Unit

Laboratory for Bio- and Nano-Instrumentation

Laboratory

Summary

The Laboratory of Bio- and Nano-Instrumentation (LBNI) at EPFL is a research lab specializing in the intersection of instrumentation, microfabrication, and nanoscale biology. Their expertise lies in scanning probe microscopy, focusing on high-speed atomic force microscopy and the combination of different microscopy techniques. LBNI's research delves into understanding biology at various spatial and temporal scales using AFM and other scanning probe techniques. They actively engage in open hardware workshops to share their research outputs with the scientific community.

Official source

https://lbni.epfl.ch/

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Ontological neighbourhood

Industrial and production engineering

Manufacturing engineering: Electron-beam technology

Related people (14)

Andrzej Kulik, Georg Fantner, Kislon Voitchovsky, Ileana-Cristina Benea-Chelmus, Nahid Hosseini, Bahareh Ghadiani, Marcos Penedo Garcia, Barney Frederick Drake, Navid Asmari Saadabad, Prabhu Prasad Swain

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Related publications (123)

Polydopamine-coated photoautotrophic bacteria for improving extracellular electron transfer in living photovoltaics

Ardemis Anoush Boghossian, Melania Reggente, Mohammed Mouhib, Hanxuan Wang, Charlotte Elisabeth Marie Roullier, Fabian Fischer, Patricia Brandl

Living photovoltaics are microbial electrochemical devices that use whole cell–electrode interactions to convert solar energy to electricity. The bottleneck in these technologies is the limited electron transfer between the microbe and the electrode surfac ...

2024

Time-Resolved Scanning Ion Conductance Microscopy and Single-Molecule Spectroscopy

Samuel Mendes Leitão

The evolution of the 3D morphology is at the center of many relevant biological processes ranging from cellular differentiation to cancer invasion and metastasis. Microscopy techniques, such as electron microscopy (EM), super-resolution (SR) optical micros ...

EPFL2023

Fluorescent D-Amino Acids for Super-resolution Microscopy of the Bacterial Cell Wall

Suliana Manley, Luc Reymond, Chen Zhang, Ophélie Rutschmann, Willi Leopold Stepp, Faustine Ambroisine Charline Ryckebusch, Juliette Griffie, Jiangtao Qiao

Fluorescent D-amino acids (FDAAs) have previ-ously been developed to enable in situ highlighting of locations of bacterial cell wall growth. Most bacterial cells lie at the edge of the diffraction limit of visible light; thus, resolving the precise details ...

AMER CHEMICAL SOC2022

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