ABSTRACT

Providing in-depth coverage of the technologies and various approaches, Luminous Chemical Vapor Deposition and Interface Engineering showcases the development and utilization of LCVD procedures in industrial scale applications. It offers a wide range of examples, case studies, and recommendations for clear understanding of this innovative science.

chapter 1|6 pages

Introduction

chapter 1|1 pages

TERMINOLOGY

chapter 3|1 pages

PLASMA-INDUCED POLYMERIZATION

chapter |1 pages

REFERENCES

chapter 1|1 pages

LUMINOUS COLUMNS IN DC DISCHARGE OF ARGON

chapter 2|3 pages

ELECTRON TEMPERATURE AND ELECTRON DENSITY

chapter 3|4 pages

PLASMA AND LUMINOUS GAS

chapter 4|1 pages

GLOW DISCHARGE OF ARGON AND OF ACETYLENE

chapter 5|3 pages

NEGATIVE GLOW IN DC DISCHARGE OF ARGON

chapter 7|4 pages

DISSOCIATION OF MOLECULE VS. IONIZATION

chapter 9|3 pages

6. Low-Pressure Cascade Arc Torch

chapter 2|1 pages

LCVD ON ELECTRODE AND IN GAS PHASE

chapter 6|3 pages

Influence of Frequency of Power Source

chapter |2 pages

REFERENCES

chapter 5|26 pages

Growth and Deposition Mechanisms

chapter 6|32 pages

Dangling Bonds

chapter 2|5 pages

Perfluorocarbons

chapter 2|6 pages

2. Electronegativity of Fluorine

chapter 4|4 pages

DERIVATIVES OF SILANE AND SILOXANE

chapter |2 pages

REFERENCES

chapter 8|28 pages

Deposition Kinetics

chapter 10|24 pages

Competitive Ablation and Polymerization

chapter 2|3 pages

CURLING OF BILAYER

chapter |2 pages

REFERENCES

chapter 1|2 pages

MODES OF OVERALL PROCESSING

chapter 5|2 pages

MONOMER FLOW RATE

chapter 6|4 pages

MEANING OF FLOW RATE IN AN LCVD SYSTEM

chapter 8|2 pages

CONTINUOUS LCVD

chapter 9|1 pages

SCALE-UP PRINCIPLE

chapter |1 pages

REFERENCES

chapter 4|5 pages

DC LCVD IN A CLOSED REACTOR SYSTEM

chapter |2 pages

REFERENCES

chapter 1|2 pages

APPLICABILITY OF MAGNETRONS IN LCVD

chapter 2|3 pages

Profile of Magnetic Field

chapter 2|7 pages

2. Cylindrical Electromagnetron

chapter 5|3 pages

2. Methane Plasma

chapter |1 pages

REFERENCES

chapter 15|28 pages

Anode Magnetron Discharge

chapter 16|28 pages

Low-Pressure Cascade Arc Torch

chapter 1|1 pages

ANODE MAGNETRON TORCH

chapter 2|2 pages

STRUCTURE OF ANODE MAGNETRON TORCH

chapter 4|1 pages

A COMPARISON OF AT AND AMT GLOW DISCHARGE

chapter 7|4 pages

2. Influence of Magnetic Field Strength

chapter 7|2 pages

3. Influence of System Pressure

chapter 7|2 pages

5. Influence of Gas Flow Rate

chapter |2 pages

REFERENCES

chapter 1|1 pages

PRIMARY PLASMA AND SECONDARY PLASMA

chapter 2|3 pages

‘‘SECONDARY PLASMA’’ REACTOR

chapter 5|3 pages

SURFACE MORPHOLOGY OF TREATED PTFE

chapter 6|2 pages

PULSED GLOW DISCHARGE

chapter |2 pages

REFERENCES

chapter 2|5 pages

DEPOSITION CHARACTERISTICS

chapter 3|3 pages

POLYMER COMPOSITION

chapter 4|5 pages

CHANGE OF DOMAIN BY SIZE OF REACTOR

chapter |1 pages

REFERENCES

chapter 1|3 pages

FLOW AND LUMINOUS GAS VOLUME

chapter 4|6 pages

Effect of Flow Pattern

chapter 7|4 pages

PINCHING OF LUMINOUS GAS PHASE

chapter |2 pages

REFERENCES

chapter 1|1 pages

METAL–POLYMER INTERFACE

chapter 2|2 pages

Transitional Buffering Film

chapter 7|2 pages

2. Composition Gradient Effects

chapter 7|1 pages

3. Effects of Substrate Type

chapter 7|1 pages

4. Effects of Electrolyte Additives

chapter 8|3 pages

DURABILITY

chapter |2 pages

REFERENCES

chapter 1|2 pages

NEEDS FOR TUMBLER REACTOR

chapter 3|1 pages

REACTOR WITH BASKETLIKE TUMBLER

chapter 4|3 pages

ELECTRODES FOR BASKETLIKE TUMBLER REACTOR

chapter |1 pages

REFERENCES

chapter 1|2 pages

SURFACE, INTERFACE AND SURFACE STATE

chapter 5|7 pages

DURABILITY AND BREAKDOWN OF SURFACE STATE

chapter 1|1 pages

REFERENCE STATE FOR SURFACE DYNAMICS

chapter 4|1 pages

Emersion or Drying of a Wet Surface

chapter 5|1 pages

Factors Involved in an Interface

chapter 10|1 pages

Surface Configuration Change in (Dry) Air

chapter 11|1 pages

SURFACE DYNAMICS OF HYDROPHILIC POLYMERS

chapter |2 pages

REFERENCES

chapter 1|1 pages

ENERGY BALANCE AT LIQUID/SOLID INTERFACE

chapter 2|3 pages

STATIC CONTACT ANGLE

chapter 5|2 pages

DYNAMIC CONTACT ANGLE

chapter 8|4 pages

CONTACT ANGLE HYSTERESIS

chapter 10|1 pages

LIQUID FILM ON SURFACE ON WILHELMY PLATE

chapter 13|4 pages

MEANING OF CONTACT ANGLE

chapter |2 pages

REFERENCES

chapter 3|1 pages

BUBBLE FORMATION FROM AN INCLINED SURFACE

chapter 6|2 pages

CRITERIA FOR WETTABILITY

chapter |1 pages

REFERENCES

chapter 4|1 pages

STEPS INVOLVED IN SAIE

chapter |2 pages

REFERENCES

chapter 1|3 pages

ORIGIN OF SURFACE DYNAMICAL INSTABILITY

chapter 3|2 pages

1. Nylon 6

chapter 3|5 pages

2. Poly(ethylene terephthalate)

chapter 4|3 pages

STABILITY OF TOP SURFACE OF LCVD FILM

chapter |2 pages

REFERENCES

chapter 30|38 pages

Creating Adhesion to Substrate Surface

chapter 31|30 pages

Corrosion Protection of Aluminum Alloys

chapter 2|1 pages

3. Functionalization of Membrane Surface

chapter 3|2 pages

LCVD ON NONPOROUS MEMBRANE

chapter 5|4 pages

2. Gas Separation Membrane

chapter 7|1 pages

MEMBRANE FOR GAS BUBBLING

chapter 8|1 pages

OXYGENATION OF BLOOD

chapter 9|1 pages

OXYGENATION OF WATER

chapter |1 pages

REFERENCES

chapter 1|1 pages

ENVIRONMENTALLY BENIGN (GREEN) PROCESSING