While much of her research, and that of many other labs,
The researchers had been trying to solve the wrong problem, she says. Dave, now a research affiliate at MIT and CEO of a startup company working on new filter systems, was able to readjust her research focus and develop a potentially more useful set of applications for her work. But she and her thesis advisor, MIT professor of materials science and engineering Jeffrey Grossman, thought the process they went through might hold important lessons for other researchers about the importance of doing detailed economic analysis and having in-depth conversations with people using the technology that the research is focused on.
Dave, Grossman, and their co-researchers Brent Keller PhD '16 and Karen Golmer, innovator in residence at MIT's Deshpande Center for Technological Innovation, have published an account of their experience in this process, using their work on membranes as a case study, in the journal Joule. That paper, Grossman says, is "not about our membrane per se," though they do discuss the details of its development, but rather it is "our story of bridging the gap between the research and how to commercialize it." Grossman is the Morton and Claire Goulder and Family Professor in Environmental Systems.
Dave and Grossman were working on a new approach to desalination by using sheets of specially prepared graphene oxide, which they showed could improve the flow rate through the filter by a hundredfold compared to conventional polymer membranes. That sounded like something that could have a major impact on the efficiency and cost of this expensive process, which is a key source of potable water in many arid parts of the world.
Read more at: https://phys.org/news/2017-10-reveals-benefits-industry.html#jCp
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