C
Caroline L. Schauer
Researcher at Drexel University
Publications - 87
Citations - 5689
Caroline L. Schauer is an academic researcher from Drexel University. The author has contributed to research in topics: Electrospinning & Nanofiber. The author has an hindex of 31, co-authored 78 publications receiving 5062 citations. Previous affiliations of Caroline L. Schauer include Tufts University & University College of Engineering.
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In Situ Cross-Linking of Alternating Polyelectrolyte Multilayer Films
TL;DR: In this paper, a water-soluble blocked diisocyanate was proven to support stable growth of bilayers with branched poly(ethylenimine), bPEI, in a layer-by-layer (LBL) technique.
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Self-Folding Textiles through Manipulation of Knit Stitch Architecture
TL;DR: In this paper, a preliminary study on finding predictable methods of controlling the self-folding behaviors of weft knit textiles for use in the development of smart textiles and garment devices, such as those with shape memory, auxetic behavior or transformation abilities.
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Aggrecan-like biomimetic proteoglycans (BPGs) composed of natural chondroitin sulfate bristles grafted onto a poly(acrylic acid) core for molecular engineering of the extracellular matrix.
Katsiaryna Prudnikova,S.E. Lightfoot Vidal,Sumona Sarkar,Tony Yu,Robert W. Yucha,N. Ganesh,Lynn S. Penn,Lin Han,Caroline L. Schauer,Edward J. Vresilovic,Michele Marcolongo +10 more
TL;DR: A novel biomimetic molecule composed of natural chondroitin sulfate bristles grafted onto an enzymatically-resistant synthetic core is demonstrated, which mimics a 3D architecture and charge density of the natural aggrecan, can be delivered via a simple injection and retained in tissue after equilibrium conditioning and loading.
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Fabrication and Characterization of Electrospun Semiconductor Nanoparticle—Polyelectrolyte Ultra-Fine Fiber Composites for Sensing Applications
TL;DR: Fluorescent composite fibrous assembles of nanoparticle-polyelectrolyte fibers are useful multifunctional materials, utilized in filtration, sensing and tissue engineering applications, with the added benefits of improved mechanical, electrical or structural characteristics over the individual components.
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Localized surface plasmon resonance of gold nanoparticle-modified chitosan films for heavy-metal ions sensing.
TL;DR: Gold nanoparticles were entrapped within, and in between, a cross-linked thin chitosan film, casted onto a glass substrate and their ability to sense various heavy metal ions was investigated utilizing the phenomenon of localized surface plasmon resonance (LSPR) visualized by UV/V is absorption spectroscopy.