缅北强奸

Artist's rendering of Australia's daily carbon dioxide emissions (image courtesy Carbon Visuals via Flickr)

Could carbon dioxide be the solution to climate change?

Connaught Global Challenge Award goes to solar fuels cluster

In the drama of climate change, carbon dioxide has long played the role of arch-villain.

Now, though, Canada Research Chair of Materials Chemistry and Nanochemistry and of Chemistry Geoffrey Ozin wants to recast the infamous greenhouse-gas scoundrel in the role of hero, placing it centre stage in the development of carbon-neutral, renewable energy.  

And thanks to an investment of $1 million from the Connaught Global Challenge Award program, he is setting out to do just that.

鈥淭he public has heard of carbon capture and storage,鈥 Ozin says. 鈥淭hey haven鈥檛 heard about carbon capture and utilization.鈥

Carbon dioxide, it turns out, plays many roles other than heating the planet. It鈥檚 used to manufacture industrial chemicals and polymers. It鈥檚 a component in urea, a key part of many fertilizers.  

And, it can be used to make methane and diesel fuels. 

鈥淐arbon dioxide already forms the basis of a megaton industry for making chemicals, materials, cement and fertilizers,鈥 says Ozin. 鈥淲hy not use it as much as you can? You could build a global economy on a resource that鈥檚 all around us. And if you happen to use Gigatons every year, then you could keep atmospheric carbon dioxide levels at sustainable levels indefinitely.鈥

head shot style photo of OzinOzin (pictured at right) is leading a multidisciplinary team, dubbed 鈥淭he 缅北强奸 Solar Fuels Cluster鈥 on a quest to develop a process for converting carbon dioxide into an energy-rich renewable fuel, using a carbon-neutral cycle.  

Ozin鈥檚 approach fits the nature of the Global Challenge Award perfectly. The award was created in 2011 to bring together the university鈥檚 leading researchers from multiple disciplines with innovators from other sectors to enhance 缅北强奸鈥檚 contributions to issues facing global society. Proposals come from the 缅北强奸 research community, involving large interdisciplinary teams and are subjected to the highest level of international peer review.   

The Connaught Fund is currently valued at more than $105 million. It was founded in 1972 from the sale of the Connaught Laboratories for $29 million. The labs had produced vaccines and, notably, insulin after it was discovered by 缅北强奸 researchers Frederick Banting and Charles Best in 1921. The Connaught fund has since awarded more than $135 million to 缅北强奸 scholars.  

鈥淭he Connaught Fund has always been focused on enabling research relevant to society,鈥 says Professor Vivek Goel, 缅北强奸鈥檚 vice-president, research and innovation. 鈥淭he goal of the Global Challenge Award provides a level of funding that helps our researchers go very deeply into a problem that affects everyone on the planet and create progress on solutions to that problem. 

鈥淭hese challenges demand experts from a wide range of areas coming together 鈥 no sole scholar can do it alone. The focus of the Ozin team on renewable energy will addressone of the great problems of our time. The Connaught Committee believes the wide range of expertise on Geoff鈥檚 team can deliver important advances on this vital topic.鈥

Ozin is joined in the project by

  • Charles Mims, chemical engineering and applied chemistry (CEAC)
  • Nazir Kherani, materials science and engineering (MSE) and electrical and computer engineering (MSE)
  • Douglas Perovic, MSE
  • Cathy Chin, CEAC
  • Ben Hatton, MSE
  • Chandra Veer Singh, MSE
  • Zhenghong Lu, MSE

Ozin says people tend to view carbon dioxide as a waste product because it鈥檚 what鈥檚 left over after burning fuel or breathing air. It鈥檚 a very stable molecule, which doesn鈥檛 react easily with other materials. But given the right catalyst, it can be broken up and transformed into carbon monoxide, methane, methanol, ethylene, formic acid and other highly useful chemicals. 

Finding the right catalyst involves more than identifying substances that can coax reactions out of CO2. Ozin researches how to shape materials on a nanoscopic scale, creating structures a few billionths of a metre in size. Nanostructuring can do things like maximize the surface area where gas and catalyst interact. More surface area means more chemical reaction. 

鈥淎 carbon dioxide economy will depend on nanostructured forms of semiconductors and metals,鈥 Ozin says. 鈥淲e foresee a sunlight-assisted conversion of gaseous CO2 to fuel, using catalysis to create a 鈥榮olar refinery鈥 that is, critically, predicated on existing industrial infrastructure and combustion processes.鈥

Ozin first turned his attention to this problem seven years ago when he was 65 years old. He says it sometimes feels odd to be working on something so tied to immediately pressing global challenges, where mere discovery is only a part of the recipe on a long road to success. 

鈥淚鈥檓 an academic used to doing basic science,鈥 he says. 鈥淏ut for global industry, you have to create materials that are not just different from what already exists, but that do a particular job better. You have to boil things down to simpler, scalable components that are abundant, low-cost, and stable under every imaginable condition 鈥 in varying sunlight levels, at different temperatures, and under reaction.鈥 

Despite the challenges, he remains convinced that science and engineering can reform CO2 into a productive part of global society.

鈥淚 believe that carbon dioxide should be viewed as more than a combustion waste product of fossil fuel,鈥 he says. 鈥淲e should think of it as a chemical resource to be harvested and recycled into renewable fuel.鈥

His mantra is 鈥渟olar fuels from the sun not fossil fuels from the earth鈥. 

The support from the Connaught Fund runs from September 2015 to December 2017. 

The Connaught Committee also made a $170,000 Global Challenge Award to a second interdisciplinary team led by Professor Amr Helmy of electrical and computer engineering for his project entitled The Quantum Internet: Charting the Critical Path.  缅北强奸 News will post a feature on this project soon.  

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