J
Jennifer E. Klare
Researcher at Columbia University
Publications - 11
Citations - 2151
Jennifer E. Klare is an academic researcher from Columbia University. The author has contributed to research in topics: Molecular electronics & Coulomb blockade. The author has an hindex of 11, co-authored 11 publications receiving 1994 citations. Previous affiliations of Jennifer E. Klare include St. John's University.
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Journal ArticleDOI
Dependence of single-molecule junction conductance on molecular conformation
Latha Venkataraman,Jennifer E. Klare,Colin Nuckolls,Mark S. Hybertsen,Michael L. Steigerwald +4 more
TL;DR: Amine link groups are used to form single-molecule junctions with more reproducible current–voltage characteristics and it is found that the conductance for the series decreases with increasing twist angle, consistent with a cosine-squared relation predicted for transport through π-conjugated biphenyl systems.
Journal ArticleDOI
Covalently Bridging Gaps in Single-Walled Carbon Nanotubes with Conducting Molecules
Xuefeng Guo,Joshua P. Small,Jennifer E. Klare,Yiliang Wang,Meninder Purewal,Iris W. Tam,Byung Hee Hong,Robert Caldwell,Limin Huang,Stephen O'Brien,Jiaming Yan,Ronald Breslow,Shalom J. Wind,James Hone,Philip Kim,Colin Nuckolls +15 more
TL;DR: This work describes a method to wire molecules into gaps in single-walled carbon nanotubes (SWNTs) and shows how to install functionality in the molecular backbone that allows the conductance of the single-molecule bridges to switch with pH.
Journal ArticleDOI
Cruciform π-systems for molecular electronics applications
Jennifer E. Klare,George S. Tulevski,Kenji Sugo,Anat de Picciotto,Kiley A. White,Colin Nuckolls +5 more
TL;DR: This study details a modular and general synthesis of a new class of molecules consisting of cruciform pi-systems, an unprecedented double Staudinger cyclization that prevented the prone conformation in these rigid compounds.
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Encoding Molecular‐Wire Formation within Nanoscale Sockets
TL;DR: A method to integrate chemical synthesis with the formation of nanoscale electrical “sockets” to allow the in situ construction of three-component molecular wires through the implementation of a two-step reaction sequence between molecular-scale electrodes.
Journal ArticleDOI
Single-Molecule Devices as Scaffolding for Multicomponent Nanostructure Assembly
Xuefeng Guo,Adam C. Whalley,Jennifer E. Klare,Limin Huang,Stephen O'Brien,Michael L. Steigerwald,Colin Nuckolls +6 more
TL;DR: Through a combination of programmed chemical reactions and molecular recognition, the method to integrate discrete multicomponent assembly into molecular electronic devices is reported, able to create complex multimeric nanostructure incorporating isolated metallic nanoparticles.