69 research outputs found
Janssens, Nancy interview for the Miami Valley College of Nursing and Health Oral History Project
Donna Miles Curry and Emily Pingrey interviewed Nancy Janssens about the Wright State University College of Nursing and Health. In the interview Ms. Janssens discusses her education at Wright State University
Partial Automorphism Semigroups
We study the relationship between algebraic structures and their inverse semigroups of partial automorphisms. We consider a variety of classes of natural structures including equivalence structures, orderings, Boolean algebras, and relatively complemented distributive lattices. For certain subsemigroups of these inverse semigroups, isomorphism (elementary equivalence) of the subsemigroups yields isomorphism (elementary equivalence) of the underlying structures. We also prove that for some classes of computable structures, we can reconstruct a computable structure, up to computable isomorphism, from the isomorphism type of its inverse semigroup of computable partial automorphisms
Sulfated Cellulose Nanofibrils from Chlorosulfonic Acid Treatment and Their Wet Spinning into High-Strength Fibers
Streamlined Synthesis of Sulfated Cellulose Nanofibrils using Chlorosulfonic Acid and Their Applications in Conducting Materials
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Streamlined Synthesis of Sulfated Cellulose Nanofibrils using Chlorosulfonic Acid and Their Applications in Conducting Materials
Cellulose nanofibrils (CNF) are one-dimensional semicrystalline nanomaterials liberated from native cellulose through chemical or mechanical processes, or some combination thereof. Individually, they possess high mechanical strength, with estimated tensile strength and Young’s modulus as high as 7.5 GPa and 150 GPa, respectively. They also serve as a diverse platform for further chemical modification due to their abundant surface hydroxyl groups, which can be functionalized through a wide array of chemical reactions. Isolating CNF from cellulose can be an energy intensive process and chemical pretreatments are often utilized to reduce the required energy expenditure.Herein a streamlined scheme for producing sulfated cellulose nanofibrils (SCNF) is proposed and optimized, utilizing chlorosulfonic acid to simultaneously functionalize cellulose while also acting as a pretreatment to facilitate defibrillation into nanofibrils. Through careful manipulation of reaction conditions, SCNF are produced with a wide range of sulfation levels without destroying the underlying cellulose 1β crystalline structure.
Utilizing wet-spinning, SCNF was spun into fibers with a tensile strength and Young’s modulus of 675 MPa and 26 GPa, respectively. It was also demonstrated that SCNF could serve as host polyelectrolytes for the conducting polymer poly(3,4-ethylenedioxythiophene) (PEDOT) to create dispersible polyelectrolyte complexes, with shear-mediated alignment of nanofibrils allowing for the creation of fibers with a conductivity of more than 6000 S/cm. Additionally, SCNF were able to aid in aqueous exfoliation of graphite flakes and dispersion of graphene, producing exclusively monolayers and bilayers
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