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ORCIDJacob K. Rosenstein
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2020 – today
- 2024
[j6]Manar Abdelatty
, Joseph Incandela, Kangping Hu, Pushkaraj S. Joshi, Joseph W. Larkin, Sherief Reda, Jacob K. Rosenstein:
Electrical Capacitance Tomography of Cell Cultures on a CMOS Microelectrode Array. IEEE Trans. Biomed. Circuits Syst. 18(4): 799-809 (2024)- 2023
- [c25]Manar Abdelatty, Joseph Incandela, Kangping Hu, Joseph W. Larkin, Sherief Reda, Jacob K. Rosenstein:
Microscale 3-D Capacitance Tomography with a CMOS Sensor Array. BioCAS 2023: 1-5 - [i3]Manar Abdelatty, Joseph Incandela, Kangping Hu, Joseph W. Larkin, Sherief Reda, Jacob K. Rosenstein:
Microscale 3-D Capacitance Tomography with a CMOS Sensor Array. CoRR abs/2309.09039 (2023) - 2022
- [j5]Kangping Hu, Jason Ho, Jacob K. Rosenstein:
Super-Resolution Electrochemical Impedance Imaging With a 512 × 256 CMOS Sensor Array. IEEE Trans. Biomed. Circuits Syst. 16(4): 502-510 (2022) - [c24]Pushkaraj S. Joshi, Kangping Hu, Joseph W. Larkin, Jacob K. Rosenstein:
Programmable Electrochemical Stimulation on a Large-Scale CMOS Microelectrode Array. BioCAS 2022: 439-443 - [c23]Kangping Hu, Joseph Incandela, Xiaoyu Lian, Joseph W. Larkin, Jacob K. Rosenstein:
A 13.1mm2 512 × 256 Multimodal CMOS Array for Spatiochemical Imaging of Bacterial Biofilms. CICC 2022: 1-2 - 2021
- [c22]Kangping Hu, Christopher E. Arcadia, Jacob K. Rosenstein:
Super-Resolution Electrochemical Impedance Imaging with a 100 × 100 CMOS Sensor Array. BioCAS 2021: 1-4 - [c21]Kangping Hu, Christopher E. Arcadia, Jacob K. Rosenstein:
A Fringe Field Shaping CMOS Capacitive Imaging Array. IEEE SENSORS 2021: 1-4 - [c20]Christopher E. Arcadia, Kangping Hu, Slava Epstein, Meni Wanunu, Aaron Adler, Jacob K. Rosenstein:
CMOS Electrochemical Imaging Arrays for the Detection and Classification of Microorganisms. ISCAS 2021: 1-5 - 2020
- [c19]Shanshan Dai, Kangping Hu, Jacob K. Rosenstein:
A Segmented SAR/SS ADC with Digital Error Correction and Programmable Resolution for Column-Parallel Sensor Arrays. ISCAS 2020: 1-5 - [c18]Shanshan Dai, Caleb R. Tulloss, Xiaoyu Lian, Kangping Hu, Sherief Reda, Jacob K. Rosenstein:
Low Power Current-Mode Relaxation Oscillators for Temperature and Supply Voltage Monitoring. VLSI-SoC (Selected Papers) 2020: 39-63 - [c17]Xiaoyu Lian, Sherief Reda, Jacob K. Rosenstein:
Simultaneous Estimation of Temperature and Voltage from Digital Delay Diversity. VLSI-SOC 2020: 40-45 - [c16]Shanshan Dai, Caleb R. Tulloss, Xiaoyu Lian, Kangping Hu, Sherief Reda, Jacob K. Rosenstein:
Temperature and Supply Voltage Monitoring with Current-mode Relaxation Oscillators. VLSI-SOC 2020: 192-197
2010 – 2019
- 2019
- [c15]Kangping Hu, Eamonn Kennedy, Jacob K. Rosenstein:
High Frequency Dielectric Spectroscopy Array with Code Division Multiplexing for Biological Imaging. BioCAS 2019: 1-4 - [c14]Kangping Hu, Xiaoyu Lian, Shanshan Dai, Jacob K. Rosenstein:
Noise CMOS ISFETs Using In-Pixel Chopping. BioCAS 2019: 1-4 - [c13]Pratistha Shakya, Eamonn Kennedy, Christopher Rose, Jacob K. Rosenstein:
Time Series Feature Extraction for Machine Olfaction. IEEE SENSORS 2019: 1-4 - [i2]Jacob K. Rosenstein, Christopher Rose, Sherief Reda, Peter M. Weber, Eunsuk Kim, Jason Sello, Joseph Geiser, Eamonn Kennedy, Christopher E. Arcadia, Amanda Dombroski, Kady Oakley, Shui Ling Chen, Hokchhay Tann, Brenda M. Rubenstein:
Principles of Information Storage in Small-Molecule Mixtures. CoRR abs/1905.02187 (2019) - 2018
- [j4]Marco Carminati, Jacob K. Rosenstein, Roland Thewes, Hoi-Jun Yoo:
Guest Editorial Special Issue on Advances and Open Challenges for Integrated Circuits Detecting Bio Molecules. IEEE Trans. Biomed. Circuits Syst. 12(6): 1334-1336 (2018) - [j3]Mustafa Ozmen, Eamonn Kennedy, Jacob Rose, Pratistha Shakya, Jacob K. Rosenstein, Christopher Rose:
High Speed Chemical Vapor Communication Using Photoionization Detectors in Turbulent Flow. IEEE Trans. Mol. Biol. Multi Scale Commun. 4(3): 160-170 (2018) - [c12]Jason Webster, Pratistha Shakya, Eamonn Kennedy, Michael Caplan, Christopher Rose, Jacob K. Rosenstein:
TruffleBot: Low-Cost Multi-Parametric Machine Olfaction. BioCAS 2018: 1-4 - [c11]Mustafa Ozmen, Eamonn Kennedy, Jacob Rose, Pratistha Shakya, Jacob K. Rosenstein, Christopher Rose:
High Speed Chemical Vapor Communication Using Photoionization Detectors. GLOBECOM 2018: 1-6 - [c10]Marco Carminati, Roland Thewes, Jacob K. Rosenstein, Hoi-Jun Yoo:
Advances and Open Challenges for Integrated Circuits Detecting Bio-Molecules. ICECS 2018: 857-860 - [c9]Christopher E. Arcadia, Hokchhay Tann, Amanda Dombroski, Kady Ferguson, Shui Ling Chen, Eunsuk Kim, Christopher Rose, Brenda M. Rubenstein, Sherief Reda, Jacob K. Rosenstein:
Parallelized Linear Classification with Volumetric Chemical Perceptrons. ICRC 2018: 1-9 - [c8]Christopher Rose, Sherief Reda, Brenda M. Rubenstein, Jacob K. Rosenstein:
Computing with Chemicals: Perceptrons Using Mixtures of Small Molecules. ISIT 2018: 2236-2240 - [i1]Christopher E. Arcadia, Hokchhay Tann, Amanda Dombroski, Kady Ferguson, Shui Ling Chen, Eunsuk Kim, Christopher Rose, Brenda M. Rubenstein, Sherief Reda, Jacob K. Rosenstein:
Parallelized Linear Classification with Volumetric Chemical Perceptrons. CoRR abs/1810.05214 (2018) - 2017
- [j2]Shanshan Dai, Jacob K. Rosenstein:
A 15-V Bidirectional Current Clamp Circuit for Integrated Patch Clamp Electrophysiology. IEEE Trans. Circuits Syst. II Express Briefs 64-II(11): 1287-1291 (2017) - [c7]Jaime Jimenez, Shanshan Dai, Jacob K. Rosenstein:
A microwatt front end and asynchronous ADC for sparse biopotential acquisition. MWSCAS 2017: 503-506 - 2016
- [j1]Shanshan Dai, Rukshan T. Perera, Zi Yang, Jacob K. Rosenstein:
A 155-dB Dynamic Range Current Measurement Front End for Electrochemical Biosensing. IEEE Trans. Biomed. Circuits Syst. 10(5): 935-944 (2016) - 2015
- [c6]Shanshan Dai, Jacob K. Rosenstein:
A dual-mode low-noise nanosensor front-end with 155-dB dynamic range. BioCAS 2015: 1-4 - [c5]Shanshan Dai, Jacob K. Rosenstein:
A 14.4nW 122KHz dual-phase current-mode relaxation oscillator for near-zero-power sensors. CICC 2015: 1-4 - 2014
- [c4]Daniel L. Bellin, Steven B. Warren, Jacob K. Rosenstein, Kenneth L. Shepard:
Interfacing CMOS electronics to biological systems: from single molecules to cellular communities. BioCAS 2014: 476-479 - 2013
- [c3]Jacob K. Rosenstein, Kenneth L. Shepard:
Temporal resolution of nanopore sensor recordings. EMBC 2013: 4110-4113 - 2012
- [c2]Jacob K. Rosenstein, Kenneth L. Shepard:
High-throughput biology in the time domain: Improving temporal resolution of single-molecule sensors. ISCAS 2012: 2291-2294 - 2011
- [c1]Jacob K. Rosenstein, Sebastian Sorgenfrei, Kenneth L. Shepard:
Noise and bandwidth performance of single-molecule biosensors. CICC 2011: 1-7
Coauthor Index
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