G
Guenter W. Gross
Researcher at University of North Texas
Publications - 98
Citations - 6084
Guenter W. Gross is an academic researcher from University of North Texas. The author has contributed to research in topics: Neuron & Auditory cortex. The author has an hindex of 39, co-authored 98 publications receiving 5826 citations. Previous affiliations of Guenter W. Gross include Florida State University & Texas Woman's University.
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Journal ArticleDOI
Carbon nanotube coating improves neuronal recordings.
Edward W. Keefer,B. R. Botterman,Mario I. Romero,Mario I. Romero,Andrew F. Rossi,Guenter W. Gross +5 more
TL;DR: Carbon nanotube-coated electrodes are expected to improve current electrophysiological techniques and to facilitate the development of long-lasting brain-machine interface devices.
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The use of neuronal networks on multielectrode arrays as biosensors
TL;DR: This work presents strategies for the expression of novel supersensitivities to foreign molecules via genetic engineering that involves the grafting of ligand binding cDNA onto truncated native receptor DNA and the subsequent expression of such chimeric receptors.
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Microelectrode arrays: a physiologically based neurotoxicity testing platform for the 21st century.
Andrew F.M. Johnstone,Guenter W. Gross,Dieter G. Weiss,Olaf H.-U. Schroeder,Alexandra Gramowski,Timothy J. Shafer +5 more
TL;DR: The benefits and promise of MEA technology as a high throughput, rapid screening method for toxicity testing are highlighted and a discussion of emerging mathematical schemes that can be used for a rapid classification of drug or chemical effects are provided.
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Simultaneous Single Unit Recording in vitro with a Photoetched Laser Deinsulated Gold Multimicroelectrode Surface
TL;DR: Flat photoetched gold conductors, situated on a glass plate and deinsulated at their tips with single 8 ns UV laser pulses, have been utilized to record single unit extra-cellular activity from brain ganglia of the snail Helix pomatia.
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Transparent indium-tin oxide electrode patterns for extracellular, multisite recording in neuronal cultures
TL;DR: Glass plates coated with transparent thin film conductors of indium-tin oxide (ITO), 100 nm thick and 10 microns wide, have been successfully used to record spike potentials from neuronal monolayer cultures to accelerate the construction of high density recording patterns that could exceed 400 microelectrodes per mm2.