Details
Title
LBNI
Formal Name (French)
Laboratoire de bio- et nano-instrumentation
Formal Name (English)
Laboratory for Bio- and Nano-Instrumentation
Lab Manager
Ong, Lena
Group ID
U12183
Affiliated authors
Adams, Jonathan David
Andany, Santiago
Asmari Saadabad, Navid
Ayar Dulabi, Zahra
Banterle, Niccolo
Behroozi, Farnaz
Biswas, Soma
Brillard, Charlène
Cencen, Veronika
Di Gisi, Marco
Drake, Barney Frederick
Dukic Pjanic, Maja
Economou, Augoustina Maria
Erickson, Blake
Eskandarian, Haig Alexander
Fantner, Georg
Gazizova, Iuliia
Ghadiani, Bahareh
Hannebelle, Mélanie
Hein, Anouk
Hosseini, Nahid
Jiao, Fang
Kangül, Mustafa
Kazanskii, Maksim
Kläger, Amanda Barbara
Lin, You-Rong
Margot, Ingrid
Mendes Leitão, Samuel
Miranda Rocha, Gustavo
Neuenschwander, Matthias
Nievergelt, Adrian Pascal
Ong, Lena
Pascher, Nikola
Penedo Garcia, Marcos
Peric, Oliver
Räth, Esther
Sakiyama, Yusuke
Schneider, Fabian Zacharias
Sissoko, Tamina
Swain, Prabhu Prasad
Teodoro, Federica
Ven, Joëlle
Yang, Chen
Zheng, Yiwei
Özek, Ekin Asim
Andany, Santiago
Asmari Saadabad, Navid
Ayar Dulabi, Zahra
Banterle, Niccolo
Behroozi, Farnaz
Biswas, Soma
Brillard, Charlène
Cencen, Veronika
Di Gisi, Marco
Drake, Barney Frederick
Dukic Pjanic, Maja
Economou, Augoustina Maria
Erickson, Blake
Eskandarian, Haig Alexander
Fantner, Georg
Gazizova, Iuliia
Ghadiani, Bahareh
Hannebelle, Mélanie
Hein, Anouk
Hosseini, Nahid
Jiao, Fang
Kangül, Mustafa
Kazanskii, Maksim
Kläger, Amanda Barbara
Lin, You-Rong
Margot, Ingrid
Mendes Leitão, Samuel
Miranda Rocha, Gustavo
Neuenschwander, Matthias
Nievergelt, Adrian Pascal
Ong, Lena
Pascher, Nikola
Penedo Garcia, Marcos
Peric, Oliver
Räth, Esther
Sakiyama, Yusuke
Schneider, Fabian Zacharias
Sissoko, Tamina
Swain, Prabhu Prasad
Teodoro, Federica
Ven, Joëlle
Yang, Chen
Zheng, Yiwei
Özek, Ekin Asim
Institute
IBI-STI
Faculty
STI
Note
Members of LBNI-unit
Linked resource
http://lbni.epfl.ch/
Publications
A 0.1% THD, 1-M Omega to 1-G Omega Tunable, Temperature-Compensated Transimpedance Amplifier Using a Multi-Element Pseudo-Resistor
A vibration suppression approach to high-speed atomic force microscopy
Batch Fabrication of Multilayer Polymer Cantilevers with Integrated Hard Tips for High-Speed Atomic Force Microscopy
Compensator design for improved counterbalancing in high speed atomic force microscopy
Components for high-speed atomic force microscopy optimized for low phase-lag
Enhanced feedback performance in off-resonance AFM modes through pulse train sampling
High-Resolution Correlative Microscopy: Bridging the Gap between Single Molecule Localization Microscopy and Atomic Force Microscopy
Method for scanning sample involves providing compensatory signal to actuator after generating compensatory signal on first component of data sig[...]
Multicolor single-particle reconstruction of protein complexes
Self-Actuated Polymer-Based Cantilevers With Sharp Silicon Tips For High-Speed Atomic Force Microscopy
See complete list of publications (141)
A vibration suppression approach to high-speed atomic force microscopy
Batch Fabrication of Multilayer Polymer Cantilevers with Integrated Hard Tips for High-Speed Atomic Force Microscopy
Compensator design for improved counterbalancing in high speed atomic force microscopy
Components for high-speed atomic force microscopy optimized for low phase-lag
Enhanced feedback performance in off-resonance AFM modes through pulse train sampling
High-Resolution Correlative Microscopy: Bridging the Gap between Single Molecule Localization Microscopy and Atomic Force Microscopy
Method for scanning sample involves providing compensatory signal to actuator after generating compensatory signal on first component of data sig[...]
Multicolor single-particle reconstruction of protein complexes
Self-Actuated Polymer-Based Cantilevers With Sharp Silicon Tips For High-Speed Atomic Force Microscopy
See complete list of publications (141)
Record appears in
Authorities > Lab