Interested in understanding the microscopy advances that lead to the 2014 Nobel Prize in Chemistry? Beyond the diffraction barrier is a new video overview of super-resolution microscopy strategies, by Andrew Q Tran, student in Biomedical Communication at University of Toronto. It explains techniques such as stimulated emission depletion (STED) microscopy, developed by 2014 Nobel prize winner Stefan Hell in 2000. Yves and Paul De Koninck and their teams at the Neurophotonics Centre collaborated to the making of this video. View it now: Beyond the diffraction barrier, an overview of super-resolution microscopy strategies
Interested in understanding the microscopy advances that lead to the 2014 Nobel Prize in Chemistry? Beyond the diffraction barrier is a new video overview of super-resolution microscopy strategies, by Andrew Q Tran, student in Biomedical Communication at University of Toronto. It explains techniques such as stimulated emission depletion (STED) microscopy, developed by 2014 Nobel prize winner Stefan Hell in 2000. Yves and Paul De Koninck and their teams at the Neurophotonics Centre collaborated to the making of this video. View it now: Beyond the diffraction barrier, an overview of super-resolution microscopy strategies