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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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Antibacterial properties of electrospun Ti3C2Tz (MXene)/chitosan nanofibers
TL;DR: The results suggest that the electrospinning process to produce encapsulated delaminated Ti3C2Tz (MXene) flakes within chitosan nanofibers for passive antibacterial wound dressing applications are a promising candidate material in wound healing applications.
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Electrospinning of hyaluronic acid nanofibers from aqueous ammonium solutions
TL;DR: The use of a less basic (pH 11) aqueous ammonium hydroxide (NH4OH) solvent system, NH4OH:DMF, allowed for the fabrication of HA mats having an average fiber diameter of 39±12nm and no degradation effects were observed and the continuous electrospinning of pure HA fibers was possible.
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Preparation and characterization of polymer-Ti 3 C 2 T x (MXene) composite nanofibers produced via electrospinning
Elisa A. Mayerberger,Olga Urbanek,Riki M. McDaniel,Reva M. Street,Michel W. Barsoum,Caroline L. Schauer +5 more
TL;DR: In this article, the effect of small additions of delaminated Ti3C2 (MXene) flakes on the structure and properties of the nanofibers were investigated and compared with those of the neat polymer nanoftibers using scanning electron microscopy (SEM), TEM, and Fourier transform infrared spectroscopy (FT-IR).
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Chitosan cross-linking with a water-soluble, blocked diisocyanate. 1. Solid state.
TL;DR: The present investigation focuses on the synthesis and application of a cross-linking agent that is compatible with the solubility characteristics of chitosan, prepared as a bisulfite adduct to 1,6-hexamethylene diisocyanate, which proved to be stable for several weeks in aqueous, acidic chitOSan solutions at room temperature.
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Mechanical and microstructural characterization of an alkali-activated slag/limestone fine aggregate concrete
TL;DR: In this paper, four limestone-based, alkali-activated slag fine aggregate concretes were fabricated using different activating solutions (NaOH/waterglass or Na2CO3).