Discoveries in nanotechnology to make clean, fresh drinking water more plentiful

retention. Such polymers conjure visions of smart landscapes that can substantially promote agricultural growth while reducing irrigation needs.

The institutions have moved swiftly following the signing of a memorandum of understanding in Chicago on 8 March to explore a research partnership that would innovate water production and purification technologies to meet a growing thirst for freshwater resources globally. Leading the efforts are Matthew Tirrell, the Pritzker Director of UChicago’s Institute for Molecular Engineering, and Moshe Gottlieb, BGU’s Frankel Professor of Chemical Engineering.

The release notes that the Institute for Molecular Engineering, for its part, will commit tens of millions of dollars to the molecular engineering of water resources over the next decade. The institute is pursuing the molecular engineering of water resources as one of five emerging research themes, with plans to hire up to six faculty members specializing in this area. BGU researchers will have a significant presence in Hyde Park to further facilitate the collaborations.

“The Institute for Molecular Engineering aims to bring molecular-level science to technological problems of global importance,” Tirrell said. “Water technology clearly meets that standard, and the institute brings new ideas for materials, membranes, biotechnologies and catalytic technologies, among other approaches, that could address major needs in this domain.”

Tirrell’s and Gottlieb’s teams met for two days in Israel in April to explore their mutual interests in water chemistry, materials science, flow in soils and other porous substances, microbiology and nanotechnology. The first day of meetings took place on BGU’s main campus in Be’er-Sheva. The researchers reconvened for a second day at BGU’s Sede Boqer campus, site of the Zuckerberg Institute for Water Research.

A BGU contingent will pay a reciprocal visit to Chicago this autumn, following the final selection of their first collaborative projects, to participate in a workshop that will sharpen their research focus.

Tirrell’s team includes researchers at Argonne, which UChicago manages for the U.S. Department of Energy. Argonne has assembled state-of-the-art infrastructure and gathered extensive scientific expertise for the study of clean water technologies. The laboratory’s water-research portfolio includes projects pertaining to wastewater discharges into Lake Michigan, the effects of Glen Canyon Dam operations on the Colorado River through the Grand Canyon, and carbon tetrachloride contamination of surface and groundwater in Kansas, Missouri, and Nebraska.

Researchers at the Marine Biological Laboratory at Woods Hole have been prominent in bringing problems of water contamination to the attention of scientists and the public. MBL brings additional strengths in biological sciences and the marine environment to this developing partnership. UChicago and MBL recently signed a landmark affiliation, effective 1 July, joining the leadership and scientific eminence of the two institutions, while bringing outstanding researchers together for innovative collaborations and education programs in microbial sciences, molecular engineering and related areas.