Polymer Degradation and Stability, 14, “The Effect of the Chemical Structure of Chain Ends on the Thermal Degradation of Polystyrene,” L. Costa, et al., 1986, pp. 85-91. |
European Polymer Journal, vol. 4, “A Study of the Thermal Degradation of Methyl Methacrylate Polymers and Copolymers by Thermal Volatilization Analysis,” I. C. McNeill, 1968, pp. 21-29. |
Advances in Polymer Science; vol. 141; “Nanoporous Polyimides,” Hedrick, et al.; pp. 1-43; 1999. |
Advances in Polymer Science; vol. 147; “Macroporous Thermosets by Chemically Induced Phase Separation;” Kiefer, et al.; pp. 161-247; 1999. |
Macromolecules; vol. 25; “New Thermal Cross-Linkers Based on Triazene: Cross-Linking of Fluorinated Polyimides and Aromatic Polymers;” Lau & Vo; pp. 7294-7299; 1992. |
Polymer Preprints (ACS); vol. 33; “3,3-Dimethyl-1-Phenylenetriazene End-Capped Oligomers of Fluorinated Aryl Ether;” Lau & Vo; pp. 996-997; 1992. |
Polym. Mater. Science Eng.; vol. 66; “Novel Crosslinking Reagents Based on 3,3-Dimethyl-1-Phenylenetriazene;” Lau & Vo; pp. 241-242; 1992. |
J. Polym. Sci.; Part A: Polym. Chem.; vol. 31; “Thermal Crosslinking of Polyimides and Polysulfone Using 3,3-Dimethyl-1-Phenyltriazene Compounds;” Lau, et al.; pp. 1093-1096; 1993. |
J. Polym. Sci.; Part A: Polymer Chemistry; vol. 32; “Self-Crosslinkable Poly(arylene Ether)s Containing Pendent Phenylenetriazene Groups;” Lau, et al.; pp. 1507-1521; 1994. |
Polym. Mater. Science Eng.; vol. 69, “Self-Crosslinkable Poly(arylene Ether)s Based on Phenylenetriazene Pendants;” Lau & Vo; pp. 242-243; 1993. |
Polymer; vol. 36, No. 25; “The Use of Styrenic Copolymers to Generate Polyimide Nanofoams;” Hedrick, et al.; pp. 4855-4866; 1995. |
Polymer; vol. 36; No. 23; “Polymide Foams Prepared from Homopolymer/Copolymer Mixtures;” Charlier, et al.; pp. 4529-4534; 1995. |
J. Polym. Science; Part A: Polymer Chemistry, vol. 34; “High Tg Polyimide Nanofoams Derived from Pyromellitic Dianhydride and 1,1-Bis(4-aminophenyl)-1-Phenyl-2,2,2-Trifluoroethane;” Hedrick, et al.; pp. 2867-2877; 1996. |
Polymer; vol. 36; No. 5; “High Temperature Polymer Nanofoams Based on Amorphous, High Tg Polyimides;” Hedrick, et al.; pp. 987-1002; 1995. |
Physics Today; “Block Copolymers—Designer Soft Materials;” Bates, et al.; pp. 32-38; Feb., 1999. |
Polymer Journal; vol. 17; No. 1; “A New Class of Polymers: Starburst-Dendritic Macromolecules;” Tomalia, et al.; pp. 117-132; 1985. |
J. Am. Chem. Soc..; vol. 112; “Preparation of Polymers with Controlled Molecular Architecture. A New Convergent Approach to Dendritic Macromolecules;” Hawker, et al.; pp. 7638-7647; 1990. |
J. Am. Chem. Soc.; vol. 113; “Hyperbranched Macromolecules via a Novel Double-Stage Convergent Growth Approach;” Wooley, et al.; pp. 4252-4261; 1991. |
Nature; vol. 391; “Controlling Polymer Shape Through the Self-Assembly of Dendritic Side-Groups;” Percec, et al.; pp. 161-164; 1998. |
J. Am. Chem. Soc.; vol. 119; “Rational Design of the First Spherical Supramolecular Dendrimers Self-Organized in a Novel Thermotropic Cubic Liquid-Crystalline Phase and the Determination of their Shape by X-ray Analysis;” Balagurusamy, et al.; pp. 1539-1555; 1997. |
High Perform. Polym.; vol. 7; “Polyimide Foams Derived from Poly(4,4′-Oxydiphenylpyromellitimide) and Poly(α-Methylstyrene);” Hedrick, et al.; pp. 133-147; 1995. |
Polymer; vol. 36; No. 5; “High Temperature Polymer Nanofoams Based on Amorphous, High Tg Polyimides;” Hedrick, et al.; pp. 987-1002; 1995. |
Polymer; vol. 40; “Non-Uniform Composition Profiles in Thin Film Polymeric Nanofoams;” Fodor, et al.; pp. 2547-2553; 1999. |
Adv. Mater.; vol. 10; No. 13; “Templating Nanoporosity in Thin-Film Dielectric Insulators;” Hedrick, et al.; pp. 1049-1053; 1998. |
“Recent Advances in Low K Polymeric Materials;” K. R. Carter; pp. 87-97; MRS Low K Dielectric Symposium III. |
Mat. Res. Soc. Symp. Proc.; vol. 381; “Polyimide Nanofoams for Low Dielectric Applications;” Carter, et al.; pp. 79-91; 1995. |
Appl. Phys. Lett.; vol. 68; “Structures and Dielectric Properties of Thin Polyimide Films with Nano-Foam Morphology;”Cha, et al.; pp. 1930-1932; 1996. |
Polymer; vol. 36; No. 6; “Crosslinked Polyimide Foams Derived From Pyromellitic Dianhydride and 1,1-bis(4-Aminophenyl)-1-Phenyl-2,2,3-Trifluoroethane with Poly(α-Methylstyrene);” Charlier, et al.; pp. 1315-1320; 1995. |
Appl. Phys. Lett., vol. 75, No. 6, “Dielectric property and microstructure of a porous polymer material with ultralow dielectric constant,” Xu et al., pp. 853-855, Aug. 9, 1999. |
“Templating nanopores into poly(methylsilsesquioxane): New low-dielectric coatings suitable for microelectronic applications;” Remenar, et al.; abstract in Low-Dielectric Constant Materials IV. Symposium, 1998. |
“Synthesis of Porous Polymers Utilizing Crystallization of Hydrophobic Long Alkyl Side Chains;” Minamitani, et al.; abstract; Kobunshi Ronbun, 1998, vol. 55, No. 3. |
J. Am. Chem. Soc. “Nanocages Derived from Shell Cross-Linked Micelle Templates,” Huang et al, 121, pp. 3805-3806, 1999. |