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In times of environmental decline, scientific innovation must be implemented to replace old and inefficient technology. This can lead to positive academic, economic and environmental impacts. Fluorescence microscopy is a key element in many aspects of research throughout the physical, life and health sciences. Microscopes are found in virtually all research institutes, universities, hospitals, biotechnology companies and pharmaceutical companies. Mercury arc lamps have been a ubiquitous light source in fluorescence microscopy due to their compatibility with many standard fluorophores and the fact they are brighter than their incandescent counterparts. Despite these advantages, these light sources also present several pitfalls that can be remedied through alternative, modern light sources such as solid state light-emitting diodes (LEDs).
​THE CHALLENGE
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Microscopes are found in virtually all research institutes, universities, hospitals, biotechnology companies and pharmaceutical companies. As such, mercury arc lamps have been a ubiquitous light source for these instruments in fluorescence microscopy due to their compatibility with many standard fluorophores and the fact they are brighter than their incandescent counterparts. Collaboration between the Advanced BioImaging Facility (ABIF), the Cell Imaging and Analysis Network (CIAN), and the Montreal Neurological Institute (MNI) Microscope Core Facility has resulted in the Green Light Microscopy awareness campaign to switch inefficient and biohazardous mercury bulbs for sustainable, economical, and environmentally friendly LED illumination sources.
NEW PURCHASES
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The ABIF has invested in new LED light sources for all the microscopes currently in use. In October 2015, five more LED light sources were added to the remaining instruments in the facility that were lacking sustainable illumination sources.ÌýEvery ÎÛÎÛ²ÝÝ®ÊÓƵ researcher that is purchasing a fluorescence based microscope should be purchasing a mercury free solution. However, at this time, applications requiring UV excitation (<370 nm light) still require the use of mercury based technologies.Ìý