G
Gregory A. Sotzing
Researcher at University of Connecticut
Publications - 209
Citations - 9059
Gregory A. Sotzing is an academic researcher from University of Connecticut. The author has contributed to research in topics: Electrochromism & Conductive polymer. The author has an hindex of 47, co-authored 199 publications receiving 8103 citations. Previous affiliations of Gregory A. Sotzing include California Institute of Technology & University of Florida.
Papers
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Journal ArticleDOI
Cross-reactive chemical sensor arrays.
Keith J. Albert,Nathan S. Lewis,Caroline L. Schauer,Gregory A. Sotzing,Shannon E. Stitzel,Thomas P. Vaid,David R. Walt +6 more
TL;DR: Conventional approaches to chemical sensors have traditionally made use of a “lock-and-key” design, wherein a specific receptor is synthesized in order to strongly and highly selectively bind the analyte of interest.
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High Contrast Ratio and Fast-Switching Dual Polymer Electrochromic Devices
TL;DR: A series of dual polymer electrochromic devices (ECDs) based on 12 complementary pairs of conducting polymer films have been constructed using 3,4-ethylenedioxythiophene-containing conducting polymers as discussed by the authors.
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Electrochromic conducting polymers via electrochemical polymerization of bis(2-(3,4-ethylenedioxy)thienyl) monomers
TL;DR: A series of bis(2-(3,4-ethylenedioxy)thiophene)-based monomers have been synthesized and fully characterized as discussed by the authors, and they exhibit low redox switching potentials and are quite stable in the conducting state.
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Rational design of all organic polymer dielectrics
Vinit Sharma,Chenchen Wang,Robert G. Lorenzini,Rui Ma,Qiang Zhu,Daniel W. Sinkovits,Ghanshyam Pilania,Artem R. Oganov,Sanat K. Kumar,Gregory A. Sotzing,Steven A. Boggs,Rampi Ramprasad +11 more
TL;DR: A strategy of hierarchical modelling with successive downselection stages to accelerate the identification of polymer dielectrics that have the potential to surpass 'standard' materials for a given application is proposed.
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Conductivity Trends of PEDOT-PSS Impregnated Fabric and the Effect of Conductivity on Electrochromic Textile
TL;DR: A stretchable e-textile was fabricated by simply soaking Spandex fabric in a conductive polymer aqueous dispersion, PEDOT-PSS, and revealed that the electrochromic polymer coated on the substrate separated under stretching, uncovering the color of the base conducting fabric.