â€œYou give me water of any kind, and I know how to treat it and make it drinkable or reusable.â€
Those are the words of University Alumni Professor of Chemical Engineering Dibakar Bhattacharyya. The director of the University of Kentucky Center of Membrane Sciences is renowned for his research on membranes for filtering and producing clean water. In 2017, Bhattacharyya, universally known as â€œDB,â€ celebrated 50 years of prolific research at UK.
With its enormous amount of membrane activity, the center has received extensive international recognition, and DB has as well. DB and his research colleague, chemical engineering professor Isabel Escobar, are conference chairs for the 2018 North American Membrane Society Annual Meeting to be hosted by UK this June. This conference draws more than 400 scientists from around the world.
â€œDB is one of the leading authorities in the world on membrane and water research,â€ says Escobar. â€œHe has given invited lectures in all continents but Antarctica. His name is known by all doing membrane research as one of the people always on the cutting edge.â€
Recently, DB and his team led membrane studies that were part of two large, multidisciplinary research projects: the NSF EPSCoR Powering the Kentucky Bioeconomy for a Sustainable Future, led by principal investigator Rodney Andrews, and the National Institute of Environmental Health Sciences (NIEHS) UK Superfund Research Center grant, led by PI Bernhard Hennig.
Superfund sites are plots of land are contaminated by hazardous waste, and have been identified by the Environmental Protection Agency as needing cleanup because of the risk they pose to human health. They contain water polluted by highly toxic compounds, such as banned polychlorinated biphenyls (PCBs), and trichloroethylene (TCE). The NIEHS is concerned with the negative health impacts of these compounds and has funded UK to research optimal ways to remove them.
In connection to this nationally significant water purification research, DB and his team are actively researching responsive materials.
â€œThink of a pipe,â€ DB instructs. â€œNormally the diameter is fixed. But what if I put a reactive, long chain biomolecule or polymer on the surface of a nano-sized pipe and changed the acidity of the water slightly, or altered the temperature by one degree? The flow could be changed dramatically.â€
This research has taken DB around the globe. Last year he presented an invited paper at a conference in Portugal, where two of his Ph.D. students also received poster
presentation awards. Also, through Australian Research Council funding, he and his students are making advanced graphene oxide membranes with Monash University.
â€œResearch has no boundaries,â€ he says with a grin.
DB and his team received his most recent grant from NSF through a challenging process based on discussion and a proposal of innovative ideas. This NSF grant in 2017 is from the NSF EAGER program and DB will work with Electrical and Computer Engineering Professor Todd Hastings and Doo Young Kim from the Department of Chemistry.
â€œSometimes, even outstanding proposals donâ€™t get funded. It has to be high-class science, an innovative approach,â€ says DB.
DBâ€™s team brought that innovation to the table by rethinking the process of hydrogen creation from organic waste through light and photobacteria. Though this capability has been known for a long time by biologists, DB and his students discovered near-infrared radiation light was the best light for this process. Using the properties of infrared light to convert organic waste to hydrogen can eventually be used for many practical applications, such as running cars with fuel cells.
Despite the far-reaching implications of his research over five decades, DB ultimately measures his success by different criteriaâ€”his students.
DB spends hours preparing innovative lectures and grading exams. His weekend is often not a weekend, as he balances class and research and talks to students at all hours of the night. DB says his wife, Gale, a retired teacher of over 22 years, is â€œhighly supportive of his work at UK and provides motivation and joy.â€
Further, his motivation in laboring on his grants is to open up possibilities for Ph.D. and undergraduate students. Grants make it possible for students to earn degrees and perform important lab research to bring innovations. This reality continues to drive DB, even in his sixth decade at UK.
â€œItâ€™s not about me,â€ he reflects. â€œSome of my past students are presidents and group leaders of companies. They make way more money than I make and are highly successful. For me, that is success.â€