J
Jennah K. Kriebel
Researcher at Harvard University
Publications - 17
Citations - 8937
Jennah K. Kriebel is an academic researcher from Harvard University. The author has contributed to research in topics: Self-assembled monolayer & Adsorption. The author has an hindex of 15, co-authored 17 publications receiving 8383 citations. Previous affiliations of Jennah K. Kriebel include University of Illinois at Urbana–Champaign & University of Washington.
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Journal ArticleDOI
Self-assembled monolayers of thiolates on metals as a form of nanotechnology.
Journal ArticleDOI
Microfabricated Teflon Membranes for Low-Noise Recordings of Ion Channels in Planar Lipid Bilayers
TL;DR: The low-noise properties of bilayer recordings on micropores in Teflon AF films were exploited to record the smallest conductance state of alamethicin at an unprecedentedly high bandwidth of 10.7 kHz.
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Si/SiO2-Templated Formation of Ultraflat Metal Surfaces on Glass, Polymer, and Solder Supports: Their Use as Substrates for Self-Assembled Monolayers
Emily A. Weiss,George K. Kaufman,Jennah K. Kriebel,Zhefeng Li,Richard Schalek,George M. Whitesides +5 more
TL;DR: Template stripping thus eliminates the requirement for evaporation of the film immediately before use and is a significant extension and simplification of the technology of SAMs and other areas of materials science requiring clean metal surfaces.
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Influence of Defects on the Electrical Characteristics of Mercury-Drop Junctions: Self-Assembled Monolayers of n-Alkanethiolates on Rough and Smooth Silver
Emily A. Weiss,Ryan C. Chiechi,George K. Kaufman,Jennah K. Kriebel,Zhefeng Li,Marco Duati,Maria Anita Rampi,George M. Whitesides +7 more
TL;DR: The mechanisms of failure of the junctions, and the degree and sources of uncertainty in current density, are discussed with respect to a variety of defects that occur within Hg-drop junctions incorporating SAMs on silver.
Journal ArticleDOI
Molecular engineering of surfaces using self-assembled monolayers.
TL;DR: Understanding the principles by which monolayers form, and connecting molecular-level structure with macroscopic properties, opens a wide range of areas to study and exploitation.