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5 April 2020

Is rare earth still China’s dominant lever?

The second-most important issue on everyone's mind after the Coronavirus, is Rare Earths - those metallic elements like scandium and cerium, used in every aspect of modern electronics like our cell phones, rechargeable batteries, florescent lighting. The reason is: China. China has the world's largest deposits and production of rare earths, and has not hesitated to withhold its export to countries that disagree with it in the past. 

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30 January 2020

China’s energy challenges: lessons for India

China’s clean-up of its cities and its success in improving urban air quality hold important lessons for India. But the outbreak of the corona virus and reports that news about it was initially suppressed tell a different story. While physical infrastructure is important, equally vital are a free media and an open society, where people are not afraid to speak

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16 October 2019

Powering hydrogen mobility for India

Decarbonising the transportation sector is an environmental priority globally, and hydrogen, the cleanest and most plentiful of fuels, is central to achieving this goal. If hydrogen mobility is actively pursued, India’s large reserves of gas hydrates and shale gas can be tapped for commercial use. Such a shift in choice of fuel will also ensure India’s energy security

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10 October 2019

Climate engineering vs. geoengineering

The United Nations’ Paris Agreement of 2015 had nations committing to reduce emissions of greenhouse gases to slow the rise in global temperatures. But terrestrial geoengineering – or the use of “carbon capture” technologies and developing carbon sinks to remove gases already in the atmosphere – and atmospheric climate engineering are technologies which also seek to slow global warming

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16 July 2019

The Methane Economy

The United Nations’ 2015 Paris Agreement called for the immediate sequestration of atmospheric anthropogenic greenhouse gases to help avert serious environmental degradation. India can take the lead in this because it is the second largest emitter of methane. Of all the natural greenhouse gases, methane is the hardiest. Technological advances are making it possible to crack methane into gaseous hydrogen and solid carbon on a commercial scale. Methane cracking can provide a steady supply of hydrogen for futuristic transportation and solid carbon materials — graphene, carbon nanotubes, synthetic diamonds — which are integral to the marine, aerospace and space industries. The commercial benefits apart, methane cracking will also go a long way in meeting the Paris Agreement’s climate change mitigation objectives. This paper offers some concrete recommendations that can help the government of India shape national legislation and global geoeconomic strategies

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11 July 2019

Making India a Methane Economy

India is the second largest emitter of methane in the world. But methane-cracking has enormous economic potential. It can help India become a high-technology manufacturing powerhouse by producing a steady supply of methane-derived, advanced carbon materials and hydrogen-energized transportation

India-CanadaPaper4_Cover Courtesy: Gateway House & CIGI
15 March 2019

Preparing for Climate Intervention Decision Making in the Global South: A Role for Canada and India

The use of climate intervention technologies has not taken into sufficient account the social dimensions of climate intervention research, which includes citizen participation and pooling of knowledge resources. To fill this lacuna, Canada and India can examine what participation in climate intervention research means in the context of an African country to be able to evolve a more international view; urge both countries to conduct national policy discussions on climate intervention research; and increase public awareness of climate intervention technologies

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28 February 2019

Making Terrestrial Geoengineering Technologies Viable: An Opportunity for India-Canada Climate Leadership

The use of terrestrial geoengineering techniques, such as carbon capture, is necessary to keep the rise in global temperatures below 1.5 degrees Celsius, as per the Paris Agreement’s targets. Terrestrial geoengineering is different from atmospheric climate engineering: the latter does not remove the very source of the increased greenhouse effect, which are anthropogenic greenhouse gases. India and Canada must collaborate on carbon capture and propose multilateral regulations for unethical atmospheric climate engineering