355 Items

orca carbon capture plant

Belfer Center/Elizabeth Hanlon

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

Prospects for Direct Air Carbon Capture and Storage: Costs, Scale, and Funding

| Nov. 30, 2023

Al-Juaied and Whitmore examine the costs and prospects for direct air carbon capture and storage (DACCS), and identify types of funding needed for early deployment for DACCS and building momentum for later widespread deployment. The challenges of implementing DACCS at very large scale further emphasize the need for urgent and widespread action to reduce emissions, which should continue to be the main priority for meeting climate goals.

Policy Brief

Database on U.S. Department of Energy (DOE) Budgets for Energy Research, Development, & Demonstration (1978–2023R)

| Apr. 13, 2022

The attached document contains April 2022 updates to our database on U.S. government investments in energy research, development, demonstration, and deployment (ERD3) through the Department of Energy.

A consumer hydrogen fuel pump in Germany

Adobe Stock

Policy Brief

The Geopolitics of Renewable Hydrogen

| May 2021

Renewables are widely perceived as an opportunity to shatter the hegemony of fossil fuel-rich states and democratize the energy landscape. Virtually all countries have access to some renewable energy resources (especially solar and wind power) and could thus substitute foreign supply with local resources. Our research shows, however, that the role countries are likely to assume in decarbonized energy systems will be based not only on their resource endowment but also on their policy choices.

Travelers from China’s Wuhan and other cities go through body temperature scanners at Narita international airport in Narita, near Tokyo, Thursday, Jan. 23, 2020.

AP Photo/Eugene Hoshiko

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

Weaponizing Digital Health Intelligence

| January 2020

This paper argues that these potential vulnerabilities deserve rigorous, urgent, and thorough investigation. First, it draws from cybersecurity literature, and reviews general sources of vulnerability in digital systems. Next, with these sources of vulnerability in mind, it reviews the health intelligence systems used in the US as well as in a current Public Health Emergency of International Concern (PHEIC), the Ebola outbreak in the Democratic Republic of the Congo (DRC). It then It then reviews the possible motives state actors have to attack health intelligence systems, drawing on recent examples of state-led efforts to manipulate, conceal, or undermine health information. It then speculates about what an attack on a health intelligence system might look like. It concludes by proposing a research and education agenda to thoroughly interrogate these issues and generate policy recommendations needed to address them.

Deputy Secretary of Defense Ashton B. Carter speaks at the 3rd Annual ARPA-E Energy Innovation Summit

DoD/Erin A. Kirk-Cuomo

Analysis & Opinions - The Hill

Our National Experiment in R&D for Clean Energy Just Turned 10

The authors recount the history of ARPA-E and describe how it has supported clean energy innovation in the United States. They argue that ARPA-E needs two things in the short term in order to increase its chances of success in the long term: resources and a leader who can channel the country's top science and engineering talent toward particularly tough technical challenges.

biohazard bag in laboratory

Wikimedia CC/R.Bektaev

Analysis & Opinions - CNN

What Digital Nerds and Bio Geeks Have to Worry About

| Sep. 13, 2019

The authors explain how the risks of computer systems are transferring to biological systems. The difference is that biological systems have the potential to cause a greater degree of damage than computer systems. Stringent biocontainment helps, but no containment system provides zero risk.

an operator inspects a photolithography tool used to manufacture these solar cells.

Daniel Derkacs/SolarJunction

Journal Article - Research Policy

Governments as Partners: The Role of Alliances in U.S. Cleantech Startup Innovation

Accelerating innovation in clean energy technologies is a policy priority for governments around the world aiming to mitigate climate change and to provide affordable energy. Most research has focused on the role of governments financing R&D and steering market demand, but there is a more limited understanding of the role of direct government interactions with startups across all sectors. The authors  propose and evaluate the value-creation mechanisms of network resources from different types of partners for startups, highlighting the unique resources of government partners for cleantech startups. 

Venkatesh "Venky" Narayanamurti

Eliza Grinnell/Harvard SEAS

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

"Venky" Narayanamurti Honored with Bueche Award

    Author:
  • Leah Burrows
| Oct. 03, 2018

Professor Venkatesh "Venky" Narayanamurti is the Benjamin Peirce Research Professor of Technology and Public Policy at Harvard University, former dean of the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), and former director of the Belfer Center's Science, Technology, and Public Policy Program. The award is one of the highest honors given by the National Academy of Engineering, and recognizes an engineer who has shown dedication in science and technology as well as active involvement in determining U.S. science and technology policy.

Solar panels at the National Renewable Energy Laboratory gather sunlight at the test facility

AP/Jack Dempsey

Journal Article - MRS Energy & Sustainability

Nurturing Transformative U.S. Energy Research: Two Guiding Principles

The authors raise for debate and discussion what in their opinion is a growing mis-control and mis-protection of U.S. energy research. They outline the origin of this mis-control and mis-protection, and propose two guiding principles to mitigate them and instead nurture research: (1) focus on people, not projects; and (2) culturally insulate research from development, but not science from technology.