Polymers for High Technology: Electronics and PhotonicsExamines the ongoing electronic and photonic revolution and the fundamental, chemically related principles underlying these technologies. Provides reports on definitive advances in relatively mature technologies, and offers a better understanding of the new materials and processes needed to meet the demands of tomorrow's technology. Will serve as the stepping stone to further advances in polymer technology for chemists in both the industrial and academic sphere. |
Contents
Development of Radiation Chemistry | 5 |
Primary Action of Ionizing Radiation on Condensed Systems | 16 |
Historical Outline of Radiation Effects in Polymers | 31 |
Copyright | |
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Common terms and phrases
1987 American Chemical absorption adhesion American Chemical Society calculated chain Chem chip coating coefficient conducting polymers conductivity copolymers crosslinking cure curve decrease delamination density device diazonium salts dielectric dissolution rate dose e-beam electron encapsulant energy epoxy etch rate excited experimental exposure fiber film thickness graphite HTT's increase integrated circuit irradiation laser layer lithography materials measured molding compound molecular weight molecules monomer multilayer nonlinear nonlinear optical novolac obtained optical oxide package parameters pattern peak phenolic phenylacetylene photochemistry photolysis photoresist Phys planar PMMA PMQ3 polyacetylene polyamic acid polyimide polymer polymeric positive photoresist Proc properties radiation chemistry radical radiolysis ratio reaction resin resist room temperature RTV silicone sample sensitivity shown in Figure shows silicon solid soluble solution solvent spectra spectrum spin coated stress structure substrate surface thermal values wafer Willson yield