. INTRODUCTION 419
II. MAIN PRINCIPLES AND GENERALSETUP OF IMS 420
III. PHYSICAL MODEL OF IMS SPECTRUM 420
IV. IMS SPECTRUM SIMULATION 421
V. IDENTIFICATION OF PEAKS 421
VI. RESULTS OF IMS SPECTRUM SIMULATION 420
VII. HUMAN BREATH IMS SPECTRASIMULATION 421
VIII. CONCLUSIONS 422
REFERENCES 422
Features in Infrared Image Processing of Biotissue with Internal Heat Source 424
I. INTRODUCTION 424
II. SPATIAL DISTRIBUTIONS OF TEMPERATUREIN BIOTISSUE WITH AN INTERNAL HEAT SOURCE 424
III. VOLUMETRIC GLOWING OF BIOTISSUE 426
IV. EXAMPLES OF TEMPERATUREMEASUREMENT ERRORS 426
V. ON THE SOLUTIONS TO INVERSE PROBLEMS 427
VI. CONCLUSION 427
REFERENCES 428
Fluorescent Nanoscale Structures for Selective Medical Diagnostics 429
I. INTRODUCTION 429
II. WRITING THE PAPER 429
III. CONCLUSION 432
REFERENCES 433
Hepatoprotective Activity of Leaf Extract of Laurus Nobilis L. against CCL4Induced Hepatotoxicity in Rats 434
I. INTRODUCTION 434
II. MATERIALS AND METHODS 434
III. RESULTS AND DISCUSSION 435
REFERENCES 437
An Automated Inertial Indoor Positioning and Fall Detection System for Elder 439
I. INTRODUCTION 439
II. MATERIALS AND METHODS 440
III. RESULTS 441
IV. CONCLUSIONS 442
REFERENCES 442
Modelling Potential Distribution in ZnO with Different Thicknessesat GHz Frequencies 443
I. INTRODUCTION 443
II. EXPERIMENT 443
III. RESULTS 446
IV. CONCLUSION 446
V. REFERENCES 446
Part VClinical Engineering, Health Informaticsand Cellular and Tissue Engineering 447
Prophylaxis Monitoring of the State of Human Respiratory Organs 448
I. INTRODUCTION 448
II. MAIN PART 449
III. CONCLUSION 452
REFERENCES 452
BioR Medication in the Combined Treatment of Chronic Tonsillitis in Children 453
I. INTRODUCTION 453
II. MATERIALS AND METHODS 453
III. DISCUSSION 453
IV. RESULTS 454
V. CONCLUSIONS 455
REFERENCES 455
Water as a Receiver of Information from Digital Representations of Plant ObjectsSubjected to Thermal Stress Action: 2. Instrumental Testing 456
I. INTRODUCTION 456
II. DATABASE AND METHODS 457
III. RESULTS 457
IV. CONCLUSION 458
REFERENCES 458
Water as Receiver of Information from Digital Representations of Plant ObjectsSubjected to Thermal Stress Action: 1. Biological Indicator Testing 459
I. INTRODUCTION 459
II. DATABASE AND METHODS 459
III. RESULTS 460
IV. CONCLUSION 462
REFERENCES 462
SonaRes Platform for Development of Medical Informatics Applications 463
I. INTRODUCTION 463
II. SONARES PLATFORM 463
III. DSS SONARES 464
IV. EMERGENCY-SONARES 464
V. COMPUTER-AIDED TOOLS FOR DIAGNOSTICS AND CLASSIFICATION OF EARLY STAGES OF NON-ALCOHOLICFATTY LIVER DISEASE 465
VI. SONARES.EDU 465
VII. CONCLUSIONS 465
REFERENCES 466
The Modality of the Regeneration of the Intervertebral Lombar Discin Osteochondrosis 467
I. INTRODUCTION 467
II. DATABASE AND METHODS 468
III. RESULTS 469
IV. CONCLUSION 469
REFERENCES 470
Middle Ear Monitoring in Children 471
I. INTRODUCTION 471
II. MATERIALS AND METHODS 472
III. RESULTS 472
IV. DISCUSSIONS 473
V. CONCLUSIONS 474
REFERENCES 474
An Evaluation of the Accuracy and Reproductibility of CephalometricMeasurements Using Two Different Versions of Romexis Software 475
I. INTRODUCTION 475
II. MATERIALS AND METHODS 475
III. RESULTS AND DISCUSSIONS 476
IV. CONCLUSIONS 478
REFERENCES 478
Using CHAID Algorithm in Low-Risk Metabolic Syndrome Patients 479
I. INTRODUCTION 479
II. STUDY GROUP 479
III. IMPLEMENTATION OF CHAID ALGORITHM 480
IV. USING CHAID ALGORITHM IN LOW-RISKMETABOLIC SYNDROME PATIENTS 480
V. CONCLUSIONS 481
VI. COMPLIANCE WITH ETHICALREQUIREMENTS 482
REFERENCES 482
Study of Interoceptive Signals Perception in Patients with Panic Disorderand Eminent Respiratory Symptoms 483
I. INTRODUCTION 483
II. SUBJECTS AND METHODS 483
III. RESULTS 484
IV. DISCUSSION 484
V. CONCLUSION 485
REFERENCES 485
Collective Behavior of Water Molecules in Microtubules 486
I. INTRODUCTION 486
II. QUNTUM MECHANICAL TREATMENTOF BIOLOGICAL SYSTEM 486
III. QUANTUM MECHANICAL FORMALISM OF INTERCATION OF BIOPHOTONSWITH COLLECTIVE H2O MOLECULES 488
IV. CONCLUSIONS 489
REFERENCES 490
Medical Devices Management Strategy in the Republic of Moldova 491
I. INTRODUCTION 491
II. CURRENT SITUATION DESCRIPTION 492
III. PROBLEMS DEFINITION 492
IV. GENERAL AND SPECIFIC OBJECTIVESOF THE STRATEGY 493
V. CONCLUSIONS 494
REFERENCES 494
Method of Treatment of Immune Cell Disorder Caused by Ionizing Radiation 495
I. INTRODUCTION 495
II. MATERIALS AND METHODS 495
III. RESULTS AND DISCUSSION 496
IV. CONCLUSIONS 498
REFERENCES 498
Part VIBiomedical Engineering Education 499
Management and Implementation of the TEMPUS IV BME-ENA Projectin the Field of Biomedical Engineering Education 500
I. INTRODUCTION 500
II. BME-ENA PROJECT COORDINATION ANDMANAGEMENT 501
III. BME-ENA PROJECT IMPLEMENTATION 502
IV. BME-ENA PROJECT QUALITY ASSURANCE 503
V. CONCLUSIONS 503
REFERENCES 503
Application of Computational Phantoms and their 3D Print-outs for Educational Purposes 504
I. INTRODUCTION 504
II. THE APPROACH 504
III. IMPLEMENTATION 505
IV. CONCLUSIONS AND FUTURE WORK 506
REFERENCES 507
Development of the BME MSc Study Program in Georgiawithin the BME-ENA TEMPUS IV Project 508
I. INTRODUCTION 508
REFERENCES 511
The Implementation of the BME-ENA Tempus Project in Ukraine 513
I. INTRODUCTION 513
II. SOME SPECIFIC CHARACTERISTICS OF THE BME-ENA PROJECT IMPLEMENTATIONIN UKRAINE 513
III. DEVELOPMENT OF PROGRAMSAND COURSES 514
IV. CONCLUSIONS 515
REFERENCES 516
Medical Bioengineering Education in Iasi, Romania 517
I. INTRODUCTION 517
II. MOTIVATION OF EDUCATIONIN MBE AND BME 517
III. MBE EDUCATION PROGRAMS AT GRIGORET. POPA UNIVERSITY OF IASI 518
IV. CONCLUSIONS 520
REFERENCES 520
Design and Content of Biomedical Curriculum for Biomedical EngineeringMaster’s Program in the Republic of Moldova 521
I. INTRODUCTION 521
II. DESIGN AND CONTENT OF BIOMEDICALCURRICULUM 521
III. CONCLUSIONS 523
REFERENCES 523
Part VIINuclear and Radiation Safety and Security 524
Ion Mobility Spectrometer for Rapid Simultaneous Detectionof Positive and Negative Ions 525
I. INTRODUCTION 525
II. DEVELOPMENT 525
III. RESULTS AND DISCUSSION 526
IV. CONCLUSION 528
REFERENCES 529
Experimental Equipment for Extraction of ELDRS Conversion Model Parametersand its Application for Estimation of Radiation Effects in Bipolar Devices 530
I. INTRODUCTION 530
II. THE FITTING PARAMETER EXTRACTIONTECHNIQUE FIGURES AND TABLES 530
III. STRUCTURE DIAGRAM OF THEMEASURING EQUIPMENT 531
IV. EXPERIMENTAL EXTRACTION OF ELDRS CONVERSION MODEL PARAMETERS FORVOLTAGE COMPARATOR LM111 532
V. CONCLUSIONS 533
REFERENCES 533
Numerical Estimation of the Radiation Hardness of Bipolar Integrated Circuitsin Various Irradiation Conditions of Space Environment 534
I. INTRODUCTION 534
II. ELDRS CONVERSION MODEL 534
III. CYCLIC TEMPERATURE VARIATION 536
IV. SOLAR FLARE 536
V. CONCLUSIONS 537
REFERENCES 537
Theoretical Investigations of Nano-sensors for Radiation Processes 538
I. INTRODUCTION 539
II. RATE CONSTANT OF CHARGE TRANSFERPROCESS 539
III. CONCLUSIONS 540
REFERENCES 540
Portal Monitor for Human Body Alpha-Radioactive Contamination Control 542
I. INTRODUCTION 542
II. METHOD OF THE REMOTEALPHA-PARTICLES DETECTION 542
III. INSTRUMENTS FOR REMOTEALPHA-PARTICLES DETECTION 543
IV. EXPERIMENTAL RESULTS 545
V. CONCLUSIONS 545
REFERENCES 546
The Circuit Method for Decreasing of Sensitivity to ASET Effect for BipolarOperational Amplifiers 547
I. INTRODUCTION 547
II. THE REDUCTION OF ASET SENSITIVITY OF THE LM124 OP AMP BY USING THE RADIATIONHARDNED CURRENT MIRROR 547
III. MODIFIED CIRCUIT OF LM124 OP AMP 548
IV. CONCLUSIONS 549
REFERENCES 549
Cyber Security in the Nuclear and Radiological Domain: Case Studyof Republic of Moldova 551
I. INTRODUCTION 551
II. CONTEXT AND MOTIVATION 551
III. NATIONAL LEGISLATION IN CYBER/NUCLEAR DOMAIN 552
IV. CONCLUSIONS 552
REFERENCES 553
Nuclear Security as an Ongoing International Process 554
I. INTRODUCTION 554
II. NUCLEAR SECURITY, AN EMERGING ISSUE 554
III. THE NUCLEAR SECURITY SUMMITS 555
Effects of Electromagnetic Field on Human’s Health – A Short Review 557
I. INTRODUCTION 557
II. EMF INTERACTION WITH HUMAN’SORGANISM 557
III. CONCLUSIONS 559
REFERENCES 560
Methods for the Self Calibration of Ion Mobility Spectrometer 561
I. INTRODUCTION 561
II. CALIBRATION WITH EXPLOSIVE VAPORS 561
III. CALIBRATION USING CORONADISCHARGE 563
IV. CONCLUSIONS 564
REFERENCES 565
Author Index 566