Search Results - "Rihani, Rashed T."

Liquid Crystal Elastomer-Based Microelectrode Array for In Vitro Neuronal Recordings by Rihani, Rashed T, Kim, Hyun, Black, Bryan J, Atmaramani, Rahul, Saed, Mohand O, Pancrazio, Joseph J, Ware, Taylor H

“…Polymer-based biomedical electronics provide a tunable platform to interact with nervous tissue both in vitro and in vivo. Ultimately, the ability to control…”
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Ruthenium oxide based microelectrode arrays for in vitro and in vivo neural recording and stimulation by Atmaramani, Rahul, Chakraborty, Bitan, Rihani, Rashed T., Usoro, Joshua, Hammack, Audrey, Abbott, Justin, Nnoromele, Patrick, Black, Bryan J., Pancrazio, Joseph J., Cogan, Stuart F.

“…We have characterized the in vitro and in vivo extracellular neural recording and stimulation properties of ruthenium oxide (RuOx) based microelectrodes…”
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High‐charge‐capacity sputtered iridium oxide neural stimulation electrodes deposited using water vapor as a reactive plasma constituent by Maeng, Jimin, Chakraborty, Bitan, Geramifard, Negar, Kang, Tong, Rihani, Rashed T., Joshi‐Imre, Alexandra, Cogan, Stuart F.

“…The deposition and properties of sputtered iridium oxide films (SIROFs) using water vapor as a reactive gas constituent are investigated for their potential as…”
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Responsive, 3D Electronics Enabled by Liquid Crystal Elastomer Substrates by Kim, Hyun, Gibson, John, Maeng, Jimin, Saed, Mohand O, Pimentel, Krystine, Rihani, Rashed T, Pancrazio, Joseph J, Georgakopoulos, Stavros V, Ware, Taylor H

“…Traditional electronic devices are rigid, planar, and mechanically static. The combination of traditional electronic materials and responsive polymer…”
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Deployable, liquid crystal elastomer-based intracortical probes by Rihani, Rashed T., Stiller, Allison M., Usoro, Joshua O., Lawson, Jennifer, Kim, Hyun, Black, Bryan J., Danda, Vindhya Reddy, Maeng, Jimin, Varner, Victor D., Ware, Taylor H., Pancrazio, Joseph J.

“…Intracortical microelectrode arrays (MEAs) are currently limited in their chronic functionality due partially to the foreign body response (FBR) that develops…”
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A patterned polystyrene-based microelectrode array for in vitro neuronal recordings by Hammack, Audrey, Rihani, Rashed T., Black, Bryan J., Pancrazio, Joseph J., Gnade, Bruce E.

“…Substrate-integrated microelectrode arrays (MEAs) are non-invasive platforms for recording supra-threshold signals, i.e. action potentials or spikes, from a…”
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Liquid crystal elastomers as substrates for 3D, robust, implantable electronics by Maeng, Jimin, Rihani, Rashed T, Javed, Mahjabeen, Rajput, Jai Singh, Kim, Hyun, Bouton, Ian G, Criss, Tyler A, Pancrazio, Joseph J, Black, Bryan J, Ware, Taylor H

“…New device architectures favorable for interaction with the soft and dynamic biological tissue are critical for the design of indwelling biosensors and neural…”
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