Bats are the only mammals to have achieved powered flight. Their bones reflect this novel ability among mammals, with long flexible wing bones. Dr. Janna Andronowski of the Memorial University of Newfoundland uses our BMIT beamline to see inside these bones to better understand the blood vessels and bone microstructure that gives bats their unique ability to fly.
University of Toronto researchers used the CLS to gain insight into solar cell material in hopes to make solar power more efficient and affordable.
An international team of researchers is hopeful that their green method for producing fertilizer could help to reduce greenhouse gas emissions and food insecurity in the future.
Researchers used synchrotron light to determine that plant waste could be an ideal, cost-effective method for preventing arsenic in mine waste from polluting our water.
An international team of scientists used the Canadian Light Source (CLS) at the University of Saskatchewan to identify destructive metals in mine tailings samples taken in Quebec.
University of Calgary researchers see the potential of hydrogen-based fuels in the fight against climate change.
MIT Scientists are using CLS to understand how the chemistry of rechargeable batteries shifts and help guide battery design.
University of Toronto's Sam Teale discusses his research on healing defects in perovskites used in solar cells - using the BXDS sector at the CLS synchrotron.
Fish, carrots and snow fleas rely on a common protein to survive when the temperature drops. Dr. Davies with Queen's University is using the CLS to study these special antifreeze proteins.
Using the Canadian Light Source, Trinity College Dublin researchers have studied long term phosphorus storage and release in environmental systems, information help guide water quality management.
Adam Gillespie with the University of Guelph is using the Canadian Light Source to look at phosphorus chemistry. This research could help with phosphorus-related problems such as algal blooms and toxins in lakes.
University of Manitoba researchers identified the potential to use polymer composites as electrode matrices in lithium-ion batteries.
International research team uncovers the structure of two arsenic-containing compounds 100 years after discovery
Using the Brockhouse beamline at the CLS, an international team of researchers was able to visualize for the first time how atoms are structured in samples of arseniosiderite and yukonite.
University of Saskatchewan scientists have worked at the Canadian Light Source develop deep insight into two types of light emitting crystals for next-generation LEDS.
The Canadian Light Source is launching The Bison Project, a research experience built with a reconciliation action framework, in collaboration with several organizations beginning to the East of the facility.
Researchers used the rich soils of Hawaii to study the critical movement of phosphorous, which can help crops become more successful and maintain the health of our ecosystems.
A team of researchers from the CLS and Memorial University set out to determine whether bromine could be found in household dust.
Canadian researchers work towards harnessing the potential of hydrogen as an energy source for everyday use.
Using the CLS synchrotron, a University of Saskatchewan-led research team has developed a method for monitoring uranium contaminants in mine tailings using samples from McClean Lake, SK.
One size does not fit all when it comes to using biochar for soil remediation, according to researchers who used the CLS.
Researchers worked improve their technique for converting CO2 into ethanol, a valuable chemical for industrial applications that also reduces emissions.
University of Saskatchewan and Environment and Climate Change Canada researchers have mapped metals in bird feathers, a technique that could help make environmental monitoring less destructive.
A collaboration between U of T Engineering and King Abdullah University of Science and Technology has created two-layered solar cells that successfully combine traditional silicon with new perovskite technology.
The Canadian Light Source has launched a unique initiative that creates opportunities for school students across the country to be directly involved in a national research project.
Scientists develop new, greener technique to produce hydrogen peroxide, used in mining, textiles, and cosmetics industries.
Mapping the evolution of life requires a detailed understanding of the fossil record, and scientists used the CLS to look at the cell structure and chemistry of the earliest known woody plant.
A new study uses the CLS to help ensure that waste from nuclear power plants remains safe and secure for thousands of years to come.
Cornell University scientists have shown that charcoal can mop up large quantities of nitrogen from ammonia air pollution.
Researchers have used the CLS to study the possibility that seaweed could make its way from the Canadian coast to the diet of Prairie cows.
A new technology from University of Toronto Engineering is taking a substantial step towards enabling manufacturers to create plastics out of sunshine and pollution.
This research contributes to understanding of the mechanisms in the carbon cycle that is needed to predict what would happen if the temperature rises due to climate change.
A new catalyst created by University of Toronto engineering researchers brings them one step closer to artificial photosynthesis — a system that, just like plants, would use renewable energy to convert carbon dioxide (CO2) into stored chemical energy.
One of Saskatchewan’s longest running uranium operators is working with the CLS to ensure its operations are sustainable now and protective of the environment for thousands of years into the future.
Researchers from Concordia University now have a better understanding of the world’s largest carbon sink - the oceans.
Bacteria found to survive at extreme cold temperatures are giving scientists the hope that they will find life in outer space, either on Mars, Jupiter’s moon Europa, or Saturn’s moon Enseladus.
Innovation Saskatchewan and the Petroleum Technology Research Centre have announced funding for an innovative research collaboration headed by the University of Calgary and employing the Canadian Light Source.
Scientists from the University of Kentucky Center for Applied Energy Research have worked to turn plant material into ultra-clean fuels using CLS techniques.
About half of Canada’s residential electricity needs could be met if solar panels were installed on the roofs of residential buildings. At a single atom thick, graphene was the first 2D crystal ever discovered. It is a great candidate for solar cells because it is transparent, stronger than steel, and a better conductor than copper. It also can’t corrode. Researchers from the University of Saskatchewan aim to harness these qualities into a more efficient solar cell by modifying the material with oxygen to make a better charge collector. To do this, they take a close look at graphene oxide’s unique electronic signature.
By using powerful X-rays, researchers can determine contaminants around uranium mining sites.