chapter 1 Introduction -- chapter 1 TERMINOLOGY -- chapter 2 PARYLENE POLYMERIZATION AND PLASMA POLYMERIZATION -- chapter 3 PLASMA-INDUCED POLYMERIZATION -- chapter REFERENCES -- chapter 1 LUMINOUS COLUMNS IN DC DISCHARGE OF ARGON -- chapter 2 ELECTRON TEMPERATURE AND ELECTRON DENSITY -- chapter 3 PLASMA AND LUMINOUS GAS -- chapter 4 GLOW DISCHARGE OF ARGON AND OF ACETYLENE -- chapter 5 NEGATIVE GLOW IN DC DISCHARGE OF ARGON -- chapter 6 CATHODE GLOW IN GLOW DISCHARGE OF TRIMETHYLSILANE -- chapter 7 DISSOCIATION OF MOLECULE VS. IONIZATION -- chapter 8 ONION LAYER STRUCTURE OF LUMINOUS GAS PHASE -- chapter 9 MODE OF DISCHARGE AND ONION LAYER STRUCTURE 9.1. DC -- chapter 9 6. Low-Pressure Cascade Arc Torch -- chapter 1 POLYMERIZABLE SPECIES VS. PHOTON-EMITTING SPECIES -- chapter 2 LCVD ON ELECTRODE AND IN GAS PHASE -- chapter 3 CHANGE OF GAS PHASE COMPOSITION WITH DISCHARGE TIME -- chapter 4 CHANGE OF DISSOCIATION GLOW AND IONIZATION GLOW WITH REACTION TIME -- chapter 5 MIXTURE OF POLYMERIZABLE AND NONPOLYMERIZABLE GASES -- chapter 6 Influence of Frequency of Power Source -- chapter 7 POLYMERIZABLE SPECIES CREATED IN DC CATHODE GLOW -- chapter 8 POLYMERIZABLE SPECIES CREATED IN JET STREAM OF LUMINOUS GAS -- chapter 9 ROLE OF FREE RADICALS IN LUMINOUS CHEMICAL VAPOR DEPOSITION -- chapter REFERENCES -- chapter 5 Growth and Deposition Mechanisms -- chapter 6 Dangling Bonds -- chapter 1 HYDROCARBONS AND THEIR DERIVATIVES 1.1. Chemical Structure -- chapter 1 2. Effect of Chemical Structure Investigated by Pulsed Discharge -- chapter 2 Perfluorocarbons -- chapter 2 2. Electronegativity of Fluorine -- chapter 2 3. Chemical Reactivity of F in Luminous Gas -- chapter 3 INCORPORATION OF NONPOLYMERIZABLE GASES IN PLASMA POLYMERS -- chapter 4 DERIVATIVES OF SILANE AND SILOXANE -- chapter REFERENCES -- chapter 8 Deposition Kinetics -- chapter 9 Ablation by Luminous Gas (Low Pressure Plasma) -- chapter 10 Competitive Ablation and Polymerization -- chapter 1 CAUSE OF INTERNAL STRESS IN PLASMA POLYMER -- chapter 2 CURLING OF BILAYER -- chapter 3 INTERNAL STRESS IN GLOW DISCHARGE POLYMERS -- chapter 4 INTERNAL STRESS IN PLASMA POLYMERS PREPARED BY LPCAT -- chapter 5 INTERNAL STRESS AS A FUNCTION OF NORMALIZED ENERGY INPUT PARAMETER -- chapter 6 CORRELATION BETWEEN INTERNAL STRESS AND REFRACTIVE INDEX -- chapter REFERENCES -- chapter 1 MODES OF OVERALL PROCESSING -- chapter 2 PRESSURE OF A STEADY-STATE FLOW SYSTEM (WITHOUT PRESSURE CONTROL) -- chapter 4 FACTORS THAT DETERMINE PRESSURE UNDER A GLOW DISCHARGE IN FLOW -- chapter 5 MONOMER FLOW RATE -- chapter 6 MEANING OF FLOW RATE IN AN LCVD SYSTEM -- chapter 7 ADSORPTION OF MONOMER ON SUBSTRATE AND REACTOR WALL SURFACES -- chapter 8 CONTINUOUS LCVD -- chapter 9 SCALE-UP PRINCIPLE -- chapter REFERENCES -- chapter 1 CATHODIC POLYMERIZATION VS. PLASMA POLYMERIZATION IN NEGATIVE GLOW -- chapter 1 1. Trimethylsilane Deposition on Electrode.

chapter 1 2. Trimethylsilane Deposition on Floating Substrate -- chapter 2 ROLE OF ANODE IN DC CATHODIC POLYMERIZATION -- chapter 3 TMS DEPOSITION ON MULTIPLE CATHODES WITHOUT ANODE ASSEMBLY -- chapter 4 DC LCVD IN A CLOSED REACTOR SYSTEM -- chapter REFERENCES -- chapter 1 APPLICABILITY OF MAGNETRONS IN LCVD -- chapter 2 Profile of Magnetic Field -- chapter 2 2. Cylindrical Electromagnetron -- chapter 3 Effect of Magnetic Field on the Breakdown Voltage -- chapter 3 Effect of Magnetic Field on Voltage–Current Diagram -- chapter 5 Effect of Magnetic Field on the Sputtering of Electrode Materials -- chapter 5 2. Methane Plasma -- chapter 6 Effect of Magnetic Field on the Deposition Rate of Plasma Polymer -- chapter 7 Significance of Magnetron Discharge in LCVD -- chapter REFERENCES -- chapter 15 Anode Magnetron Discharge -- chapter 16 Low-Pressure Cascade Arc Torch -- chapter 1 ANODE MAGNETRON TORCH -- chapter 2 STRUCTURE OF ANODE MAGNETRON TORCH -- chapter 3 DISTRIBUTION OF ANODE MAGNETIC FIELD STRENGTH -- chapter 4 A COMPARISON OF AT AND AMT GLOW DISCHARGE -- chapter 5 Effects of Physical Parameters in AMT Glow Discharge -- chapter 6 Influence of Various Parameters on the CDST in AMT Glow Discharge -- chapter 7 Influence of Operating Parameters on Sputter Cleaning -- chapter 7 2. Influence of Magnetic Field Strength -- chapter 7 3. Influence of System Pressure -- chapter 7 5. Influence of Gas Flow Rate -- chapter REFERENCES -- chapter 1 PRIMARY PLASMA AND SECONDARY PLASMA -- chapter 2 ‘‘SECONDARY PLASMA’’ REACTOR -- chapter 3 Comparison of In-Glow and Off-Glow Treatments -- chapter 4 In-Glow and Off-Glow Treatment Without Ion and Electron Bombardment -- chapter 5 SURFACE MORPHOLOGY OF TREATED PTFE -- chapter 6 PULSED GLOW DISCHARGE -- chapter REFERENCES -- chapter 1 Tubular Reactors with Different Diameters -- chapter 2 DEPOSITION CHARACTERISTICS -- chapter 3 POLYMER COMPOSITION -- chapter 4 CHANGE OF DOMAIN BY SIZE OF REACTOR -- chapter REFERENCES -- chapter 1 FLOW AND LUMINOUS GAS VOLUME -- chapter 3 DEPOSITION OF SLOWLY-POLYMERIZING MONOMER IN TUBULAR REACTOR -- chapter 4 Effect of Flow Pattern -- chapter 5 Combined Effect of Flow Pattern and Energy Input -- chapter 6 DEPOSITION ON ELECTRODE IN A BELL JAR TYPE OF REACTOR -- chapter 7 PINCHING OF LUMINOUS GAS PHASE -- chapter REFERENCES -- chapter 1 METAL–POLYMER INTERFACE -- chapter 2 Transitional Buffering Film -- chapter 3 DEPOSITION OF METAL-CONTAINING POLYMER FILMS -- chapter 5 DIRECT ELECTROPLATING ONTO COMPOSITION-GRADED COMPOSITE FILMS -- chapter 5 1. Substrate/Evaporation Deposited (EVD) Copper or Silver/Electrocopper (EVD Process) -- chapter 6 Composition-Graded Transitional Buffering Film/Electrocopper -- chapter 7 ADHESION 7.1. Effects of Oxygen-Hydrogen Plasma Pretreatment -- chapter 7 2. Composition Gradient Effects -- chapter 7 3. Effects of Substrate Type -- chapter 7 4. Effects of Electrolyte Additives -- chapter 8 DURABILITY -- chapter REFERENCES -- chapter 1 NEEDS FOR TUMBLER REACTOR -- chapter 3 REACTOR WITH BASKETLIKE TUMBLER -- chapter 4 ELECTRODES FOR BASKETLIKE TUMBLER REACTOR -- chapter 1 Molecular Configuration vs. Surface Configuration -- chapter 2 SURFACE CHARACTERISTICS OF GELATIN GEL AND OF AGAR-AGAR GEL -- chapter 3 OXYGEN ATOMS NEAR THE TOP SURFACE OF ETHYLENE–VINYL ALCOHOL COPOLYMER -- chapter 4 O Atoms Detectable by XPS in Teflon PFA Film -- chapter REFERENCES -- chapter 1 SURFACE, INTERFACE AND SURFACE STATE -- chapter 2 EQUILIBRATION OF SURFACE STATE ELECTRONS ON CONTACT -- chapter 3 Depth of Surface State and Influence of Bulk Phase -- chapter 4 Influence of the Surface State of Contacting Phase -- chapter 5 DURABILITY AND BREAKDOWN OF SURFACE STATE -- chapter 6 Significance of Surface Modification by LCVD -- chapter 1 REFERENCE STATE FOR SURFACE DYNAMICS.

chapter 2 INCORPORATION OF TAGGING ATOMS BY PLASMA TREATMENT -- chapter 3 POLYMER SURFACES IN DRY CONDITION 3.1. Without Incorporation of Tagging Atoms -- chapter 3 Immersion of a Dry Polymer in Liquid Water -- chapter 4 Emersion or Drying of a Wet Surface -- chapter 5 Factors Involved in an Interface -- chapter 7 MOLECULAR INTERACTION VS. INTERFACIAL INTERACTION -- chapter 8 INTERFACIAL TENSION BETWEEN POLYMER SURFACE AND LIQUID WATER -- chapter 9 Surface Configuration Change When Polymer is Immersed in Water -- chapter 10 Surface Configuration Change in (Dry) Air -- chapter 11 SURFACE DYNAMICS OF HYDROPHILIC POLYMERS -- chapter 12 HYDROPHILIC POLYMERS IMMERSED IN LIQUID WATER -- chapter 13 SAMPLES EXPOSED TO HIGH HUMIDITY (INSTEAD OF WATER IMMERSION) -- chapter REFERENCES -- chapter 1 ENERGY BALANCE AT LIQUID/SOLID INTERFACE -- chapter 2 STATIC CONTACT ANGLE -- chapter 4 ADVANCING AND RECEDING SESSILE DROPLET CONTACT ANGLES -- chapter 5 DYNAMIC CONTACT ANGLE -- chapter 6 CHANGE OF MENISCUS SHAPE DURING IMMERSION AND EMERSION PROCESSES -- chapter 7 WILHELMY DYNAMIC CONTACT ANGLES AND WETTABILITY -- chapter 8 CONTACT ANGLE HYSTERESIS -- chapter 9 CORRELATION BETWEEN WILHELMY (DYNAMIC) AND SESSILE DROPLET (STATIC) CONTACT ANGLES -- chapter 10 LIQUID FILM ON SURFACE ON WILHELMY PLATE -- chapter 11 WILHELMY FORCE LOOPS AND FLUID HOLDING TIME -- chapter 12 Effect of Wilhelmy Balance Parameters on Fluid Holding Time -- chapter 13 MEANING OF CONTACT ANGLE -- chapter REFERENCES -- chapter 1 SESSILE DROPLET CONTACT ANGLE VS. SESSILE BUBBLE CONTACT ANGLE -- chapter 2 FORCE BALANCE IN A DEVELOPING SESSILE BUBBLE -- chapter 3 BUBBLE FORMATION FROM AN INCLINED SURFACE -- chapter 4 BUBBLE DETACHMENT FROM THE HYDROPHILIC SURFACE -- chapter 5 DETACHMENT OF DRIFTED BUBBLES FROM THE AMPHOTERIC SURFACE -- chapter 6 CRITERIA FOR WETTABILITY -- chapter REFERENCES -- chapter 1 SYSTEM APPROACH INTERFACE ENGINEERING FOR CORROSION PROTECTION -- chapter 2 CORROSION TESTS AND QUANTITATIVE EVALUATION OF RESULTS -- chapter 3 PITTING CORROSION BENEATH UNDAMAGED COATING -- chapter 4 STEPS INVOLVED IN SAIE -- chapter 5 NONELECTROCHEMICAL PRINCIPLE OF CORROSION PROTECTION -- chapter 6 ROLE OF ADHESION IN ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY -- chapter 7 Effects of Interfacial Damage on Corrosion Protection -- chapter 7 2. Concurrent EIS Measurement with Prohesion Salt Spray -- chapter REFERENCES -- chapter 1 ORIGIN OF SURFACE DYNAMICAL INSTABILITY -- chapter 2 CORRELATION BETWEEN SURFACE DYNAMIC STABILITY AND BARRIER CHARACTERISTICS -- chapter 3 SEGMENTAL MOBILITY OF THE SUBSTRATE POLYMER -- chapter 3 1. Nylon 6 -- chapter 3 2. Poly(ethylene terephthalate) -- chapter 4 STABILITY OF TOP SURFACE OF LCVD FILM -- chapter REFERENCES -- chapter 30 Creating Adhesion to Substrate Surface -- chapter 31 Corrosion Protection of Aluminum Alloys -- chapter 32 Corrosion Protection of Ion Vapor–Deposited Aluminum -- chapter 33 Corrosion Protection of Cold-Rolled Steel and Pure Iron -- chapter 1 GENERAL PRINCIPLES IN MEMBRANE APPLICATION OF LUMINOUS CHEMICAL VAPOR DEPOSITION AND LUMINOUS GAS TREATMENT -- chapter 2 LUMINOUS GAS TREATMENT 2.1. Luminous Gas Treatment of Microporous Membrane -- chapter 2 2. Luminous Gas Treatment of Nonporous Membrane to Increase the Selectivity -- chapter 2 3. Functionalization of Membrane Surface -- chapter 3 LCVD ON NONPOROUS MEMBRANE -- chapter 4 LCVD ON NONPOROUS/POROUS COMPOSITE MEMBRANE -- chapter 5 2. Gas Separation Membrane -- chapter 6 MACROPOROUS MEMBRANE FOR GAS/LIQUID REACTIONS -- chapter 7 MEMBRANE FOR GAS BUBBLING -- chapter 8 OXYGENATION OF BLOOD -- chapter 9 OXYGENATION OF WATER -- chapter 7 1. Data Obtained by a Model Membrane with Single Hole -- chapter REFERENCES -- chapter 35 Application of Luminous Chemical Vapor Deposition in Biomaterials -- chapter 1 ENVIRONMENTALLY BENIGN (GREEN) PROCESSING -- chapter 2 LCVD TO REPLACE AN EXISTING HAZARDOUS PROCESS -- chapter 3 1. Continuous LCVD Coating (Front-End Approach) -- chapter 3 3. Comparison of Cost for Front-End and Rear-End Approaches.