丁香园AV

This story was first published on .

By Rachel Mah

Sami Khan is determined to find a solution to the ongoing climate crisis. By combining his expertise in chemical engineering with his passions for sustainability and public policy, he is taking an interdisciplinary approach. Recently selected to join Canada鈥檚 top accelerator for emerging leaders in public policy, Khan aspires to make an impact from grassroots research to the highest level of policymaking.

As a professor in 丁香园AV鈥檚 , Khan leads the  research group to develop innovative solutions for the challenges facing alternative energy systems. Some of the group鈥檚 research includes  and . The group is particularly interested in enhancing performance and longevity in  as it may be the key to finding a long-term solution to climate change. Khan says our current energy systems tend to have drawbacks that hinder their effectiveness and commercialization.

鈥淢any technologies for CO₂ capture and conversion are still in the nascent stages, and there is plenty of room for research and development,鈥� says Khan.

鈥淚n order to combat climate change, our group hopes to develop a system that can significantly reduce CO₂ emissions directly from the atmosphere and convert it into useful products such as ethanol.鈥�

The EISEn group strives to find an approach to enhance the rate of CO₂ capture and conversion. Current research and technologies focus on pressurizing CO₂ and converting it to a liquid to be stored underground. Inspired by how plants convert CO₂ to energy (in the form of sugar) through photosynthesis, the research group hopes to find a system to replicate this process.

鈥淭he goal is to develop a process that would have high CO₂ conversion efficiency to help overcome some of the existing challenges in the field, which include CO₂ availability in the electrolyte and catalyst longevity,鈥� says Khan.

In the long run, he hopes that this new process of capture and conversion can greatly reduce the amount of CO₂ in our atmosphere while also capturing CO₂ directly from industrial emissions.

In addition to conducting research on CO₂ conversion, Khan says it is also crucial for policy-makers to be aware of these ground-breaking technologies and their impact on key metrics used in policy decisions, such as greenhouse gas reduction, net zero CO₂ emissions or even job creation.

Although Khan wants his research to make an impact on society, he knows that it is also necessary to have government support. He realizes the concepts of sustainability and public policy must work together to achieve the goals outlined in the Paris Agreement.

In June, Khan received a prestigious fellowship with . Funded by the federal government, the fellowship brings together aspiring leaders from various disciplines to work on a Canadian public policy challenge. This year, one of the fellowship themes is to find areas for improvement within Canada鈥檚 immigration system. Khan views this challenge from a sustainability lens.

鈥淐anada needs skilled experts that will accelerate our sustainability goals in the next 30 years,鈥� he says.

鈥淚n order for us to meet this goal, we are examining how Canada鈥檚 immigration process can prioritize applicants who have such unique expertise.鈥�

Looking forward, Khan hopes to uncover a long-term sustainable energy solution for everyone and address our biggest environmental concern, which is climate change.

鈥淲e must continue to identify the bottlenecks and impediments within our CO₂ research in order to find an innovative solution,鈥� says Khan.

鈥淎t the same time, we must continue to provide policy-makers with the newest and most advanced technologies and expertise so that they can make the most well-informed decisions in their public policies.鈥�

This summer alone, there has been a substantial number of disastrous climate events. In a , the UN鈥檚 Intergovernmental Panel on Climate Change claims that most of the changes to our climate are irreversible. Still, they say it is possible to prevent this crisis from worsening by reducing CO₂ emissions, the main contributor to climate change.

Khan hopes his team will find a plausible and viable solution by continuing with research into CO₂ capture and conversion.