John P. Seymour, Ph.D.

University of Michigan, Ann Arbor, Ann Arbor, MI 
systems electrophysiology, electrodes
"John Seymour"
Mean distance: 16.84 (cluster 51)


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Daryl Kipke grad student 2009 University of Michigan
 (Advanced polymer-based microfabricated neural probes using biologically driven designs.)
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Jiman AA, Ratze DC, Welle EJ, et al. (2020) Multi-channel intraneural vagus nerve recordings with a novel high-density carbon fiber microelectrode array. Scientific Reports. 10: 15501
Na K, Sperry ZJ, Lu J, et al. (2020) Novel diamond shuttle to deliver flexible neural probe with reduced tissue compression. Microsystems & Nanoengineering. 6: 37
Kim K, Vöröslakos M, Seymour JP, et al. (2020) Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes. Nature Communications. 11: 2063
Yan D, Bruns TM, Wu Y, et al. (2019) Ultracompliant Carbon Nanotube Direct Bladder Device. Advanced Healthcare Materials. e1900477
Kampasi K, English DF, Seymour J, et al. (2018) Dual color optogenetic control of neural populations using low-noise, multishank optoelectrodes. Microsystems & Nanoengineering. 4
Mendrela AE, Kim K, English D, et al. (2018) A High-Resolution Opto-Electrophysiology System With a Miniature Integrated Headstage. Ieee Transactions On Biomedical Circuits and Systems
Wellman SM, Eles JR, Ludwig KA, et al. (2018) A Materials Roadmap to Functional Neural Interface Design. Advanced Functional Materials. 28
Seymour JP, Wu F, Wise KD, et al. (2017) State-of-the-art MEMS and microsystem tools for brain research. Microsystems & Nanoengineering. 3: 16066
Kampasi K, Stark E, Seymour J, et al. (2016) Fiberless multicolor neural optoelectrode for in vivo circuit analysis. Scientific Reports. 6: 30961
Seymour JP, Langhals NB, Anderson DJ, et al. (2011) Novel multi-sided, microelectrode arrays for implantable neural applications. Biomedical Microdevices. 13: 441-51
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