Joseph Francisco was born in New Orleans, Louisiana, on March 26, 1955. He was born to Lucinda and Joe Francisco.,Sr but grew up in Beaumont, Texas with his grandmother Sarah Walker. As he was growing up in Beaumont, Texas, his possibilities were limited because of who he was and what he looked like. His life consisted of day-to-day tasks and was never about future planning. College was a far-fetched dream, so he never paid much attention to it. Despite the uncertainty, his grandmother, Sarah Walker, who was a strong woman and a great role model for him—was supportive and encouraged him to get an education. He attended Forest Park High School. Dr. Richard B. Price Of Lamar University who he had met by chance encouraged him to pursue a college education. In 1973, he entered the University of Texas, Austin and graduated in 1977. He entered the Massachusetts Institute of Technology, as a graduate student. In 1983, at age 27, Francisco decided to travel to pursue and obtain his Postdoctoral research Fellow in Cambridge University, England. In 1992, Francisco married Priya, and has three daughters. He currently resides in Philadelphia with his family.
Career
Academic chemist
As a researcher, Francisco has made important contributions in many areas of Atmospheric Chemistry. His research revolutionized our understanding of chemical processes in the atmosphere. Francisco and his colleague , the University of Pennsylvania's Edmund J. Kahn Distinguished Professor have discovered an unusual molecule that is essential to the atmosphere's ability to break down pollutants, especially the compounds that cause acid rain. It's the unusual chemistry facilitated by this molecule, however, that will attract the most attention from scientists. Somewhat like a human body metabolizing food, the Earth's atmosphere has the ability to "burn," or oxidize pollutants, especially nitric oxides emitted from sources such as factories and automobiles. What doesn't get oxidized in the atmosphere falls back to Earth in the form of acid rain. "The chemical details of how the atmosphere removes nitric acid have not been clear," Francisco says. "This gives us important insights into this process. Without that knowledge we really can't understand the conditions under which nitric acid is removed from the atmosphere. Francisco says the discovery will allow scientists to better model how pollutants react in the atmosphere and to predict potential outcomes.A technical paper describing the molecule is published in a special edition of the Proceedings of the National Academy of Sciences. Francisco's laboratory focuses on basic studies in spectroscopy, kinetics, and photochemistry of novel transient species in the gas phase. Joe has published more than 400 journal articles, written nine book chapters and co-authored the textbook, Chemical Kinetics and Dynamics.
