G
Gregory J. Exarhos
Researcher at Pacific Northwest National Laboratory
Publications - 194
Citations - 9933
Gregory J. Exarhos is an academic researcher from Pacific Northwest National Laboratory. The author has contributed to research in topics: Raman spectroscopy & Thin film. The author has an hindex of 47, co-authored 194 publications receiving 9424 citations. Previous affiliations of Gregory J. Exarhos include Brown University & Battelle Memorial Institute.
Papers
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Journal ArticleDOI
Glycine-nitrate combustion synthesis of oxide ceramic powders
Lawrence A. Chick,Larry R. Pederson,Gary D. Maupin,J.L. Bates,L.E. Thomas,Gregory J. Exarhos +5 more
TL;DR: A new combustion synthesis method, the glycine-nitrate process, has been used to prepare oxide ceramic powders, including substituted chromite and manganite powders of high quality.
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A Soft Approach to Encapsulate Sulfur: Polyaniline Nanotubes for Lithium‐Sulfur Batteries with Long Cycle Life
Lifen Xiao,Yuliang Cao,Yuliang Cao,Jie Xiao,Birgit Schwenzer,Mark H. Engelhard,Laxmikant V. Saraf,Zimin Nie,Gregory J. Exarhos,Jun Liu +9 more
TL;DR: A novel vulcanized polyaniline nanotube/sulfur composite was prepared successfully via an in situ vulcanization process by heating a mixture of polyAniline Nanotube and sulfur at 280 °C.
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Thermosensitive Gold Nanoparticles
TL;DR: Thermosensitive gold nanoparticles were fabricated by conjugating Au with a thiol-terminated poly(N-isopropylacrylamide) or PPA; this polymer stabilizer exhibits a temperature transition while undergoing a hydrophilic to hydrophobic transformation.
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Direct Assembly of Large Arrays of Oriented Conducting Polymer Nanowires
TL;DR: The assembly of large arrays of oriented nanowires through controlled nucleation and growth during a stepwise electrochemical deposition process in which a large number of nuclei were first deposited on the substrate using a large current density is reported.
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High‐Dielectric‐Constant Silver–Epoxy Composites as Embedded Dielectrics
TL;DR: In this paper, an epoxy-based composite containing randomly distributed silver nanoparticles with a narrow size distribution centered around 40nm is presented, which is the basis of a prototype capacitor formed by spin coating the synthesized Ag-epoxy (40nm Ag) mixture onto a gold-deposited aluminum substrate.