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Nathaniel J. Schuster
Researcher at Columbia University
Publications - 14
Citations - 562
Nathaniel J. Schuster is an academic researcher from Columbia University. The author has contributed to research in topics: Helicene & Circular dichroism. The author has an hindex of 10, co-authored 12 publications receiving 314 citations. Previous affiliations of Nathaniel J. Schuster include University of Missouri.
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Journal ArticleDOI
Electron Delocalization in Perylene Diimide Helicenes
Nathaniel J. Schuster,Daniel W. Paley,Steffen Jockusch,Fay Ng,Michael L. Steigerwald,Colin Nuckolls +5 more
TL;DR: Two new helicenes derived from the double fusion of an acene with two perylene diimide (PDI) subunits exhibit very different structural and electronic properties, despite differing by only a single ring in the link between the PDI units.
Journal ArticleDOI
A Helicene Nanoribbon with Greatly Amplified Chirality
Nathaniel J. Schuster,Raúl Hernández Sánchez,Daria Bukharina,Nicholas A. Kotov,Nina Berova,Fay Ng,Michael L. Steigerwald,Colin Nuckolls +7 more
TL;DR: A chiral, shape-persistent, perylene-diimide-based nanoribbon based on a helical superstructure with two [6]helicene subcomponents exhibits very intense electronic circular dichroism, including one of the largest Cotton effects ever observed in the visible range.
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Chirality Amplified: Long, Discrete Helicene Nanoribbons.
Xiao Xiao,Stephan K Pedersen,Stephan K Pedersen,Daniel Aranda,Jingjing Yang,Ren A Wiscons,Michael Pittelkow,Michael L. Steigerwald,Fabrizio Santoro,Nathaniel J. Schuster,Colin Nuckolls +10 more
TL;DR: In this article, two polyhelicene frameworks consisting, from end-to-end, of 18 and 24 fused benzene rings were synthesized and the latter exhibits the largest electronic circular dichroism in the visible spectrum of any molecule.
Journal ArticleDOI
The Structural Origins of Intense Circular Dichroism in a Waggling Helicene Nanoribbon.
Nathaniel J. Schuster,Leo A. Joyce,Daniel W. Paley,Fay Ng,Michael L. Steigerwald,Colin Nuckolls +5 more
TL;DR: The synthesis of a new perylene-diimide-based helical nanoribbon, which exhibits the largest molar electronic circular dichroism in the visible range of any molecule, and implicates the configuration of the double-[6]helicene within the larger nanorIBbon as the source of the observed chiroptical amplification.
Journal ArticleDOI
Anthracene Diphosphate Ligands for CdSe Quantum Dots; Molecular Design for Efficient Upconversion
Jonathan De Roo,Jonathan De Roo,Zhiyuan Huang,Nathaniel J. Schuster,Leslie S. Hamachi,Daniel N. Congreve,Zihao Xu,Pan Xia,Dmitry A. Fishman,Tianquan Lian,Jonathan S. Owen,Ming Lee Tang +11 more
TL;DR: Quantum dot (QD)-sensitized photon upconversion follows a multi-step energy transfer process from the QD to transmitter ligand to a soluble annihilator.