Arts & Sciences Magazine

The nine-story, 170,000-square-foot Rajen Kilachand Center for Integrated Life Sciences & Engineering represents an investment of a quarter of a billion dollars—a $135 million construction commitment from BU and a $115 million gift from Rajen Kilachand (Questrom’74, Hon.’14). Photo by Janice Checchio

By BU Today Staff

With a powerful boost from the largest gift in its history, Boston University on September 14, 2017, officially opened the Rajen Kilachand Center for Integrated Life Sciences & Engineering, a state-of-the-art research facility that brings together life scientists, engineers, and physicians from the Medical Campus and Charles River Campus and promises to speed life-changing developments in the fields of human health, environment, and energy.

The nine-story, 170,000-square-foot building at 610 Commonwealth Avenue represents an investment of a quarter of a billion dollars—a $135 million construction commitment from BU and a $115 million gift from Rajen Kilachand (Questrom’74, Hon.’14). The BU trustee designated $15 million to support construction of the center and $100 million for an endowment to support research at the intersection of engineering and the life sciences. Kilachand, the University’s most generous donor, pledged $25 million in 2011 to establish Kilachand Honors College and $10 million in 2012 for renovations to Kilachand Hall, at 91 Bay State Road.

University President Robert A. Brown says Kilachand’s latest contribution will fund research that could change the future of healthcare. “Rajen Kilachand’s gift establishes an endowment that will support research in perpetuity,” says Brown. “It will support hundreds of scientists, researchers, and graduate students working on research that will affect the human condition through research as varied as direct applications to human health, sustainable methods for producing organic materials, food security, and understanding the impact of climate change on all life. The Kilachand Center and the research fund will influence all the ways that life sciences and engineering come together to affect our future.”

Kilachand says he believes the new center’s combination of researchers from medicine, engineering, and neuroscience will be the model for future life sciences research, in both academia and industry. “I’m very excited about that collaboration,” he says. “I’m convinced that this research center is going to be the front-runner. I believe from the bottom of my heart that this will become one of the leading research institutes on the planet.”

The Kilachand Center will eventually be home to about 160 researchers, postdoctoral scholars, and staff, as well as 270 graduate students, all of whom will work in shared, flexible work spaces, meeting rooms, and other common areas designed to encourage collaboration. The center will include researchers from the Biological Design Center, where, under the leadership of Christopher Chen, a College of Engineering Distinguished Professor and a professor of biomedical engineering, researchers will use technologies like DNA sequencing and synthesis, 3-D printers, and robotics to deepen their understanding of synthetic biology and tissue engineering. At the Center for Systems Neuroscience, led by Michael Hasselmo, a College of Arts & Sciences professor of psychological and brain sciences, researchers will explore the ways nerve cells in different brain regions interact to guide functions such as learning, memory, speech, perception, and attention.

And at the Center for Research in Sensory Communication & Emerging Neural Technology, directed by Barbara Shinn-Cunningham, an ENG professor of biomedical engineering, neuroscientists and sensory physiologists will study hearing, speech, and language.

“Each of these centers incorporates faculty from a wide range of disciplines,” says Gloria Waters, BU vice president and associate provost for research. “We have faculty who are taking computational approaches to these areas, faculty who are involved in basic science, basic biochemistry. And we have faculty doing behavioral testing of various sorts. Those are really nice combinations of faculty from a variety of schools and colleges, a variety of departments, and a variety of disciplines.”

Those faculty, says Waters, are among the most innovative researchers in their fields, and the Kilachand Center will be home to one of academia’s largest and most highly regarded clusters of researchers working in neuroscience.

Waters says recent decades have seen a revolution in the ways we solve problems at the nexus of life sciences and engineering. “Researchers have done an amazing job of bringing ideas and technology from engineering, as well as from the physical sciences and computational sciences, to the field of life sciences,” she says. They are working on technologies that will help such things as drug delivery to specific targets and on tissue engineering, Alzheimer’s disease, and new hearing aids. “There is tremendous potential for faculty at the Kilachand Center to make significant impacts in areas of disease and disability.”

“When you think about great research universities,” Brown says, “many have been built on tremendous strength in traditional disciplines. We believe that a differentiator for Boston University, both educationally for our students and in our impact on society through our research and scholarship, is to be very, very good at bringing those people together across those boundaries to work on the grand challenges—the very important problems the world has today. If we can be an institution that is known as having both the disciplinary strength and one that is singularly good at bringing those people together in unique combinations that solve the problems of the time, that will be a rare environment for our students to study and do research in. That’s the university we’re trying to create, and I think step-by-step, piece by piece, we’re doing this.”