Folgen
Sebastian Bürgel
Sebastian Bürgel
Bestätigte E-Mail-Adresse bei ethz.ch
Titel
Zitiert von
Zitiert von
Jahr
Characterization of subcellular morphology of single yeast cells using high frequency microfluidic impedance cytometer
N Haandbæk, SC Bürgel, F Heer, A Hierlemann
Lab on a Chip 14 (2), 369-377, 2014
1332014
Resonance-enhanced microfluidic impedance cytometer for detection of single bacteria
N Haandbæk, SC Bürgel, F Heer, A Hierlemann
Lab on a Chip 14 (17), 3313-3324, 2014
952014
On-chip electroporation and impedance spectroscopy of single-cells
SC Bürgel, C Escobedo, N Haandbæk, A Hierlemann
Sensors and Actuators B: Chemical 210, 82-90, 2015
912015
Electrical impedance spectroscopy for microtissue spheroid analysis in hanging-drop networks
YRF Schmid, SC Burgel, PM Misun, A Hierlemann, O Frey
ACS sensors 1 (8), 1028-1035, 2016
622016
Adding the ‘heart’to hanging drop networks for microphysiological multi-tissue experiments
SR Yazdi, A Shadmani, SC Bürgel, PM Misun, A Hierlemann, O Frey
Lab on a Chip 15 (21), 4138-4147, 2015
612015
Characterization of single yeast cell phenotypes using microfluidic impedance cytometry and optical imaging
N Haandbæk, SC Bürgel, F Rudolf, F Heer, A Hierlemann
Acs Sensors 1 (8), 1020-1027, 2016
602016
Automated, multiplexed electrical impedance spectroscopy platform for continuous monitoring of microtissue spheroids
SC Bürgel, L Diener, O Frey, JY Kim, A Hierlemann
Analytical chemistry 88 (22), 10876-10883, 2016
462016
Integrating impedance-based growth-rate monitoring into a microfluidic cell culture platform for live-cell microscopy
K Chawla, SC Bürgel, GW Schmidt, HM Kaltenbach, F Rudolf, O Frey, ...
Microsystems & nanoengineering 4 (1), 8, 2018
432018
Impedance-based microfluidic assay for automated antischistosomal drug screening
K Chawla, MM Modena, PS Ravaynia, FC Lombardo, M Leonhardt, ...
ACS sensors 3 (12), 2613-2620, 2018
262018
Zirconium ion mediated formation of liposome multilayers
SC Bürgel, O Guillaume-Gentil, L Zheng, J Vörös, M Bally
Langmuir 26 (13), 10995-11002, 2010
162010
On-chip lysis of mammalian cells through a handheld corona device
C Escobedo, SC Bürgel, S Kemmerling, N Sauter, T Braun, A Hierlemann
Lab on a Chip 15 (14), 2990-2997, 2015
152015
Dynamic and static impedance spectroscopy for single particle characterization in microfluidic chips
SC Bürgel, Z Zhu, N Haandbæk, O Frey, A Hierlemann
2012 IEEE 25th International Conference on Micro Electro Mechanical Systems …, 2012
112012
Development of a microfluidic GHz impedance cytometer
N Haandbæk, SC Bürgel, F Heer, A Hierlemann
tm–Technisches Messen 80 (12), 411-420, 2013
72013
Impedance-based detection of Schistosoma mansoni larvae viability for drug screening
MM Modena, K Chawla, F Lombardo, SC Bürgel, G Panic, J Keiser, ...
2017 IEEE Biomedical Circuits and Systems Conference (BioCAS), 1-4, 2017
52017
Microfluidic cell culturing platform combining long-term, high-resolution imaging with impedance spectroscopy
K Chawla, SC Bürgel, GW Schmidt, F Rudolf, O Frey, A Hierlemann
Procedia engineering 120, 154-157, 2015
32015
Bandwidth Compensation for High Resolution Impedance Spectroscopy
N Haandbaek, K Mathwig, R Streichan, N Goedecke, SC Bürgel, F Heer, ...
Procedia Engineering 25, 1209-1212, 2011
32011
Microtissue compartment device
O Frey, S Bürgel, D Fluri, J Kelm, JY Kim
US Patent 11,555,171, 2023
22023
Simultaneous impedance spectroscopy and stimulation of human iPS-derived cardiac 3D spheroids in hanging-drop networks
SC Bürgel, Y Schmid, I Agarkova, DA Fluri, JM Kelm, A Hierlemann, ...
2015 28th IEEE International Conference on Micro Electro Mechanical Systems …, 2015
22015
Characterization of single yeast cell phenotypes using microfluidic impedance cytometry and optical imaging, ACS Sens. 1 (8)(2016) 1020–1027
N Haandbæk, SC Bürgel, F Rudolf, F Heer, A Hierlemann
2
Characterization of Cell Phenotype Using Dynamic Vision Sensor and Impedance Spectroscope
N Haandbaek, K Mathwig, R Streichan, N Goedecke, S Bürgel, F Heer, ...
µTAS 2011 Conference, 2-6, 2011
12011
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20