CSMC researchers announce a major scientific advance to study and understand the aqueous chemistry of aluminum.
As reported in OSU Today and Science360: "CSMC researchers announced a scientific advance that has eluded researchers for more than 100 years – a platform to fully study and understand the aqueous chemistry of aluminum, one of the world's most important metals. The findings, reported in Proceedings of the National Academy of Sciences, should open the door to significant advances in electronics and many other fields, ranging from manufacturing to construction, agriculture and drinking water treatment.
Aluminum, in solution with water, affects the biosphere, hydrosphere, geosphere and anthrosphere, the scientists said in their report. It may be second only to iron in its importance to human civilization. But for a century or more, and despite the multitude of products based on it, there has been no effective way to explore the enormous variety and complexity of compounds that aluminum forms in water. Now there is. "This integrated platform to study aqueous aluminum is a major scientific advance," said Douglas Keszler, a distinguished professor of chemistry in the OSU College of Science, and director of the Center for Sustainable Materials Chemistry."
Link to PNAS article early edition: Wei Wang, Weimin Liu, I-Ya Chang, Lindsay A. Wills, Lev N. Zakharova, Shannon W. Boettcher, Paul Ha-Yeon Cheonga, Chong Fanga, and Douglas A. Keszler "Electrolytic synthesis of aqueous aluminum nanoclusters and in situ characterization by femtosecond Raman spectroscopy and computations"