Synthetic diamond films: preparation, electrochemistry, characterization, and applications
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Hoboken, N.J.
Wiley
2011
|
| Schriftenreihe: | Wiley series on electrocatalysis and electrochemistry
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes index. |
| Beschreibung: | XXVIII, 632 S., [8] Bl. Ill., graph. Darst. |
| ISBN: | 9780470487587 9781118062364 |
Internformat
MARC
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| 245 | 1 | 0 | |a Synthetic diamond films |b preparation, electrochemistry, characterization, and applications |c ed. by Enric Brillas ... |
| 264 | 1 | |a Hoboken, N.J. |b Wiley |c 2011 | |
| 300 | |a XXVIII, 632 S., [8] Bl. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Wiley series on electrocatalysis and electrochemistry | |
| 500 | |a Includes index. | ||
| 650 | 4 | |a Diamonds |x Electric properties | |
| 650 | 4 | |a Diamond thin films | |
| 700 | 1 | |a Brillas, Enric |e Sonstige |4 oth | |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, EPUB |z 978-1-118-06235-7 |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-024372993 | ||
Datensatz im Suchindex
| _version_ | 1804148328226619392 |
|---|---|
| adam_text | Titel: Synthetic diamond films
Autor: Brillas, Enric
Jahr: 2011
Contents
PREFACE xix
PREFACE TO THE WILEY SERIES ON
ELECTROCATALYSIS AND ELECTROCHEMISTRY xxiii
CONTRIBUTORS xxv
PART I SYNTHESIS OF DIAMOND FILMS
1. Electrochemistry on Diamond: History and Current Status
John C. Angus
1.1 Enabling Technologies / 3
1.1.1 Chemical Vapor Deposition of Diamond / 3
1.1.2 Doping of Diamond / 4
1.1.3 Surface Characterization of Diamond / 5
1.2 First Studies of the Electrochemistry on Diamond / 5
1.2.1 From 1987 to 1996/5
1.2.2 From 1996 to Present / 6
1.3 Development of Electrochemical Applications of Diamond /
1.3.1 Surface Functionalization / 8
1.3.2 Destruction of Wastes / 9
1.3.3 Sensors and Electroanalysis / 9
1.4 Other Directions / 10
1.4.1 Biolectronic Applications / 10
1.4.2 Anomalous Surface Conductivity of Diamond / 11
VI CONTENTS
1.5 Conclusions / 13
References / 13
2. Synthesis of Diamond Films 21
Vadali V. S. S. Srikanth and Xin Jiang
2.1 Introduction / 21
2.2 Diamond Film CVD Techniques / 23
2.2.1 History / 23
2.2.2 Thermal Decomposition Techniques / 25
2.2.2.1 Hot Filament Chemical Vapor Deposition (HFCVD) / 25
2.2.2.2 Oxy-Acetylene Torch Method / 25
2.2.3 Plasma-Aided Deposition Techniques / 26
2.2.3.1 Microwave Plasma-Enhanced CVD (MWCVD) / 26
2.2.3.2 DC Plasma CVD / 27
2.2.3.3 RF Plasma CVD / 28
2.2.3.4 Electron Cyclotron Resonance Microwave
Plasma-Assisted CVD / 28
2.3 Diamond Nucleation and Growth / 28
2.3.1 Nucleation / 28
2.3.1.1 Definition and Types / 28
2.3.1.2 Methods / 30
2.3.2 Growth / 32
2.3.3 Role of Hydrogen and Oxygen / 39
2.4 Diamond Epitaxy / 40
2.5 Nanodiamond Thin Films / 45
2.6 Diamond Nanocomposite Films / 46
2.7 Conclusions / 48
References / 48
3. Types of Conducting Diamond Materials and Their Properties 57
Marco A. Quiroz and Erick R. Bandala
3.1 Introduction / 57
3.2 Conducting Diamond Materials (CDMs) / 62
3.3 CDM Preparation Procedures / 63
3.4 CDM Doping Materials / 63
3.4.1 Characteristics of Boron-Doped CDMs / 63
3.4.2 Electrochemical Properties / 64
CONTENTS VII
3.4.3 Photoelectrochemical Properties / 66
3.4.4 Optical Spectroscopy Properties / 67
3.4.5 Photo- and Cathodoluminescence Properties / 68
3.4.6 Electrical Conductivity and Superconductivity Properties / 69
3.5 Non-Boron-Doped CDMs / 69
3.6 Conclusions / 71
References / 71
PART II ELECTROCHEMISTRY OF DIAMOND FILMS 77
4. Electrochemistry of Diamond 79
Yuri Pleskov
4.1 Introduction / 79
4.2 Principal Electrochemical Properties of Diamond / 80
4.3 The Effect of Semiconductor Nature of Diamond on its Electrochemical
Behavior / 83
4.4 The Effect of Crystal Structure on the Electrochemical Behavior of
Diamond / 92
4.4.1 The Effect of Crystallographic Orientation of Crystal Faces / 92
4.4.2 The Effect of Surface Morphology / 95
4.4.3 The Effect of the Diamond Grain Size (or the Film Thickness, or
the sp2 -Carbon Impurity) / 98
4.5 Diamond-Based Nanostructures as Electrode Materials: Vacuum-Annealed
Undoped Polycrystalline Diamond / 102
4.6 Conclusions / 106
4.7 Acknowledgments / 106
References / 106
5. Applications of Polycrystalline and Modified Functional Diamond
Electrodes 109
Yasuaki Einaga and Akira Fujishima
5.1 Introduction / 109
5.2 Preparation of BDD Electrodes / 110
5.3 Electrochemical Properties of BDD as Electrode Materials /111
5.4 Applications in Electrochemical Analysis Using Polycrystalline BDD
electrodes /111
5.4.1 Detection of Free Chlorine /111
VIII CONTENTS
5.4.2 Detection of Oxalic Acid / 113
5.4.3 Proteins (Including Cancer Markers) / 113
5.5 Modified Functional BDD Electrodes / 116
5.5.1 Production of High-Concentration Ozone-Water Using
Free-Standing Perforated Diamond / 116
5.5.2 Modified Functional BDD Electrodes for Electrochemical
Analysis / 119
5.5.2.1 Ion-Implanted BDD Electrodes / 119
5.5.2.2 Selective Detection ofAs(III) and As(V) by Stripping
Voltammetry / 124
5.5.2.3 In vivo Dopamine Detection by BDD
Microelectrodes / 125
5.5.2.4 BDD Nanograss Array (Whisker BDD) / 126
5.6 Conclusions / 130
5.7 Acknowledgments / 130
References / 131
6. Diamond Ultramicroelectrodes and Nanostructured Electrodes 133
Katherine B. Holt
6.1 Introduction / 133
6.2 Ultramicroelectrodes: Definition and Electrochemical Characteristics / 134
6.3 Boron-Doped Diamond UMEs / 136
6.3.1 Substrate Preparation and Growth of Diamond Films / 136
6.3.2 Insulation Methods and Control of Exposed Electrode
Geometry / 140
6.3.3 Electrochemical Performance and Applications / 142
6.4 Boron-Doped Diamond UME Arrays / 143
6.4.1 Fabrication of BDD UME Arrays / 144
6.4.2 Electrochemical Performance and Applications / 146
6.5 Nanostructured BDD Electrodes / 147
6.5.1 Random Array BDD Nanodisk Electrodes / 147
6.5.2 Fabrication of Nanostructured BDD Arrays / 148
6.5.3 Electrochemical Performance and Applications of Nanostructured
BDD Electrodes / 149
6.6 Conclusions and Future Directions / 150
References / 151
CONTENTS IX
PART III ELECTROANALYTICAL APPLICATIONS 153
7. Electroanalytical Applications of Diamond Films 155
Weena Siangproh, Amara Apilux, Pimkwan Chantarateepra,
and Orawon Chailapakul
7.1 Introduction / 155
7.2 Pharmaceutical Compounds / 156
7.3 Biomolecules or Biological Compounds / 159
7.4 Pollutant Compounds / 162
7.5 Heavy Metals / 165
7.6 Food and Dietary Contaminants / 166
7.7 Miscellaneous / 168
7.8 Conclusions / 170
7.9 Acknowledgments / 178
References / 178
8. Cathodic Pretreatment of Boron-Doped Diamond Electrodes
and Their Use in Electroanalysis 181
Leonardo S. Andrade, Giancarlo R. Salazar-Banda,
Romeu C. Rocha-Filho, and Orlando Fatibello-Filho
8.1 Introduction / 181
8.2 Cathodic Pretreatment of Conductive Diamond Films / 182
8.3 Electroanalytical Applications / 192
8.3.1 General Aspects / 192
8.3.2 Determination of Pesticides in Environmental Samples / 193
8.3.2.1 Carbaryl / 193
8.3.2.2 4-Nitrophenol / 193
8.3.2.3 Chlorophenols / 196
8.3.3 Determination of Substances in Food Samples / 198
8.3.3.1 Aspartame / 198
8.3.3.2 Sodium Cyclamate / 199
8.3.3.3 Aspartame and Sodium Cyclamate / 200
8.3.3.4 Total Phenols / 201
8.3.4 Determination of Substances in Pharmaceutical Samples / 201
8.3.4.1 Sulfamethoxazole and Trimethoprim / 201
8.3.4.2 Sulfamethoxazole and Sulfadiazine / 205
CONTENTS
8.3.4.3 Acetylsalicylic Acid / 205
8.3.4.4 Paracetamol and Caffeine / 206
8.3.4.5 Sildenafil Citrate (Viagra®) / 206
8.3.4.6 Lidocaine / 207
8.4 Gold Deposition and Stripping / 209
8.5 Conclusions / 209
References / 210
PART IV INDUSTRIAL APPLICATIONS 213
9. Use of Boron-Doped Diamond Electrode in Electrochemical
Generation and Applications of Ferrate 215
Virender K. Sharma, Enric Brillas, Ignasi Sires, and Karel Bouzek
9.1 Introduction / 215
9.2 Electrochemical Generation of the Ferrate Ion with Iron Anodes / 217
9.3 Electrochemical Generation of the Ferrate Ion with Inert Anodes / 222
9.4 Electrochemical Generation of the Ferrate Ion with Boron-Doped
Diamond Anode / 223
9.4.1 Acidic Medium / 223
9.4.2 Alkaline Medium / 225
9.5 Applications / 228
9.5.1 Common Inert Anodes / 228
9.5.2 Iron Anodes / 229
9.5.3 BDD Anode / 230
9.6 Conclusions / 233
9.7 Acknowlegments / 233
References / 233
10. Electrochemical Oxidation of Organic Compounds Induced by
Electro-Generated Free Hydroxyl Radicals on BDD Electrodes 237
Agnieszka Kapalka, Helmut Baltruschat, and Christos Comninellis
10.1 Introduction / 237
10.2 Influence of Anode Material on the Reactivity of Electrolytic Hydroxyl
Radicals / 238
10.3 Electro-Generation and Detection of Quasi-Free Hydroxyl Radicals
on BDD Electrode / 240
CONTENTS XI
10.3.1 Hydroxyl Radicals Spin Trapping / 240
10.3.2 Trapping by Salicylic Acid / 240
10.3.3 Competitive Reactions / 242
10.3.4 Formation of Hydrogen Peroxide / 242
10.4 Concentration Profile of Hydroxyl Radicals on BDD Electrode / 244
10.4.1 HO* Concentration Profile during Oxygen Evolution / 244
10.4.2 HO Concentration Profile during Electro-Oxidation of Organic
Compound / 246
10.5 Kinetic Model of Organics Oxidation on BDD Anode / 248
10.5.1 Electrolysis under Cunent Limited Control (/applied 7iim) / 249
10.5.2 Electrolysis under Mass Transport Control (/applied hm) / 251
10.6 Electrochemically Induced Mineralization of Organic Compounds by
Molecular Oxygen / 253
10.7 Conclusions / 256
10.8 Exercises / 256
10.8.1 Solutions / 257
References / 260
11. Modeling of Electrochemical Process for Water Treatment
Using Diamond Films 261
Onofrio Scialdone and Alessandro Galia
11.1 Introduction / 261
11.2 Theoretical Models / 263
11.2.1 General Considerations / 263
11.2.2 Oxidation of Organic Pollutants in Water at BDD by Means of
Direct Anodic Oxidation or Reaction with Electro-Generated
Hydroxyl Radicals ( Direct Processes ) / 265
11.2.2.1 The Model of Comninellis and Coauthors / 268
11.2.2.2 The Theoretical Works of Polcaro and Coauthors / 272
11.2.2.3 The Approach Proposed by Rodrigo and Coauthors / 273
11.2.3 Oxidation of Organic Pollutants in Water by Means of
Electro-Generated Oxidants ( Indirect Processes ) Such as Active
Chlorine / 274
11.3 Conclusions / 278
11.4 Acknowledgments / 279
References / 279
XU CONTENTS
12. Production of Strong Oxidizing Substances with BDD Anodes 281
Ana Sdnchez-Carretero, Cristina Sdez, Pablo Canizares,
and Manuel A. Rodrigo
12.1 Electrolyses with Conductive-Diamond Anodes / 281
12.2 Production and Storage of Oxidizing Substances: Experimental Setups / 283
12.3 Production of Hydroxyl Radicals with Conductive-Diamond Anodes / 284
12.4 Synthesis of Peroxoacids and Peroxosalts / 288
12.4.1 Peroxosulphuric Acids / 288
12.4.2 Peroxodiphosphate Salts / 292
12.4.3 Monoperoxophosphoric Acid / 296
12.5 Synthesis of Halogen Oxoanions / 300
12.5.1 Perchlorates / 300
12.5.2 Perbromates / 300
12.6 Synthesis of Ferrates / 301
12.7 Effect of the Type of Diamond on the Efficiency of the Production of
Oxidants / 305
12.8 Conclusions / 307
12.9 Acknowledgments / 308
References / 308
13. Ozone Generation Using Boron-Doped Diamond Electrodes 311
Yunny Meas, Luis A. Godinez, and Erika Bustos
13.1 Introduction / 311
13.2 Ozone / 311
13.2.1 Physical and Chemical Properties of Ozone / 312
13.2.2 Production of Ozone / 313
13.2.3 Importance of Ozone Applications / 313
13.2.4 Efficiency and Production / 315
13.3 Technologies for Producing Ozone / 317
13.3.1 Corona Discharge Technique / 317
13.3.2 Electrical Discharge Ozone Generators (EDOGs) / 319
13.3.3 Electrolytic Ozone Generators (ELOGs) / 319
13.3.3.1 Anodes for Electrochemically Producing Ozone / 320
13.3.3.2 Boron-Doped Diamond (BDD) / 323
13.4 Reaction Mechanism for the Production of Ozone with Boron-Doped
Diamond / 325
CONTENTS XIII
13.5 Conclusions / 326
References / 327
14. Application of Synthetic Diamond Films to Electro-Oxidation Processes 333
Marco Panizza
14.1 Introduction / 333
14.2 Application in Wastewater Treatment / 335
14.2.1 Oxidation in the Potential Region before Oxygen Evolution / 335
14.2.2 Oxidation in the Potential Region of Oxygen Evolution / 339
14.2.3 Influence of the Nature of Organic Pollutants / 342
14.2.4 Influence of the Concentrations of Organic Compounds / 343
14.2.5 Influence of the Applied Current Density / 343
14.2.6 Influence of the Flow Rate / 345
14.2.7 Influence of the Temperature / 345
14.2.8 Comparison with Other Electrode Materials / 346
14.3 Application in Organic Electrosynthesis / 347
14.4 Conclusions / 348
References / 349
15. Fabrication and Application of Ti/BDD for Wastewater Treatment 353
Xueming Chen and Guohua Chen
15.1 Fabrication of Stable Ti/BBD Electrodes / 353
15.1.1 Introduction / 353
15.1.2 HFCVD Facility / 354
15.1.3 HFCVD Parameter Optimization / 354
15.1.4 Reactive Gas Component Improvement / 357
15.1.5 Methods to Enhance the Service Life of Ti/BDD / 363
15.2 Use of Ti/BDD Electrodes for Wastewater Treatment / 365
15.2.1 Oxidation of Acetic and Maleic Acids / 365
15.2.2 Oxidation of Phenol / 365
15.2.3 Oxidation of Dyes / 366
15.3 Conclusions / 369
References / 369
16. Application of Diamond Films to Water Disinfection 373
Jessica H. Bezerra Rocha and Carlos A. Martinez-Huitle
16.1 Introduction / 373
XIV CONTENTS
16.2 Disinfection Water / 374
16.3 Science and Technology for Water Purification / 375
16.4 Electrochemical Disinfection/Purification Systems / 376
16.5 Diamond Films for Drinking Water Disinfection / 384
16.6 Production of Inorganic Disinfection by-Products and Inorganic Species
Elimination / 388
16.6.1 Chloride, Chlorite, and Chlorate Ions / 389
16.6.2 Perchlorate in Drinking Water / 392
16.6.3 Electrolysis of Nitrates / 394
16.7 Electrochemical Free-Chlorine Systems Using Diamond Films / 396
16.8 Conclusions / 400
References / 400
17. Fenton-EIectrochemical Treatment of Wastewaters for the
Oxidation of Organic Pollutants Using BDD 405
Enric Brillas
17.1 Introduction / 405
17.2 Fundamentals of Fenton s Electrochemistry / 406
17.3 Electrogeneration of H2O2 and Regeneration of Fe2+ / 409
17.4 Degradation of Organics in BDD/O2 Tank Reactors / 413
17.4.1 Herbicides / 414
17.4.2 Dyes / 417
17.4.3 Pharmaceuticals and Amino Acids Precursors / 420
17.5 Degradation of Organics in others Tank Reactors with a BBD Anode / 426
17.6 Degradation of Organics in Batch Recirculation BDD/O2 Flow Cells / 427
17.7 Conclusions / 433
References / 433
18. Electrochemical Energy Storage and Energy Conversion
Systems with Diamond Films 437
Juan M. Peralta-Herndndez, Aracely Hernandez-Ramirez,
Jorge L. Guzman-Mar, Laura Hinojosa-Reyes, Giancarlo R. Salazar-Banda,
and Carlos A. Martinez-Huitle
18.1 Introduction / 437
18.2 Different Techniques Used to Modify BDD Films / 438
18.2.1 Microemulsion Synthesis / 438
CONTENTS XV
18.2.2 Thermal Deposition / 443
18.2.3 Electrodeposition / 446
18.2.3.1 Electrodeposition of Metal Particles on BDD / 449
18.2.4 Sol-Gel Modification / 453
18.3 Application of Modified BDD Films as Electrocatalytic Surfaces for Fuel
Cells / 459
18.4 Application of BDD Films in Batteries / 466
18.5 Application of BDD Electrodes as Electrochemical Capacitors / 474
18.6 Conclusions / 477
References / 478
19. Use of Diamond Films in Organic Electrosynthesis 483
Siegfried R. Waldvogel, Axel Kirste, and Stamo Mentizi
19.1 Introduction / 483
19.2 Specific Features of BDD Electrodes / 485
19.3 Stability of BDD Electrodes in Organic Media / 487
19.4 Electrolysis Cells for BDD Electrodes for Organic Transformations / 489
19.5 Anodic Transformations on BBD Electrodes / 491
19.5.1 Alkoxylation Reactions / 491
19.5.2 Fluorination Reactions / 493
19.5.3 Cyanation Reactions / 494
19.5.4 Cleavage of C,C-Bonds / 495
19.5.5 Oxidation of Activated Carbon Atoms / 496
19.5.6 Anodic Phenol Coupling Reaction / 496
19.5.6.1 Anodic Homo-Coupling of Phenolic Substrates / 497
19.5.6.2 Nonsymmetrical Phenol Coupling and Phenol-Arene
Cross-Coupling Reaction / 499
19.6 Cathodic Synthesis on BDD Electrodes / 504
19.6.1 Reduction of Oximes / 504
19.6.2 Reductive Carboxylation / 505
19.7 Conclusions / 506
19.8 Acknowledgment / 506
References / 507
XVi CONTENTS
PARTV BIOELECTROCHEMICAL APPLICATIONS 511
20. Diamond Sensors for Neurochemistry 513
Bhavik Anil Patel
20.1 Introduction / 513
20.2 Central and Peripheral Nervous System / 513
20.3 The Process of Neurotransmission / 514
20.3.1 Neurotransmitters / 516
20.4 Electroanalytical Methods to Study Neurotransmitter Release / 517
20.4.1 Sensors Utilized / 519
20.5 Limitations of Current Techniques for In Vitro and In Vivo Monitoring / 520
20.5.1 Long-Term Recordings / 521
20.5.2 Fouling from Large Biomolecules / 523
20.5.3 Fouling from Redox Reaction By-Products / 525
20.6 Applications of Diamond Sensors and Devices in Neurochemistry / 529
20.6.1 Recording Neuronal Activity / 529
20.6.2 Single Cell Measurements of Vesicular Release / 530
20.6.3 Neurotransmitter Release from Sympathetic Nerves Innervating
Mesenteric Arteries / 531
20.6.4 Measuring Transmitter Release from the Gastrointestinal
Tract / 533
20.6.4.1 Detection of Histamine Release from
Enterochromaffin-Like Cells Located in the
Stomach / 534
20.6.4.2 Monitoring Serotonin Release from Enterochromaffin
Cells Located in the Mucosa / 535
20.6.4.3 Monitoring Nitric Oxide Release from Myenteric Plexus
Neurons / 537
20.6.5 Studying the Neurotransmitter Clearance Process / 538
20.6.5.1 Measurements of Multiple Transmitters from Brain
Synaptosomes / 539
20.6.5.2 Investigation of Serotonine Clearance by Transporters
Present on Lymphocytes / 540
20.6.6 In vitro and In vivo Measurements from the Central Nervous
System / 541
20.6.6.1 In vitro Measurements / 541
20.6.6.2 In vivo Measurements from Anesthetized Animals / 542
20.7 Conclusions and Outlook for the Future / 543
CONTENTS XVII
20.8 Acknowledgments / 544
References / 544
21. DNA-Modified Diamond Films 551
Nianjun Yang and Christoph E. Nebel
21.1 Introduction / 551
21.2 Diamond Transducer Properties / 558
21.2.1 CVD Diamond Growth / 558
21.2.2 Surface Terminations / 562
21.2.3 Diamond Nanotexture and Wire Formation / 564
21.3 Surface Modification of Diamond / 571
21.3.1 Photochemical Surface Modification of Intrinsic Diamond / 571
21.3.2 Electrochemical Surface Functionalization of Boron-Doped
Diamond / 582
21.3.3 Tip Functionalization of Diamond Nanotextures / 589
21.4 DNA Molecules on Diamond / 593
21.4.1 DNA Attachment / 593
21.4.2 Characterizations of DNA Layers / 595
21.5 Sensing of DNA Hybridization / 602
21.5.1 DNA Field Effect Transistor / 602
21.5.2 Cyclic Voltammetry and Impedance Spectroscopy / 606
21.5.3 DNA Sensing on Nanotextured Diamond Surfaces / 609
21.6 Summary and Outlook / 612
21.7 Acknowledgments / 614
References / 614
INDEX 621
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| discipline | Chemie / Pharmazie Physik |
| format | Book |
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| id | DE-604.BV039520496 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:05:23Z |
| institution | BVB |
| isbn | 9780470487587 9781118062364 |
| language | English |
| lccn | 2010053392 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024372993 |
| oclc_num | 748337718 |
| open_access_boolean | |
| owner | DE-29T DE-384 |
| owner_facet | DE-29T DE-384 |
| physical | XXVIII, 632 S., [8] Bl. Ill., graph. Darst. |
| publishDate | 2011 |
| publishDateSearch | 2011 |
| publishDateSort | 2011 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley series on electrocatalysis and electrochemistry |
| spelling | Synthetic diamond films preparation, electrochemistry, characterization, and applications ed. by Enric Brillas ... Hoboken, N.J. Wiley 2011 XXVIII, 632 S., [8] Bl. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley series on electrocatalysis and electrochemistry Includes index. Diamonds Electric properties Diamond thin films Brillas, Enric Sonstige oth Erscheint auch als Online-Ausgabe, EPUB 978-1-118-06235-7 Erscheint auch als Online-Ausgabe, PDF 978-1-118-06234-0 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024372993&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Synthetic diamond films preparation, electrochemistry, characterization, and applications Diamonds Electric properties Diamond thin films |
| title | Synthetic diamond films preparation, electrochemistry, characterization, and applications |
| title_auth | Synthetic diamond films preparation, electrochemistry, characterization, and applications |
| title_exact_search | Synthetic diamond films preparation, electrochemistry, characterization, and applications |
| title_full | Synthetic diamond films preparation, electrochemistry, characterization, and applications ed. by Enric Brillas ... |
| title_fullStr | Synthetic diamond films preparation, electrochemistry, characterization, and applications ed. by Enric Brillas ... |
| title_full_unstemmed | Synthetic diamond films preparation, electrochemistry, characterization, and applications ed. by Enric Brillas ... |
| title_short | Synthetic diamond films |
| title_sort | synthetic diamond films preparation electrochemistry characterization and applications |
| title_sub | preparation, electrochemistry, characterization, and applications |
| topic | Diamonds Electric properties Diamond thin films |
| topic_facet | Diamonds Electric properties Diamond thin films |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024372993&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT brillasenric syntheticdiamondfilmspreparationelectrochemistrycharacterizationandapplications |