NSF ERC for Carbon Utilization Redesign through Biomanufacturing-Empowered Decarbonization

The CURB Engineering Research Center will transform U.S. manufacturing by curbing CO2 emissions and decreasing the human ecological footprint. CURB will advance, deploy, and scale innovative hybrid electro-biomanufacturing engineered systems to empower a new circular carbon economy wherein CO2 will serve as valuable feedstock for manufacturing a broad range of products much more efficiently than current state-of-the-art and natural systems do. CURB will create cost-effective and emissions-free biomanufacturing technologies, facilitating the next-generation bioeconomy and empowering industrial decarbonization. The emerging decarbonization and bioeconomy industries have grown rapidly to $4.5 and $4 trillion respectively, representing unparalleled opportunities for U.S. economic growth and millions of job opportunities. CURB uniquely converges these two sectors to turn our most daunting sustainability challenges into powerful catalysts for economic growth. Ultimately, CURB will transform U.S. manufacturing to zero- and negative emissions, valorize waste CO2 from broad industries, mitigate climate change, reduce hazardous compounds in emissions, and produce plastics that are biodegradable rather than polluting. Through partners ranging from start-ups to major corporations, CURB's technology commercialization will empower a billion-ton level carbon emission reduction and tens of billions of dollars in economic growth.
 

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy and Sustainability

Location

St. Louis, Missouri

Lead Institution

Washington University in St. Louis

Start Year

Fact Sheet

Core Partners

University of Delaware
Prairie View A&M University
Texas A&M University

Center News and Achievements

Locations

Additional Information

Focus

CURB will create manufacturing systems that convert CO2 to a broad range of products much more efficiently than current state-of-the-art engineered and natural systems do.

Graduation Date

Education Web Page

Research Opportunities for Undergrads

Student Leadership Council

NSF ERC for Carbon Utilization Redesign through Biomanufacturing-Empowered Decarbonization

The CURB Engineering Research Center will transform U.S. manufacturing by curbing CO2 emissions and decreasing the human ecological footprint. CURB will advance, deploy, and scale innovative hybrid electro-biomanufacturing engineered systems to empower a new circular carbon economy wherein CO2 will serve as valuable feedstock for manufacturing a broad range of products much more efficiently than current state-of-the-art and natural systems do. CURB will create cost-effective and emissions-free biomanufacturing technologies, facilitating the next-generation bioeconomy and empowering industrial decarbonization. The emerging decarbonization and bioeconomy industries have grown rapidly to $4.5 and $4 trillion respectively, representing unparalleled opportunities for U.S. economic growth and millions of job opportunities. CURB uniquely converges these two sectors to turn our most daunting sustainability challenges into powerful catalysts for economic growth. Ultimately, CURB will transform U.S. manufacturing to zero- and negative emissions, valorize waste CO2 from broad industries, mitigate climate change, reduce hazardous compounds in emissions, and produce plastics that are biodegradable rather than polluting. Through partners ranging from start-ups to major corporations, CURB's technology commercialization will empower a billion-ton level carbon emission reduction and tens of billions of dollars in economic growth.
 

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy and Sustainability

Location

St. Louis, Missouri

Lead Institution

Washington University in St. Louis

Start Year

Website

Fact Sheet

Core Partners

University of Delaware
Prairie View A&M University
Texas A&M University

Focus

CURB will create manufacturing systems that convert CO2 to a broad range of products much more efficiently than current state-of-the-art engineered and natural systems do.

Graduation Date

Education Web Page

Research Opportunities for Undergrads

Student Leadership Council

Center News and Achievements

Locations

NSF ERC for Carbon Utilization Redesign through Biomanufacturing-Empowered Decarbonization

The CURB Engineering Research Center will transform U.S. manufacturing by curbing CO2 emissions and decreasing the human ecological footprint. CURB will advance, deploy, and scale innovative hybrid electro-biomanufacturing engineered systems to empower a new circular carbon economy wherein CO2 will serve as valuable feedstock for manufacturing a broad range of products much more efficiently than current state-of-the-art and natural systems do. CURB will create cost-effective and emissions-free biomanufacturing technologies, facilitating the next-generation bioeconomy and empowering industrial decarbonization. The emerging decarbonization and bioeconomy industries have grown rapidly to $4.5 and $4 trillion respectively, representing unparalleled opportunities for U.S. economic growth and millions of job opportunities. CURB uniquely converges these two sectors to turn our most daunting sustainability challenges into powerful catalysts for economic growth. Ultimately, CURB will transform U.S. manufacturing to zero- and negative emissions, valorize waste CO2 from broad industries, mitigate climate change, reduce hazardous compounds in emissions, and produce plastics that are biodegradable rather than polluting. Through partners ranging from start-ups to major corporations, CURB's technology commercialization will empower a billion-ton level carbon emission reduction and tens of billions of dollars in economic growth.
 

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy and Sustainability

Location

St. Louis, Missouri

Lead Institution

Washington University in St. Louis

Start Year

Fact Sheet

Core Partners

University of Delaware
Prairie View A&M University
Texas A&M University

Center News and Achievements

Additional Information

Focus

CURB will create manufacturing systems that convert CO2 to a broad range of products much more efficiently than current state-of-the-art engineered and natural systems do.

Graduation Date

Education Web Page

Research Opportunities for Undergrads

Student Leadership Council

Locations