Digital selection and analogue amplification coexist in a cortex-inspired silicon circuit RHR Hahnloser, R Sarpeshkar, MA Mahowald, RJ Douglas, HS Seung nature 405 (6789), 947-951, 2000 | 1737 | 2000 |
Large-scale complementary integrated circuits based on organic transistors B Crone, A Dodabalapur, YY Lin, RW Filas, Z Bao, A LaDuca, ... Nature 403 (6769), 521-523, 2000 | 1587 | 2000 |
Analog versus digital: extrapolating from electronics to neurobiology R Sarpeshkar Neural computation 10 (7), 1601-1638, 1998 | 611 | 1998 |
An energy-efficient micropower neural recording amplifier W Wattanapanitch, M Fee, R Sarpeshkar IEEE Transactions on Biomedical Circuits and Systems 1 (2), 136-147, 2007 | 571 | 2007 |
Synthetic analog computation in living cells R Daniel, JR Rubens, R Sarpeshkar, TK Lu Nature 497 (7451), 619-623, 2013 | 511 | 2013 |
Feedback analysis and design of RF power links for low-power bionic systems MW Baker, R Sarpeshkar IEEE transactions on biomedical circuits and systems 1 (1), 28-38, 2007 | 430 | 2007 |
Ultra low power bioelectronics: fundamentals, biomedical applications, and bio-inspired systems R Sarpeshkar Cambridge University Press, 2010 | 424 | 2010 |
White noise in MOS transistors and resistors R Sarpeshkar, T Delbruck, CA Mead IEEE Circuits and Devices Magazine 9 (6), 23-29, 1993 | 402 | 1993 |
Low-power CMOS rectifier design for RFID applications S Mandal, R Sarpeshkar IEEE Transactions on Circuits and Systems I: Regular Papers 54 (6), 1177-1188, 2007 | 378 | 2007 |
A glucose fuel cell for implantable brain–machine interfaces BI Rapoport, JT Kedzierski, R Sarpeshkar PloS one 7 (6), e38436, 2012 | 308 | 2012 |
Organic oscillator and adaptive amplifier circuits for chemical vapor sensing BK Crone, A Dodabalapur, R Sarpeshkar, A Gelperin, HE Katz, Z Bao Journal of applied physics 91 (12), 10140-10146, 2002 | 265 | 2002 |
Organic field-effect transistors with polarizable gate insulators HE Katz, XM Hong, A Dodabalapur, R Sarpeshkar Journal of Applied Physics 91 (3), 1572-1576, 2002 | 255 | 2002 |
An ultra-low-power programmable analog bionic ear processor R Sarpeshkar, C Salthouse, JJ Sit, MW Baker, SM Zhak, TKT Lu, ... IEEE Transactions on Biomedical Engineering 52 (4), 711-727, 2005 | 229 | 2005 |
Design and fabrication of organic complementary circuits BK Crone, A Dodabalapur, R Sarpeshkar, RW Filas, YY Lin, Z Bao, ... Journal of Applied Physics 89 (9), 5125-5132, 2001 | 227 | 2001 |
A low-power wide-linear-range transconductance amplifier R Sarpeshkar, RF Lyon, C Mead Analog Integrated Circuits and Signal Processing 13, 123-151, 1997 | 207 | 1997 |
An ultra-low-power pulse oximeter implemented with an energy-efficient transimpedance amplifier M Tavakoli, L Turicchia, R Sarpeshkar IEEE transactions on biomedical circuits and systems 4 (1), 27-38, 2009 | 204 | 2009 |
A low-power blocking-capacitor-free charge-balanced electrode-stimulator chip with less than 6 nA DC error for 1-mA full-scale stimulation JJ Sit, R Sarpeshkar IEEE Transactions on Biomedical Circuits and Systems 1 (3), 172-183, 2007 | 192 | 2007 |
Display comprising organic smart pixels A Dodabalapur, R Sarpeshkar US Patent 6,384,804, 2002 | 192 | 2002 |
Power-efficient impedance-modulation wireless data links for biomedical implants S Mandal, R Sarpeshkar IEEE Transactions on Biomedical Circuits and Systems 2 (4), 301-315, 2008 | 188 | 2008 |
A low-power 32-channel digitally programmable neural recording integrated circuit W Wattanapanitch, R Sarpeshkar IEEE Transactions on Biomedical Circuits and Systems 5 (6), 592-602, 2011 | 184 | 2011 |