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David Boinagrov
David Boinagrov
Department of Physics, Stanford University
Verified email at stanford.edu
Title
Cited by
Cited by
Year
Selectivity of direct and network-mediated stimulation of the retinal ganglion cells with epi-, sub-and intraretinal electrodes
D Boinagrov, S Pangratz-Fuehrer, G Goetz, D Palanker
Journal of neural engineering 11 (2), 026008, 2014
1722014
Strength–duration relationship for extracellular neural stimulation: numerical and analytical models
D Boinagrov, J Loudin, D Palanker
Journal of neurophysiology 104 (4), 2236-2248, 2010
1182010
Photovoltaic pixels for neural stimulation: circuit models and performance
D Boinagrov, X Lei, G Goetz, TI Kamins, K Mathieson, L Galambos, ...
IEEE transactions on biomedical circuits and systems 10 (1), 85-97, 2015
832015
Upper threshold of extracellular neural stimulation
D Boinagrov, S Pangratz-Fuehrer, B Suh, K Mathieson, N Naik, ...
Journal of neurophysiology 108 (12), 3233-3238, 2012
542012
Anisotropy of the vortex structure and resistivity in the basal plane of YBa2Cu4O8 single crystals
LY Vinnikov, DÉ Boĭnagrov, VN Zverev, IS Veshchunov, J Karpinski
Journal of Experimental and Theoretical Physics 109, 280-285, 2009
52009
Photovoltaic restoration of sight with high visual acuity in rats with retinal degeneration
D Palanker, G Goetz, H Lorach, Y Mandel, R Smith, D Boinagrov, X Lei, ...
Ophthalmic Technologies XXV 9307, 50-54, 2015
42015
Reply to rattay
D Boinagrov, D Palanker
Journal of Neurophysiology 112 (10), 2666-2666, 2014
22014
Photovoltaic restoration of sight in rats with retinal degeneration: assessment of spatial resolution and visual functions
DV Palanker, H Lorach, GA Goetz, Y Mandel, R Smith, D Boinagrov, X Lei, ...
Investigative Ophthalmology & Visual Science 55 (13), 5964-5964, 2014
22014
Direct observation order–disorder transition in flux line lattice BSCCO (2212) at low temperatures
LY Vinnikov, TL Pavlova, DE Boinagrov, IS Veshchunov, DV Matveev
Journal of Physics: Conference Series 150 (5), 052280, 2009
22009
Intra-retinal electrical stimulation: comparison to epi-and sub-retinal approaches
D Boinagrov, S Pangratz-Fuehrer, K Mathieson, G Goetz, L Galambos, ...
Investigative Ophthalmology & Visual Science 54 (15), 1025-1025, 2013
12013
Selectivity of epiretinal stimulation depends on waveform and pulse width
S Pangratz-Fuehrer, N Naik, D Boinagrov, DV Palanker
Investigative Ophthalmology & Visual Science 53 (14), 5527-5527, 2012
12012
Characteristics of Retinal Stimulation with Monopolar and Bipolar Subretinal Microelectrode Array
D Boinagrov, K Matheison, G Goetz, L Galambos, D Palanker
Investigative Ophthalmology & Visual Science 53 (14), 5544-5544, 2012
12012
Upper Threshold of Extracellular Stimulation in Retinal Ganglion Cells
D Boinagrov, S Pangratz-Fuehrer, SH Kim, NA Naik, K Mathieson, ...
Investigative Ophthalmology & Visual Science 52 (14), 4956-4956, 2011
12011
Photovoltaic restoration of high visual acuity in rats with retinal degeneration
H Lorach, G Goetz, Y Mandel, R Smith, D Boinagrov, X Lei, R Dalal, ...
2015 7th International IEEE/EMBS Conference on Neural Engineering (NER), 248-251, 2015
2015
Electrical Neural Stimulation and Its Application to High-Resolution Retinal Prosthesis
D Boinagrov
Stanford University, 2014
2014
Restoration of Sight with High Resolution Photovoltaic Subretinal Prosthesis
D Palanker, H Lorach, G Goetz, Y Mandel, R Smith, D Boinagrov, X Lei, ...
OPHTHALMOLOGICA 232, 14-15, 2014
2014
Retinal Stimulation With a Photovoltaic Subretinal Prosthesis
J Loudin, K Mathieson, D Boinagrov, A Sher, D Palanker
Investigative Ophthalmology & Visual Science 51 (13), 4321-4321, 2010
2010
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