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ORCIDAndreas Hierlemann
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2020 – today
- 2023
[j29]Fernando Cardes
, Ebrahim Azizi, Andreas Hierlemann:
A Time-Domain Readout Technique for Neural Interfaces Based on VCO-Timestamping. IEEE Trans. Biomed. Circuits Syst. 17(3): 574-584 (2023)- 2022
- [j28]Taehoon Kim, Dexiong Chen, Philipp Hornauer, Vishalini Emmenegger, Julian Bartram, Silvia Ronchi, Andreas Hierlemann, Manuel Schröter, Damian Roqueiro:
Predicting in vitro single-neuron firing rates upon pharmacological perturbation using Graph Neural Networks. Frontiers Neuroinformatics 16 (2022) - [j27]Sreedhar S. Kumar, Tobias Gänswein, Alessio Paolo Buccino, Xiaohan Xue, Julian Bartram, Vishalini Emmenegger, Andreas Hierlemann:
Tracking axon initial segment plasticity using high-density microelectrode arrays: A computational study. Frontiers Neuroinformatics 16 (2022) - [c28]Raziyeh Bounik, Jihyun Lee, Vijay Viswam, Fernando Cardes, Mario M. Modena, Andreas Hierlemann:
A CMOS Microelectrode Array Integrated into an Open, Continuously Perfused Microfluidic System. BioCAS 2022: 491-494 - 2021
- [j26]Xinyue Yuan, Andreas Hierlemann, Urs Frey:
Extracellular Recording of Entire Neural Networks Using a Dual-Mode Microelectrode Array With 19 584 Electrodes and High SNR. IEEE J. Solid State Circuits 56(8): 2466-2475 (2021) - [j25]Fernando Cardes, Nikhita Baladari, Jihyun Lee, Andreas Hierlemann:
A Low-Power Opamp-Less Second-Order Delta-Sigma Modulator for Bioelectrical Signals in 0.18 µm CMOS. Sensors 21(19): 6456 (2021) - [c27]Payam S. Shabestari, Alessio Paolo Buccino, Sreedhar S. Kumar, Alessandra Pedrocchi, Andreas Hierlemann:
A modulated template-matching approach to improve spike sorting of bursting neurons. BioCAS 2021: 1-4
2010 – 2019
- 2019
- [j24]Alexandra Dudina, Urs Frey, Andreas Hierlemann:
Carbon-Nanotube-Based Monolithic CMOS Platform for Electrochemical Detection of Neurotransmitter Glutamate. Sensors 19(14): 3080 (2019) - [j23]Amir Shadmani, Vijay Viswam, Yihui Chen, Raziyeh Bounik, Jelena Dragas, Milos Radivojevic, Sydney Geissler, Sergey Sitnikov, Jan Müller, Andreas Hierlemann:
Stimulation and Artifact-Suppression Techniques for In Vitro High-Density Microelectrode Array Systems. IEEE Trans. Biomed. Eng. 66(9): 2481-2490 (2019) - 2018
- [j22]Vijay Viswam, Raziyeh Bounik, Amir Shadmani, Jelena Dragas, Cedar Urwyler, Julia Alicia Boos, Marie Engelene J. Obien, Jan Müller, Yihui Chen, Andreas Hierlemann:
Impedance Spectroscopy and Electrophysiological Imaging of Cells With a High-Density CMOS Microelectrode Array System. IEEE Trans. Biomed. Circuits Syst. 12(6): 1356-1368 (2018) - [j21]Yonghong Tao, Andreas Hierlemann:
A 15-Channel 30-V Neural Stimulator for Spinal Cord Repair. IEEE Trans. Very Large Scale Integr. Syst. 26(10): 2185-2189 (2018) - [c26]Xinyue Yuan, Vishalini Emmenegger, Marie Engelene J. Obien, Andreas Hierlemann, Urs Frey:
Dual-mode Microelectrode Array Featuring 20k Electrodes and High SNR for Extracellular Recording of Neural Networks. BioCAS 2018: 1-4 - 2017
- [j20]Jelena Dragas, Vijay Viswam, Amir Shadmani, Yihui Chen, Raziyeh Bounik, Alexander Stettler, Milos Radivojevic, Sydney Geissler, Marie Engelene J. Obien, Jan Mueller, Andreas Hierlemann:
In Vitro Multi-Functional Microelectrode Array Featuring 59 760 Electrodes, 2048 Electrophysiology Channels, Stimulation, Impedance Measurement, and Neurotransmitter Detection Channels. IEEE J. Solid State Circuits 52(6): 1576-1590 (2017) - [j19]Joerg Rothe, Olivier Frey, Rajtarun Madangopal, Jenna L. Rickus, Andreas Hierlemann:
Robust Functionalization of Large Microelectrode Arrays by Using Pulsed Potentiostatic Deposition. Sensors 17(1): 22 (2017) - [c25]Mario M. Modena, Ketki Chawla, Flavio Lombardo, Sebastian C. Burgel, Gordana Panic, Jennifer Keiser, Andreas Hierlemann:
Impedance-based detection of Schistosoma mansoni larvae viability for drug screening. BioCAS 2017: 1-4 - [c24]Vijay Viswam, Marie Engelene J. Obien, Urs Frey, Felix Franke, Andreas Hierlemann:
Acquisition of bioelectrical signals with small electrodes. BioCAS 2017: 1-4 - [c23]Urs Frey, Marie Engelene J. Obien, Jan Mueller, Andreas Hierlemann:
Technology trends and commercialization of high-density microelectrode arrays for advanced in-vitro electrophysiology. ISCAS 2017: 1 - 2016
- [c22]Vijay Viswam, Yihui Chen, Amir Shadmani, Jelena Dragas, Raziyeh Bounik, Milos Radivojevic, Jan Mueller, Andreas Hierlemann:
2048 action potential recording channels with 2.4 μVrms noise and stimulation artifact suppression. BioCAS 2016: 136-139 - [c21]Vijay Viswam, Raziyeh Bounik, Amir Shadmani, Jelena Dragas, Julia Alicia Boos, Axel Birchler, Jan Müller, Yihui Chen, Andreas Hierlemann:
High-density CMOS microelectrode array system for impedance spectroscopy and imaging of biological cells. IEEE SENSORS 2016: 1-3 - [c20]Vijay Viswam, Jelena Dragas, Amir Shadmani, Yihui Chen, Alexander Stettler, Jan Mueller, Andreas Hierlemann:
22.8 Multi-functional microelectrode array system featuring 59, 760 electrodes, 2048 electrophysiology channels, impedance and neurotransmitter measurement units. ISSCC 2016: 394-396 - [c19]Xinyue Yuan, S. Kim, J. Juyon, M. D'Urbino, T. Bullmann, Y. Chen, Alexander Stettler, Andreas Hierlemann, Urs Frey:
A microelectrode array with 8, 640 electrodes enabling simultaneous full-frame readout at 6.5 kfps and 112-channel switch-matrix readout at 20 kS/s. VLSI Circuits 2016: 1-2 - 2015
- [j18]Felix Franke, Rodrigo Quian Quiroga, Andreas Hierlemann, Klaus Obermayer:
Bayes optimal template matching for spike sorting - combining fisher discriminant analysis with optimal filtering. J. Comput. Neurosci. 38(3): 439-459 (2015) - [j17]Felix Franke, Rodrigo Quian Quiroga, Andreas Hierlemann, Klaus Obermayer:
Erratum to: Bayes optimal template matching for spike sorting - combining fisher discriminant analysis with optimal filtering. J. Comput. Neurosci. 38(3): 461 (2015) - [j16]Yonghong Tao, Andreas Hierlemann, Yong Lian:
A Frequency-Domain Analysis of Latch Comparator Offset due to Load Capacitor Mismatch. IEEE Trans. Circuits Syst. II Express Briefs 62-II(6): 527-532 (2015) - [c18]Jing Lin, Marie Engelene J. Obien, Andreas Hierlemann, Urs Frey:
Automated navigation of a glass micropipette on a high-density microelectrode array. EMBC 2015: 881-884 - 2014
- [j15]Marco Ballini, Jan Mueller, Paolo Livi, Yihui Chen, Urs Frey, Alexander Stettler, Amir Shadmani, Vijay Viswam, Ian Lloyd Jones, David Jackel, Milos Radivojevic, Marta K. Lewandowska, Wei Gong, Michele Fiscella, Douglas J. Bakkum, Flavio Heer, Andreas Hierlemann:
A 1024-Channel CMOS Microelectrode Array With 26, 400 Electrodes for Recording and Stimulation of Electrogenic Cells In Vitro. IEEE J. Solid State Circuits 49(11): 2705-2719 (2014) - [c17]Jelena Dragas, David Jackel, Felix Franke, Andreas Hierlemann:
High-throughput hardware for real-time spike overlap decomposition in multi-electrode neuronal recording systems. ISCAS 2014: 658-661 - 2013
- [j14]Douglas J. Bakkum, Milos Radivojevic, Urs Frey, Felix Franke, Andreas Hierlemann, Hirokazu Takahashi:
Parameters for burst detection. Frontiers Comput. Neurosci. 7: 193 (2013) - [c16]Eiko Matsuda, Takeshi Mita, Julien Hubert, Douglas J. Bakkum, Urs Frey, Andreas Hierlemann, Hirokazu Takahashi, Takashi Ikegami:
Analysis of neuronal cells of dissociated primary culture on high-density CMOS electrode array. EMBC 2013: 1045-1048 - [c15]Jelena Dragas, David Jackel, Felix Franke, Andreas Hierlemann:
An unsupervised method for on-chip neural spike detection in multi-electrode recording systems. EMBC 2013: 2535-2538 - [c14]Sara Rigante, Paolo Livi, Mathias Wipf, Kristine Bedner, Didier Bouvet, Antonios Bazigos, Alexandru Rusu, Andreas Hierlemann, Adrian M. Ionescu:
Low power finfet ph-sensor with high-sensitivity voltage readout. ESSDERC 2013: 350-353 - 2011
- [j13]Andreas Hierlemann, Urs Frey, Sadik Hafizovic, Flavio Heer:
Growing Cells Atop Microelectronic Chips: Interfacing Electrogenic Cells In Vitro With CMOS-Based Microelectrode Arrays. Proc. IEEE 99(2): 252-284 (2011) - 2010
- [j12]Urs Frey, Jan Sedivý, Flavio Heer, René Pedron, Marco Ballini, Jan Mueller, Douglas J. Bakkum, Sadik Hafizovic, Francesca D. Faraci, Frauke Greve, Kay-Uwe Kirstein, Andreas Hierlemann:
Switch-Matrix-Based High-Density Microelectrode Array in CMOS Technology. IEEE J. Solid State Circuits 45(2): 467-482 (2010) - [j11]Paolo Livi, Flavio Heer, Urs Frey, Douglas J. Bakkum, Andreas Hierlemann:
Compact Voltage and Current Stimulation Buffer for High-Density Microelectrode Arrays. IEEE Trans. Biomed. Circuits Syst. 4(6): 372-378 (2010) - [c13]Paolo Livi, Flavio Heer, Urs Frey, Douglas J. Bakkum, Andreas Hierlemann:
Compact voltage and current stimulation buffer for high-density microelectrode arrays. ISSCC 2010: 240-241
2000 – 2009
- 2008
- [j10]Yue Li, Cyril Vancura, Kay-Uwe Kirstein, Jan Lichtenberg, Andreas Hierlemann:
Monolithic Resonant-Cantilever-Based CMOS Microsystem for Biochemical Sensing. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(9): 2551-2560 (2008) - [c12]Flavio Heer, Manuel Keller, George Yu, Jiri Janata, Mira Josowicz, Andreas Hierlemann:
CMOS Electro-Chemical DNA-Detection Array with On-Chip ADC. ISSCC 2008: 168-169 - 2007
- [j9]Urs Frey, Markus Graf, Stefano Taschini, Kay-Uwe Kirstein, Andreas Hierlemann:
A Digital CMOS Architecture for a Micro-Hotplate Array. IEEE J. Solid State Circuits 42(2): 441-450 (2007) - [j8]Diego Barrettino, Piero Malcovati, Markus Graf, Sadik Hafizovic, Andreas Hierlemann:
CMOS-Based Monolithic Controllers for Smart Sensors Comprising Micromembranes and Microcantilevers. IEEE Trans. Circuits Syst. I Regul. Pap. 54-I(1): 141-152 (2007) - [c11]Urs Frey, Flavio Heer, René Pedron, Sadik Hafizovic, Frauke Greve, Jan Sedivý, Kay-Uwe Kirstein, Andreas Hierlemann:
An 11k-Electrode 126-Channel High-Density Microelectrode Array to Interact with Electrogenic Cells. ISSCC 2007: 158-593 - [i2]Kay-Uwe Kirstein, Yue Li, Martin Zimmermann, Cyril Vancura, Tormod Volden, Wan Ho Song, Jan Lichtenberg, Andreas Hierlemann:
Cantilever-Based Biosensors in CMOS Technology. CoRR abs/0710.4692 (2007) - [i1]Kay-Uwe Kirstein, Jan Sedivý, Tomi Salo, Christoph Hagleitner, Tobias Vancura, Andreas Hierlemann:
A CMOS-Based Tactile Sensor for Continuous Blood Pressure Monitoring. CoRR abs/0710.4835 (2007) - 2006
- [j7]Flavio Heer, Sadik Hafizovic, Wendy Franks, Axel W. Blau, Christiane Ziegler, Andreas Hierlemann:
CMOS microelectrode array for bidirectional interaction with neuronal networks. IEEE J. Solid State Circuits 41(7): 1620-1629 (2006) - 2005
- [j6]Diego Barrettino, Sadik Hafizovic, Tormod Volden, Jan Sedivý, Kay-Uwe Kirstein, Andreas Hierlemann:
CMOS monolithic mechatronic microsystem for surface imaging and force response studies. IEEE J. Solid State Circuits 40(4): 951-959 (2005) - [j5]Wendy Franks, Iwan Schenker, Patrik Schmutz, Andreas Hierlemann:
Impedance characterization and modeling of electrodes for biomedical applications. IEEE Trans. Biomed. Eng. 52(7): 1295-1302 (2005) - [c10]Kay-Uwe Kirstein, Yue Li, Martin Zimmermann, Cyril Vancura, Tormod Volden, Wan Ho Song, Jan Lichtenberg, Andreas Hierlemann:
Cantilever-Based Biosensors in CMOS Technology. DATE 2005: 1340-1341 - [c9]Flavio Heer, Sadik Hafizovic, Wendy Franks, Tanja Ugniwenko, Axel W. Blau, Christiane Ziegler, Andreas Hierlemann:
CMOS microelectrode array for bidirectional interaction with neuronal networks. ESSCIRC 2005: 335-338 - [c8]Martin Zimmermann, Tormod Volden, Kai-Uwe Kirstein, Sadik Hafizovic, Jan Lichtenberg, Andreas Hierlemann:
A CMOS-based sensor array system for chemical and biochemical applications. ESSCIRC 2005: 343-346 - 2004
- [j4]Diego Barrettino, Markus Graf, Wan Ho Song, Kay-Uwe Kirstein, Andreas Hierlemann, Henry Baltes:
Hotplate-based monolithic CMOS microsystems for gas detection and material characterization for operating temperatures up to 500 °C. IEEE J. Solid State Circuits 39(7): 1202-1207 (2004) - [j3]Martin Jenkner, Marco Tartagni, Andreas Hierlemann, Roland Thewes:
Cell-based CMOS sensor and actuator arrays. IEEE J. Solid State Circuits 39(12): 2431-2437 (2004) - [c7]Kay-Uwe Kirstein, Jan Sedivý, Tomi Salo, Christoph Hagleitner, Tobias Vancura, Andreas Hierlemann:
A CMOS-Based Tactile Sensor for Continuous Blood Pressure Monitoring. DATE 2004: 210-214 - [c6]Urs Frey, Markus Graf, Stefano Taschini, Kay-Uwe Kirstein, Christoph Hagleitner, Andreas Hierlemann, Henry Baltes:
A digital CMOS micro-hotplate array for analysis of environmentally relevant gases. ESSCIRC 2004: 299-302 - [c5]Flavio Heer, Wendy Franks, Ian McKay, Stefano Taschini, Andreas Hierlemann, Henry Baltes:
CMOS microelectrode array for extracellular stimulation and recording of electrogenic cells. ISCAS (4) 2004: 53-56 - [c4]Diego Barrettino, Markus Graf, Kay-Uwe Kirstein, Andreas Hierlemann, Henry Baltes:
A monolithic fully-differential CMOS gas sensor microsystem for microhotplate temperatures up to 450°C. ISCAS (4) 2004: 888-891 - 2003
- [j2]Andreas Hierlemann, Oliver Brand, Christoph Hagleitner, Henry Baltes:
Microfabrication techniques for chemical/biosensors. Proc. IEEE 91(6): 839-863 (2003) - [c3]Diego Barrettino, Wan Ho Song, Markus Graf, Andreas Hierlemann, Henry Baltes:
A micro-hotplate-based monolithic CMOS thermal analysis system. ESSCIRC 2003: 329-332 - [c2]Christoph Hagleitner, Diego Barrettino, Andreas Hierlemann, Oliver Brand, Henry Baltes:
Interface circuitry for CMOS-based monolithic gas sensor arrays. ISCAS (3) 2003: 542-545 - [c1]Diego Barrettino, Markus Graf, Martin Zimmermann, Christoph Hagleitner, Andreas Hierlemann, Henry Baltes:
A micro-hotplate-based monolithic CMOS gas sensor array. ISCAS (4) 2003: 852-855 - 2002
- [j1]Christoph Hagleitner, Dirk Lange, Andreas Hierlemann, Oliver Brand, Henry Baltes:
CMOS single-chip gas detection system comprising capacitive, calorimetric and mass-sensitive microsensors. IEEE J. Solid State Circuits 37(12): 1867-1878 (2002)
Coauthor Index
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