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endoscopic exploration. Recently, we developed a wide-field coherent Raman microscopy technique using speckle illuminations and Coherent Anti-Stokes Raman Scattering (CARS) contrast to produce chemical images
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ESPCI Ecole supérieure de physique et de chimie industrielles de la ville de Paris (PSL) | Paris 15, le de France | France | 21 days ago
la lumière (généralement ~200 nm). Parmi ces techniques, les approches de microscopie de localisation de molécules uniques (Single Molecule Localization Microscopy - SMLM) reposent sur la capacité à
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the laboratory of Dr. David Hoffman. The Researcher will contribute to an active research program focused on single-molecule biophysics, super-resolution microscopy, human stem cell engineering, membrane
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to submitting your application, please review and update (if necessary) the information in your candidate profile as it will transfer to your application. Job Title: Microscopy Specialist - Campus Microscopy and
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Internal Number: 7054570 Assistant/Associate/Full Project Scientist - Instrumentation Microscopy Advanced Bioimaging Center Department of Molecular and Cell Biology Position overview Position title
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. Wide-field coherent anti-Stokes Raman scattering microscopy using random illuminations. Nat. Photon. 17, 1097–1104 (2023). https://doi.org/10.1038/s41566-023-01294-x The project is part of an H2020/ERC
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the laboratory of Dr. Tai-Yen Chen. The Researcher will contribute to an active research program focused on single-molecule biophysics, super-resolution microscopy, quantitative analysis of membrane protein
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methodologies (i.e., X-Ray scattering, vibrational spectroscopy, scanning probe microscopy) to monitor dynamic interaction between hydrogen storage molecules and electrified catalyst surfaces for chemical
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. Specifically, to undertake research to us a combination of volume electron microscopy and expansion/light microscopy to study wiring of neural circuits in the octopus optic lobe and central brain. Key approaches
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nm optical microscopy." Optics Express 21(22): 26219-26226, 2013. http://dx.doi.org/10.1364/Oe.21.026219 Optics; Semiconductors; Ultraviolet; Electromagnetic simulations; Lasers; Nanoscale