Ordered bicontinuous nanoporous and nanorelief ceramic films from self assembling polymer precursors |
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Authors: | Chan Hoffman Lee Iatrou Avgeropoulos Hadjichristidis Miller Thomas |
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Affiliation: | Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139, USA. Mathematical Science Research Institute, Berkeley, CA, 94720, USA. IBM Almaden Research Center, San Jose, CA 95120, USA. Depa. |
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Abstract: | Three-dimensional ceramic nanostructured films were produced from silicon-containing triblock copolymer films exhibiting the double gyroid and inverse double gyroid morphologies (space group Ia3d). A one-step room-temperature oxidation process that used ozonolysis and ultraviolet irradiation effected both the selective removal of the hydrocarbon block and the conversion of the silicon-containing block to a silicon oxycarbide ceramic stable to 400 degrees C. Depending on the relative volume fraction of the hydrocarbon block to the silicon- containing block, either nanoporous or nanorelief structures were fabricated with calculated interfacial areas of approximately 40 square meters per gram and pore or strut sizes of approximately 20 nanometers. |
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