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Preface | ||
1 | Recent Progress in Materials for Organic Electronics | 1 |
2 | PPV Nanotubes, Nanorods, and Nanofilms as well as Carbonized Objects Derived Therefrom | 15 |
3 | Layer-by-Layer Assembly of Molecular Materials for Electrooptical Applications | 30 |
4 | Oxidative Solid-State Cross-Linking of Polymer Precursors to Pattern Intrinsically Conducting Polymers | 44 |
5 | Fluorocarbon Polymer-Based Photoresists for 157-nm Lithography | 54 |
6 | 157-nm Resist Materials Using Main-Chain Fluorinated Polymers | 72 |
7 | Correlation of the Reaction Front with Roughness in Chemically Emplified Photoresists | 86 |
8 | Utilizing Near Edge X-ray Absorption Fine Structure to Probe Interfacial Issues in Photolithography | |
9 | Photolabile Ultrathin Polymer Films for Spatially Defined Attachment of Nano Elements | |
10 | Soft Lithography on Block Copolymer Films: Generating Functionalized Patterns on Block Copolymer Films as a Basis to Further Surface Modification | 129 |
11 | Nanoporous, Low-Dielectric Constant Organosilicate Materials Derived from Inorganic Polymer Blends | |
12 | Porous Low-k Dielectrics: Material Properties | |
13 | Ultra Low-k Dielectric Films with Ultra Small Pores Using Poragens Chemically Bonded to Siloxane Resin | 173 |
14 | Design of Nanoporous Polyarylene Polymers for Use as Low-k Dielectrics in Microelectronic Devices | |
15 | Molecular Brushes as Templating Agents for Nanoporous SiLK Dielectric Films | 199 |
16 | X-ray Reflectivity as a Metrology to Characterize Pores in Low-k Dielectric Films | 209 |
17 | Micro- and Nanoporous Materials Developed Using Supercritical CO[subscript 2]: Novel Synthetic Methods for the Development of Micro- and Nanoporous Materials Toward Microelectronic Applications | 223 |
18 | Thermally Degradable Photocross-Linking Polymers | 236 |
19 | Evaluation of Infrared Spectroscopic Techniques to Assess Molecular Interactions | 251 |
20 | Study on Metal Chelates as Catalysts of Epoxy and Anhydride Cure Reactions for No-Flow Underfill Applications | 264 |
21 | Benzocyclobutene-Based Polymers for Microelectronic Applications | 279 |
22 | Formation of Nanocomposites by In Situ Intercalative Polymerization of 2-Ethynylpyrdine in Layered Aluminosilicates: A Solid-State NMR Study | 294 |
Author Index | 309 | |
Subject Index | 311 |
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Add Polymers for Microelectronics and Nanoelectronics, Discusses patterning, insulating, and packaging polymeric materials for the $150-billion microelectronics industry as well as the rapidly emerging nanoelectronics and organic electronics industries. Chapters discuss patterning, insulating, and packag, Polymers for Microelectronics and Nanoelectronics to the inventory that you are selling on WonderClubX
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Add Polymers for Microelectronics and Nanoelectronics, Discusses patterning, insulating, and packaging polymeric materials for the $150-billion microelectronics industry as well as the rapidly emerging nanoelectronics and organic electronics industries. Chapters discuss patterning, insulating, and packag, Polymers for Microelectronics and Nanoelectronics to your collection on WonderClub |