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Christopher J. Kloxin
Researcher at University of Delaware
Publications - 78
Citations - 5900
Christopher J. Kloxin is an academic researcher from University of Delaware. The author has contributed to research in topics: Polymerization & Polymer. The author has an hindex of 27, co-authored 76 publications receiving 4737 citations. Previous affiliations of Christopher J. Kloxin include North Carolina State University & University of Colorado Boulder.
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Covalent adaptable networks: smart, reconfigurable and responsive network systems.
TL;DR: A tutorial review on covalent adaptable networks (CANs), in which covalently crosslinked networks are formed such that triggerable, reversible chemical structures persist throughout the network, and how the application of a stimulus causes these materials to alter their shape, topography, and properties is provided.
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Covalent Adaptable Networks (CANs): A Unique Paradigm in Cross-Linked Polymers
TL;DR: The unique attributes of CANs that must be considered when designing, fabricating, and characterizing these smart materials that respond to either thermal or photochemical stimuli are discussed.
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Click Chemistry in Materials Science
TL;DR: Click chemistry has become one of the most powerful paradigms in materials science, synthesis, and modification as discussed by the authors, and has seen broad implementation in polymer functionalization, surface modification, block copolymer and dendrimer synthesis, biomaterials fabrication, biofunctionalization, and many other areas of materials science.
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Mechanical properties of cellularly responsive hydrogels and their experimental determination
April M. Kloxin,Christopher J. Kloxin,Christopher N. Bowman,Kristi S. Anseth,Kristi S. Anseth +4 more
TL;DR: Recent progress in cell‐responsive PEG hydrogel synthesis and mechanical property characterization is reviewed.
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Thiol-Yne Photopolymerizations: Novel Mechanism, Kinetics, and Step-Growth Formation of Highly Cross-Linked Networks.
Benjamin D. Fairbanks,Timothy F. Scott,Christopher J. Kloxin,Kristi S. Anseth,Christopher N. Bowman +4 more
TL;DR: A tetrafunctional thiol was photopolymerized with a difunctional alkyne, forming an inherently higher cross-link density than an analogous thiol−ene resin, displaying a higher glass transition temperature and rubbery modulus.