Icon showing an expanding box as a metaphor for the expansion of human knowledge brought on by new scientific discoveries
Photochemistry and a new catalyst could make fertilizer more sustainable

Georgia Tech engineers are working to make fertilizer more sustainable — from production to productive reuse of the runoff after application — and a pair of new studies is offering promising avenues at both ends of the process.

In one paper, researchers have unraveled how nitrogen, water, carbon, and light can interact with a catalyst to produce ammonia at ambient temperature and pressure, a much less energy-intensive approach than current practice. The second paper describes a stable catalyst able to convert waste fertilizer back into nonpolluting nitrogen that could one day be used to make new fertilizer.

Significant work remains on both processes, but the senior author on the papers, Marta Hatzell, said they’re a step toward a more sustainable cycle that still meets the needs of a growing worldwide population.

Image
Credit:
fotokostic

Location

Lubbock, Texas

e-mail

casfer@ttu.edu

Start Year

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy and Sustainability

Lead Institution

Texas Tech University

Core Partners

Case Western Reserve University, Florida A&M University, Georgia Tech, Massachusetts Institute of Technology

Icon showing an expanding box as a metaphor for the expansion of human knowledge brought on by new scientific discoveries
Photochemistry and a new catalyst could make fertilizer more sustainable

Image
Credit:
fotokostic

Location

Lubbock, Texas

e-mail

casfer@ttu.edu

Start Year

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy and Sustainability

Lead Institution

Texas Tech University

Core Partners

Case Western Reserve University, Florida A&M University, Georgia Tech, Massachusetts Institute of Technology

Georgia Tech engineers are working to make fertilizer more sustainable — from production to productive reuse of the runoff after application — and a pair of new studies is offering promising avenues at both ends of the process.

In one paper, researchers have unraveled how nitrogen, water, carbon, and light can interact with a catalyst to produce ammonia at ambient temperature and pressure, a much less energy-intensive approach than current practice. The second paper describes a stable catalyst able to convert waste fertilizer back into nonpolluting nitrogen that could one day be used to make new fertilizer.

Significant work remains on both processes, but the senior author on the papers, Marta Hatzell, said they’re a step toward a more sustainable cycle that still meets the needs of a growing worldwide population.