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View Generic Document: Nanoconfinement Effect on Morphology of Hybrid Systems Citation: Johansen, Kelly (2007). Nanoconfinement Effect on Morphology of Hybrid Systems. Cornell Center for Materials Research. Collection: Cornell Center for Materials Research REU Program     Attached Files Name Description MIMEType Size Downloads n2007_CCMR_REU_johansen.pdf   application/pdf 647.87KB 0 Title Nanoconfinement Effect on Morphology of Hybrid Systems Author(s) Johansen, Kelly Keyword(s) amphiphilic BCP Ceraset poly(isoprene-block-dimethylamino ethyl methacrylate) PI-b-PDMAEMA electrospinning confinement ceramics block copolymer Abstract/Summary In this research we used a block copolymer (BCP) and an inorganic precursor to form an organic/inorganic hybrid. By electrospinning these hybrids, internally structured nanofibers can be formed. These structured fibers are useful because they can significantly expand the applications of nanofibers to areas such as photonic fibers or multifunctional textiles. Publisher Cornell Center for Materials Research Date 2007-08-29 Copyright Notice Copyright 2007 CCMR. Materials from the CCMR website may not be used without permission. Copyright Agreement on Additional Notes Support for the CCMR is provided through the NSF Grant DMR 0520404, part of the NSF MRSEC Program. Additional support is provided by Cornell University, the State of New York, and by industrial sources.   User Comments   Created: Fri, 18 Jan 2008, 06:36:11 EST by Cathy Lowe. Detailed History

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