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Nathan C. Gianneschi
Researcher at Northwestern University
Publications - 256
Citations - 10013
Nathan C. Gianneschi is an academic researcher from Northwestern University. The author has contributed to research in topics: Chemistry & Polymer. The author has an hindex of 47, co-authored 218 publications receiving 7446 citations. Previous affiliations of Nathan C. Gianneschi include University of California, Berkeley & University of California, San Diego.
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Journal ArticleDOI
Phase Diagrams of Polynorbornene Amphiphilic Block Copolymers in Solution
TL;DR: A phase diagram of the self-assemblies was constructed for each of the various copolymer systems screened, representing the first of its kind for polynorbornene block copolymers in dilute solutions as discussed by the authors.
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Polymer brush hypersurface photolithography.
Carlos Carbonell,Daniel J. Valles,Daniel J. Valles,Alexa M. Wong,Alexa M. Wong,Andrea S. Carlini,Mollie A. Touve,Joanna Korpanty,Nathan C. Gianneschi,Adam B. Braunschweig +9 more
TL;DR: A printing approach which allows independent control of the monomer composition and feature height of each pixel in a pattern, while circumventing the need for expensive photomasks is demonstrated.
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Developing injectable nanomaterials to repair the heart
TL;DR: The translational applicability of both intramyocardial and intravenous applications may provide safe and effective solutions upon optimizing the timing of the treatments and biodistribution.
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Transmission Electron Microscopy Reveals Deposition of Metal Oxide Coatings onto Metal–Organic Frameworks
Michael S. Denny,Lucas R. Parent,Joseph P. Patterson,Joseph P. Patterson,Santosh Kumar Meena,C. Huy Pham,Patricia Abellan,Quentin M. Ramasse,Francesco Paesani,Nathan C. Gianneschi,Seth M. Cohen +10 more
TL;DR: Detailed characterization by several analytical methods reveal that metal ion deposition on the surface of these MOFs occurs in the form of nanoscale metal oxides, rather than yielding exchanged metal sites within the MOFs, as was previously reported.
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Labelling polymers and micellar nanoparticles via initiation, propagation and termination with ROMP
Matthew P. Thompson,Lyndsay M. Randolph,Carrie R. James,Ashley N. Davalos,Michael E. Hahn,Nathan C. Gianneschi +5 more
TL;DR: This paper explored the incorporation of functionality via initiation, termination and propagation employing an array of novel initiators, termination agents and monomers for ROMP to allow the generation of selectively labelled and well-defined polymers that would in turn lead to the formation of labelled nanomaterials.