1040 Items

Video - Harvard University Center for the Environment

Video: Foundations for a Low-Carbon Energy System in China

Daniel Schrag and Henry Lee discuss the policies China could enact in the near-term to ease its transition to a low-carbon economy, the subject of their book Foundations for a Low-Carbon Energy System in China (Cambridge University Press, 2021). 

A field of manganese nodules off the coast of Hawaii

NOAA Office of Ocean Exploration and Research, 2015 Hohonu Moana

Analysis & Opinions - The Wire China

The Ocean Edge

| Nov. 06, 2022

The energy transition has made deep-sea mining for critical minerals cost-competitive for the first time, and Chinese companies are champing at the bit to start mining at a commercial scale. The United States and its partners, by contrast, have been caught on the back foot when it comes to China’s stranglehold on the critical mineral supply chain. With the geopolitical rivalry between China and the United States intensifying, many Western observers say the United States can’t afford to lose the scramble for the seabed. 

An array of mirrors at the Ivanpah Solar Electric Generating site in Primm, Nevada on Aug. 13, 2014

AP Photo/John Locher, File

Paper - Belfer Center for Science and International Affairs, Harvard Kennedy School

Financing the Energy Transition through Cross-Border Investment

| November 2022

Ely Sandler and Daniel Schrag propose a new approach to Article 6 of the Paris agreement, arguing that states must use cross-border investment to finance the energy transition. By linking additionality to an investment’s impact on cost of capital, Sandler and Schrag demonstrate how Article 6 can leverage blended finance to de-risk private investment, creating a new model of public private partnership. The paper uses case studies from the Middle East and North Africa region to demonstrate the potential economic, environmental and political benefits of cooperation on Article 6.  

wind turbines in distant field

Gary Scott/Unsplash

Press Release - University of California Berkeley

New Study Examines Drivers of Government Investment in Energy Innovation

    Author:
  • Mathew Burciaga
| Sep. 12, 2022

New forms of international cooperation and technology competition with China are the main drivers of public investment in energy innovation, though it remains insufficient to help meet climate goals.

solar panels at the Cochin International Airport in Kochi, Kerala state, India

AP Photo/R S Iyer

Journal Article - Innovation and Development

Catching-Up in Green Industries: The Role of Product Architecture

| Aug. 23, 2022

As latecomers to the industrialization process, developing countries may face barriers to upgrading from the production of mass-produced goods to higher-value technologies. Using a comparative qualitative case study focusing on three renewable energy technologies, this paper develops a typology of catching-up opportunities in green energy industries and finds that policymakers should target certain technologies in their industrial strategies based on certain technology characteristics, and should seek opportunities to capitalize on a local niche that creates a need for innovation.

Press Release - Belfer Center for Science and International Affairs, Harvard Kennedy School

Harvard Belfer Center's Arctic Initiative Announces New “Permafrost Pathways” Project

| Apr. 11, 2022

The Arctic Initiative at Harvard Kennedy School’s Belfer Center for Science and International Affairs, in collaboration with Woodwell Climate Research Center, the Alaska Institute for Justice, and the Alaska Native Science Commission, announced the launch of Permafrost Pathways: Connecting Science, People, and Policy for Arctic Justice and Global Climate. A multipronged $41 million initiative catalyzed through the The Audacious Project, the Pathways project will bring together leading experts in climate science, policy action, and environmental justice to inform and develop adaptation and mitigation strategies that address the local and global impacts of Arctic permafrost thaw.