We highly value Nanosurf's contribution in establishing the FluidFM technology in our lab, as well as their exceptional FluidFM know-how and continued support. Laser-based fluorescence microscopy is one of the key techniques we apply for unravelling intracellular signalling pathways in complex living tissues. Its unique combination with the Flex-FPM will now allow us to precisely manipulate specific target sites to gain access to the cellular physiology at single cell or even single molecule level. With the established FluidFM technology, the scientific work in our lab has significantly advanced and new research topics are sure to come up.
Laser-based fluorescence microscopy is one of the key techniques we apply for unravelling intracellular signalling pathways in complex living tissues. Its unique combination with the Flex-FPM allows us to precisely manipulate specific target sites to gain access to the cellular physiology at single cell or even single molecule level. We highly value Nanosurf's contribution in establishing the FluidFM technology in our lab, as well as their exceptional FluidFM know-how and continued support. With this technology, our scientific work has significantly advanced and new research topics are sure to come up.
Dr. Carsten Hille & Dr. Phillip Roder, University of Potsdam, Dept. Physical Chemistry
Publications
P. Roder (Thesis). Combination of fluorescence microscopy and atomic force microscopy for the investigation of physiological processes in living cells.
(2018) University of Potsdam.
P. Roder & C. Hille. Local tissue manipulation via a force- and pressure-controlled AFM micropipette for analysis of cellular processes.
(2018) Scientific Reports 8:5892. doi: 10.1038/s41598-018-24255-9
P. Roder & C. Hille. A multifunctional frontloading approach for repeated recycling of a pressure-controlled AFM micropipette.
(2015) PLOS ONE, 10(12), e0144157. doi:10.1371/journal.pone.0144157