S
Shenda M. Baker
Researcher at Harvey Mudd College
Publications - 62
Citations - 2063
Shenda M. Baker is an academic researcher from Harvey Mudd College. The author has contributed to research in topics: Neutron reflectometry & Copolymer. The author has an hindex of 19, co-authored 58 publications receiving 1921 citations. Previous affiliations of Shenda M. Baker include Keck Graduate Institute of Applied Life Sciences & University of Patras.
Papers
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Journal ArticleDOI
Integration of self-assembled diblock copolymers for semiconductor capacitor fabrication
Charles T. Black,Kathryn W. Guarini,Keith Raymond Milkove,Shenda M. Baker,Thomas P. Russell,Mark T. Tuominen +5 more
TL;DR: In this article, a self-organizing diblock copolymer system with semiconductor processing is combined to produce silicon capacitors with increased charge storage capacity over planar structures.
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Antibacterial action of a novel functionalized chitosan-arginine against Gram-negative bacteria.
Hong Tang,Peng Zhang,Thomas L. Kieft,Shannon Ryan,Shenda M. Baker,William P. Wiesmann,Snezna Rogelj +6 more
TL;DR: Studies using fluorescent probes, 1-N-phenyl-naphthylamine (NPN), nile red (NR) and propidium iodide (PI), and field emission scanning electron microscopy (FESEM) suggest that chitosan-arginine's antibacterial activity is, at least in part, due to its interaction with the cell membrane, in which it increases membrane permeability.
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Electric field induced instabilities at liquid/liquid interfaces
Zhiqun Lin,T Kerle,Shenda M. Baker,David Hoagland,Erik Schäffer,Ullrich Steiner,Thomas P. Russell +6 more
TL;DR: In this article, external electric fields were used to amplify thermal fluctuations at the interface between two thin liquid films, and features developed nearly 50 times faster for the bilayers in comparison to the polymer/air case.
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Tailoring exchange bias with magnetic nanostructures
TL;DR: In this paper, a copolymer nanolithography technique has been used to construct antiferromagnet/ferromagnetic bilayers with feature sizes of about 200 AA(n).
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Isothermal DNA amplification coupled with DNA nanosphere-based colorimetric detection.
Eric Tan,Jennifer Wong,Doris Nguyen,Yolanda Zhang,Barbara Erwin,Lori K. Van Ness,Shenda M. Baker,David J. Galas,Angelika Niemz +8 more
TL;DR: A simple, rapid method for detecting short DNA sequences that combines a novel isothermal amplification method (EXPAR) with visual, colorimetric readout based on aggregation of DNA-functionalized gold nanospheres that will be a powerful tool in the development of rapid and simple point-of-care molecular diagnostic applications.