Plasma Processes and Polymers

This volume compiles essential contributions to the most innovative fields of Plasma Processes and Polymers. High-quality contributions cover the fields of plasma deposition, plasma treatment of polymers and other organic compounds, plasma processes under partial vacuum and at atmospheric pressure, biomedical, textile, automotive, and optical applications as well as surface treatment of bulk materials, clusters, particles and powders.
This unique collection of refereed papers is based on the best contributions presented at the 16th International Symposium on Plasma Chemistry in Taormina, Italy (ISPC-16, June 2003). A high class reference of relevance to a large audience in plasma community as well as in the area of its industrial applications.

Preface xvii

List of Contributors xix

Part I Plasma Deposition of Thin Films 1

1 Polymer Surface Modification with Monofunctional Groups of Different Type and Density 3
J. Friedrich, G. Kühn, R. mix

1.1 Introduction 3

1.2 Experimental 9

1.3 Results 10

1.3.1 Kinetics of the Deposition of Copolymers 10

1.3.2 Variation of the Density of Functional Groups 10

1.3.3 Structure and Stability of Copolymers 14

1.3.4 Relation between Functional Groups of Copolymers and Surface Energy 15

1.3.5 Relation between Functional Groups of Copolymers and Adhesion 15

1.4 Discussion 19

2 RF-Plasma Deposition of SiO_X and a-C:H as Barrier Coatings on Polymers 23
D. Hegemann, U. Schütz, C. Oehr

2.1 Introduction 23

2.2 Experimental 24

2.3 Results and Discussion 27

2.4 Conclusions 35

3 Upscaling of Plasma Processes for Carboxyl Functionalization 39
V. Sciarratta, D. Hegemann, M. Müller, U. Vohrer, C. Oehr

3.1 Introduction 39

3.2 Experimental 40

3.2.1 Materials 40

3.2.2 Plasma-Deposition Apparatus 40

3.2.3 Characterization Techniques 42

3.3 Results and Discussion 43

3.4 Conclusions 48

4 Deposition of Fluorocarbon Films on Al and SiO₂ Surfaces in High-Density Fluorocarbon Plasmas: Selectivity and Surface Wettability 51
A. Tserepi, P. Bayiati, E. Gogolides, K. Misiakos, Ch. Cardinaud

4.1 Introduction 51

4.2 Experimental 52

4.3 Results and Discussion 54

4.3.1 Etching and Deposition in C₄ F₈ Plasmas 54

4.3.2 Etching and Deposition Experiments in CHF₃ /CH₄ Plasmas 58

4.3.3 FC Film Characterization: Chemical Composition 60

4.4 Conclusions 63

5 Hot-wire Plasma Deposition of Doped DLC Films on Fluorocarbon Polymers for Biomedical Applications 65
V.N. Vasilets, A. Hirose, Q. Yang, A. Singh, R. Sammynaiken, Yu.M. Shulga, A.V. Kuznetsov, V.I. Sevastianov

5.1 Introduction 65

5.2 Experimental Details 66

5.2.1 Preparation of Samples 66

5.2.2 Plasma Deposition Technique 66

5.2.3 Surface Characterization 67

5.2.4 Platelet-Adhesion Technique 68

5.3 Results and Discussion 68

5.3.1 Characterization of Deposited Film 68

5.3.2 Platelet Adhesion 73

6 Properties of Silicon Nitride by Room-Temperature Inductively Coupled Plasma Deposition 77
H. Zhou, C. Sim, A. Glidle. C. Hodson, R. Kinsey, C. D. W. Wilkinson

6.1 Introduction 77

6.2 Experimental Systems 78

6.3 Results and Discussion 79

6.4 Conclusions 85

7 Structural Analysis of Diamond-like Carbon Films Deposited by RF (13.56 MHz) in a Methane Gas Plasma Atmosphere 87
M. Ouchabane, M. Aoucher, A. Sekkal, K. Henda and H. Lahmar

7.1 Introduction 87

7.2 Experimental Procedure 88

7.2.1 Deposition Apparatus 88

7.2.2 Experimental Conditions 89

7.3 Results and Discussions 90

7.3.1 X-ray Auger Electron Spectroscopy (XAES) 90

7.3.2 Electron Energy Loss Spectroscopy (EELS) 91

7.4 Conclusion 93

8 Rate constant of HMDSO + O reaction in plasma afterglow 95
Vít Kudrle, Vojtěch Doležal, Antonín Tálsk™, Jan Janča

8.1 Introduction 95

8.2 Experimental 96

8.3 Calculation of the rate constant 97

8.4 Results and discussion 99

8.5 Conclusion 101

9 Plasma-Enhanced Thin-Film Deposition On Polycarbonates 103
B. Ulejczyk, T. Opalinska, L. Karpinski, K. Schmidt-Szalowski

9.1 Introduction 103

9.2 Experimental 104

9.3 Results 106

9.4 Discussion 112

9.5 Conclusions 114

10 Molecular Tailoring Coating on TiO₂ Nanoparticle Surface by Plasma Polymerization 117
Jing Zhang, Feng Zhu, Changnian Shi, Li Sun, Ying Wang, Zhan Cheng, Ping Ji, Qinyu Yang, Ying Guo, Rongming Zhou, Hankun Xie, W. J. van Ooij, Jie Lian,Donglu Shi

10.1 Introduction 117

10.2 Experimental 119

10.3 Results and Discussions 120

10.3.1 Surface Morphology 120

10.3.2 Surface Molecular Structure 122

10.3.3 Dispersion Behavior of AA-Plasma-Polymer-Coated TiO₂ Nanoparticles 124

10.4 Conclusion 127

Part II Plasma-Grafting of Functional Groups 129

11 Introduction of Acidic Functional Groups onto the Surface of Activated Carbons by Atmospheric-Pressure Nonthermal Plasma 131
Satoshi Kodama and Hidetoshi Sekiguchi

11.1 Introduction 131

11.2 Experimental 132

11.2.1 Materials 132

11.2.2 Plasma Treatment of the Samples 132

11.2.3 Characterization 136

11.3 Results and Discussion 137

11.3.1 Surface Chemistry 137

11.3.2 Surface Morphology 140

11.4 Conclusion 142

12 Treatment of Flexible Polyethylene with Low-pressure Plasma to Improve its Painting Properties 143
Asunción Martínez-García, Alejandra Segura-Domingo, Ana Sánchez-Reche, Santiago Gisbert-Soler

12.1 Introduction 143

12.2 Experimental 144

12.2.1 Materials 144

12.2.2 Experimental Techniques 144

12.3 Results and Discussion 145

12.3.1 Effect of Treatment Time 145

12.3.2 Effect of Plasma Power 150

12.3.3 Effect of the Pressure inside the Chamber 152

12.3.4 Durability of the Treatment Effect 153

12.4 Conclusions 154

13 Surface Modification of PVDF by Microwave Plasma Treatment for Electroless Metallization 157
Mihaela Pascu, Dominique Debarnot, S. Durand, Fabienne Poncin-Epaillard

13.1 Introduction 157

13.2 Materials and Methods 158

13.3 Results and Discussion 160

13.3.1 Contact-Angle and Weight-Loss Measurements 160

13.3.2 Aging Studies 166

13.3.3 XPS results 168

13.3.4 Titration of the Surface Amino Groups 170

13.3.5 Wide-Angle X-ray Diffraction 171

13.3.6 Preliminary Results on PVDF Metallization 173

13.3.7 Assays on Piezoelectric Coefficient Determination 174

13.4 Conclusion 175

14 Different Performance of Ar, O₂ and CO₂ RF Plasmas in the Adhesion of Thermoplastic Rubber to Polyurethane Adhesive 177
Ana B. Ortiz-Magán, M. Mercedes Pastor-Blas, José Miguel Martín-Martínez

14.1 Introduction 177

14.2 Experimental 178

14.2.1 Materials 178

14.2.2 Experimental Techniques 179

14.3 Results and Discussion 180

14.4 Conclusions 191

15 Low-temperature Plasma Treatment of Dry Empress-Tree Seeds 193
N. Puač, Z.Lj. Petrović, S.Živković, Z. Giba, D. Grubišić and A.R. Đorđević

15.1 Introduction 193

15.2 Experimental Setup 194

15.2.1 Power Transmitted to the Plasma 195

15.3 Paulownia tomentosa Steud 197

15.4 Results and Discussion 198

15.5 Conclusion 202

16 Ion-induced Chemical and Structural Modification of Polymer Surfaces 205
G. Suchaneck, M. Guenther, G. Gerlach, K. Sahre, K.-J. Eichhorn, B. Wolf, A. Deyneka, L. Jastrabik

16.1 Ion Modification of Polymers 205

16.1.1 Modification of Polymer Properties 206

16.1.2 Energy Transfer from Ions to Polymer 206

16.1.3 Ion-modified Polymers for Sensor Application 206

16.1.4 Objective of this Work 207

16.2 Experimental 208

16.2.1 Sample Preparation 208

16.2.2 Evaluation of Structural Changes 209

16.2.3 Evaluation of Moisture Uptake 210

16.2.4 Electrical Measurements 210

16.3 Results and Discussion 211

16.3.1 Structural Changes 211

16.3.2 Moisture Uptake 216

16.3.3 Electrical Conductivity 219

16.4 Conclusions 219

17 Plasma-Enhanced Fluorination of Nitrile Butadiene Elastomer: an XPS study 223
A. Tressaud, E. Durand, C. Labrugère

17.1 Introduction 223

17.2 Experimental Procedure 224

17.2.1 Elastomer Samples 224

17.2.2 Fluorination Procedure: The Plasma-enhanced Fluorination (PEF) 224

17.2.3 XPS Characterization 225

17.3 Results and Comparison of the XPS Spectra 226

17.3.1 Plasma-enhanced Fluorination 226

17.3.2 Comparison with Direct F₂-gas Fluorination 228

17.4 Concluding Remarks 231

18 Plasma-Surface Modification of Styrene-Butadiene Elastomers for Improved Adhesion 233
J. Tyczkowski, I. Krawczyk, B. Woźniak

18.1 Introduction 233

18.2 Experimental 236

18.2.1 Materials 236

18.2.2 Plasma Treatment 236

18.2.3 Wet-chemical Treatment 237

18.2.4 Surface-characterization Techniques 237

18.3 Results and Discussion 238

18.3.1 Preliminary Peel Test 238

18.3.2 Plasma Chlorination 238

18.3.3 CO₂ and O₂ Plasma Treatment 246

18.4 Conclusion 250

19 PET Surface after Plasma or Laser Treatment: Study of the Chemical Modifications and Adhesive Properties 253
P. Laurens, S. Petit, P. Bertrand, F. Arćfi-Khonsari

19.1 Introduction 253

19.2 Experimental Details 254

19.3 Results 257

19.3.1 Untreated PET 257

19.3.2 Plasma-treated PET 259

19.3.3 Laser-treated PET 260

19.4 Discussion 264

19.4.1 Surface Oxidation 264

19.4.2 Surface Degradation 265

19.4.3 Al–PET Adhesion 267

19.5 Conclusion 268

20 Plasma Pretreatments and Treatments on Polytetrafluoroethylene for Reducing the Hydrophobic Recovery 271
P. Favia, A. Milella, L. Iacobelli, R. d’Agostino

20.1 Introduction 271

20.2 Experimental 273

20.3 Results and Discussion 274

20.4 Conclusions 279

21 Oxygen-plasma Modification of Polyhedral Oligomeric Silsesquioxane (POSS) containing Copolymers for Micro- and Nanofabrication 281
N. Vourdas, V. Bellas, E. Tegou, O. Brani, V. Constantoudis, P. Argitis, A. Tserepi and E. Gogolides, D. Eon, G. Cartry, C. Cardinaud

21.1 Introduction and Experimental Conditions 281

21.2 Results and Discussion 284

21.2.1 Etching of POSS Copolymers in Oxygen Plasmas 284

12.2 Surface Roughness of POSS Polymers after Plasma Treatment 287

21.3 Conclusions 291

Part III Plasma and Life Science 293

22 Radicals of Plasma Needle Detected with Fluorescent Probe 295
Ingrid E. Kieft, Joep J.B.N. van Berkel, Erik R. Kieft, Eva Stoffels

22.1 Introduction 295

22.2 Experimental 297

22.2.1 Plasma Needle 297

22.2.2 Raman Scattering 298

22.2.3 Fluorescent Probe 298

22.2.4 Calibration with NO Radicals 299

22.2.5 Plasma Treatment 301

22.3 Results and Discussion 301

22.3.1 Raman Scattering 301

22.3.2 The Fluorescent Probe Measurements 302

22.4 Conclusions 307

23 RF-Plasma Treatment on the Inside of Small Functional Devices for Biomedical Application 309
C. Oehr, D. Hegemann, M. Müller, U. Vohrer, M. Storr

23.1 Introduction 309

23.2 Experimental 310

23.3 Results and Discussion 311

23.3.1 Devices with Geometrically Well-described Trenches Oriented Parallel to the Applied Field 311

23.3.2 Devices with Geometrically Defined Trenches Oriented Nonparallel to the Applied Field 313

23.3.3 Devices with Pores in Micrometer Dimension 314

23.4 Conclusions 317

24 Plasma Sterilisation: Mechanisms Overview and Influence of Discharge Parameters 319
Francois Rossi, Riccardo De Mitri, Sophie Bobin and Rosy Eloy

24.1 Introduction 319

24.2 Experimental 320

24.3 Results 322

24.4 Discussion 329

24.5 Conclusions 330

25 Improvement of Low-pressure Microwave Plasma-assisted Amino Functionalization of Polymers 333
K. Schröder, B. Finke, A. Ohl

25.1 Introduction 333

25.2 Experimental 336

25.2.1 Plasma Processing 336

25.2.2 Surface Diagnostics 337

25.3 Results and Discussion 338

25.3.1 Amino Functionalization in the UHV Plasma System 338

25.3.2 Amino Functionalization in the Low-Vacuum Plasma Reactor 343

25.4 Summary 347

26 PE-CVD Modification of Medical-grade PVC to Inhibit Bacterial Adhesion: PEO-like and Nanocomposite Ag/PEO-like Coatings 351
D.J. Balazs, K. Triandafillu, E. Sardella, G. Iacoviello, P. Favia, R. d’Agostino, H. Harms, and H.J. Mathieu

26.1 Introduction 351

26.2 Materials and Methods 353

26.2.1 Substrate Preparation 353

2.2 Plasma-Deposition Processes 354

26.2.3 Protein Adsorption 355

26.2.4 XPS Analysis 355

26.2.5 Contact-Angle Measurements 356

26.2.6 Bacterial Adhesion 356

26.3 Results and Discussion 357

26.3.1 PEO-like Film Deposition 357

26.3.2 Ag/PEO-like Films 360

26.2.3 Evaluation of Protein Adsorption 365

26.3.4 Evaluation of Bacterial Adhesion 367

26.4 Conclusion 369

27 Plasma-aided Micropatterning of Polystyrene Substrates for Driving Cell Adhesion and Spreading 373
E. Sardella, R. Gristina, G.S. Senesi, R. d’Agostino, P. Favia

27.1 Introduction 373

27.2 Materials and Methods 375

27.2.1 Surface Modifications 375

27.2.2 Surface Diagnostic 375

27.2.3 Cell Culture 376

27.3 Results and Discussion 377

27.3.1 PD-PEO-l Coatings 377

27.3.3 Micropatterning of PEO-like Coatings 381

27.4 Conclusions 385

28 Plasma-deposited Acrylic Acid Coatings on Flat and Nanostructured Substrates for Cell-Culture Experiments 389
L. Detomaso, R. Gristina, G.S. Senesi, L.C. Lopez, P. Favia, R. d’Agostino

28.1 Introduction 389

28.2 Experimental 390

28.2.1 Substrates 390

28.2.2 Plasma Reactors and Processes 391

28.2.3 Surface Characterization 391

28.2.4 Cell-Culture Experiments 392

28.3 Results and Discussion 392

28.4 Conclusions 400

29 The Model for Origin of Life Precursors Based on Exhaust Utilisation in the Electric Discharge 403
Marcela Morvová, Imrich Morva, František Hanic

29.1 Introduction 403

29.2 Experimental 404

29.3 Conclusions 411

Part IV Chemical Synthesis, Powders and Non-Equilibrium Effects 413

30 Gliding-Discharge CF 2 Cl 2 and CHF 2 Cl Decomposition in Reducing Conditions 415
Teresa Opalińska, Anna Opalska, Krzysztof Schmidt-Szałowski

30.1 Introduction 415

30.2 Experimental 417

30.2.1 Experimental Setup 417

30.2.2 Chemical Analysis 418

30.2.3 Conditions of Experiments 418

30.2.4 Definition of the Process Parameters 419

30.3 Results and Discussion 420

30.3.1 Essential Parameters of the Process Characteristics 420

30.3.2 Main Reaction Products – Hydrocarbons and Carbon Black 422

30.3.3 Formation of Fluorine-containing Organic Compounds 424

30.3.4 Energetic Efficiency of the Process 426

30.4 Conclusions 426

31 The Oxidation of Streams for Diesel Fuels Formulations by Means of High-voltage Oxygen Plasmas 431
Pedro Patiño, Eugenio Farrera, and Aurora Mejía

31.1 Introduction 431

31.2 Experimental 432

31.2.1 Equipment 432

31.3 Results 433

31.3.1 Model Compounds 433

31.3.2 Streams and Fuel Oil 437

31.4 Discussion 437

31.5 Conclusions 439

32 Acetylene and Ethylene Carbon Blacks Production in Plasma Process 443
Tomasz Zieliński, Teresa Opalińska, Jacek Kijeński

32.1 Introduction 443

32.2 Experimental 444

32.2.1 Apparatus 444

32.2.2 Procedure 445

32.3 Results and Discussion 446

32.4 Conclusions 453

33 DCM Production in a Dusty-Plasma Trap 455
A. Ivanov, V. Mitin, A. Pal, A. Ryabinkin, A. Serov, E. Skryleva, A Starostin, V. Fortov, Yu. Shulga

33.1 Introduction 455

33.2 The Setup for DCM Production 456

33.3 Results and Discussion 458

33.3.1 Measurement of the Mean Nickel Content 459

33.3.2 Measurement of the Specific Surface 460

33.3.3 X-ray Diffraction Investigations 460

33.3.4 Magnetic Properties of the Processed Powder 461

33.3.5 X-ray Photoelectron Spectroscopy 462

33.4 Conclusion 463

34 Dust Particles in the dc Glow-Discharge Plasma: Self-organization and Peculiarities of Behavior 465
V.E. Fortov, A.G. Khrapak, V.I. Molotkov, O.F. Petrov, M.Y. Poustylnik, V.M. Torchinsky

34.1 Introduction 465

34.2 Experimental Setup 466

34.3 Plasma Crystals and Liquids 468

34.3.1 Structures of Spherical Grains 468

34.3.2 Plasma Liquid Crystal 469

34.4 Wave Phenomena 470

34.5 Diagnostics of the dc Glow-Discharge Plasma 472

34.5.1 Measurement of the Grain Charge 472

34.5.2 Application of Thermophoresis for Diagnostics of Dust-Particle Confinement 473

34.6 Conclusion 475

35 Controlled Growth of Carbon Nanotubes Using Pulsed Glow-Barrier Discharge 477
Tomohiro Nozaki, Yoshihito Kimura, Ken Okazaki, Shigeru Kado

35.1 Introduction 477

35.2 Experimental 478

35.3 General Aspects of Carbon-Nanotube Deposition with He-based APG 479

35.4 Aligned Nanotube Growth with Pulsed APG 481

35.4.1 Effect of Pulsed Voltage on Alignment 483

35.4.2 Growth Temperature and Pulse Duty 484

35.5 Concluding Remarks and Future Work 485

36 Investigation of Excited Species in a Carbon Ablation Plume in Nitrogen Gas Environment 489
M.A. Bratescu, Y. Sakai, N. Sakura, D. Yamaoka, Y. Suda and H. Sugawara

36.1 Introduction 489

36.2 Experimental Setup 490

36.3 Results and Discussion 492

36.4 Conclusions 497

37 Optimization of a DC-RF Hybrid Plasma Flow System Using Statistical Analysis 499
Kohtaro Kawajiri, Kandasamy Ramachandran and Hideya Nishiyama

37.1 Introduction 499

37.2 Experimental Apparatus and Procedures 500

37.3 Results and Discussion 503

37.3.1 Particle Residence Time 503

37.3.2 Appearance and Disappearance Voltages 505

37.3.3 Upper Limit of Injected Nitrogen Flow Rate 509

37.3.4 Downstream-Gas Temperature 514

37.3.5 Optimization 516

37.4 Conclusion 517

The editors are leading scientists worldwide, well known from their publications, their work as editors as well as from conference organizations
* Dr. Riccardo d'Agostino, Professor, Director of the Department of Chemistry, University of Bari, Italy
* Dr. Michael R. Wertheimer, Professor, NSERC Industrial Research Chair on Low Pressure Plasma Processing of Materials, Ecole Polytechnique, Montreal Canada
* Dr. Christian Oehr, Head of Dept. Interfacial Engineering, Fraunhofer Institute for Interfacial Engineering and Biotechnology, Stuttgart, Germany
* Dr. Pietro Favia, Associate Professor, Department of Chemistry, University of Bari This unique collection of refereed papers is based on the best contributions presented at the 16th International Symposium on Plasma Chemistry in Taormina, Italy (ISPC-16, June 2003). A high class reference of relevance to a large audience in the plasma community as well as in the area of its industrial applications.