Chemist Bozhi Tian selected as 2013 Searle Scholar

Bozhi Tian, assistant professor in chemistry, has been named a 2013 Searle Scholar and will receive $300,000 to support his research over the next three years.

Tian’s Searle Scholar project is titled “Silicon-based Biomaterials for an Electrical Study of Single-Neuron Dynamics.” The project will involve using nanoelectronic devices to study how neurons pass signals to one another in a neural network.

His ultimate goal is to use the system to better understand neurodegenerative disease. The Searle project complements other work of Tian’s, aimed at developing nanoelectronic devices for studying bioelectric circuits in cells.

Tian was among 15 Searle Scholars who were selected from 176 applications and nominated by 125 universities and research institutions. The selections were based on demonstrated, innovative research and the potential for making significant contributions to biological research over an extended period.

The Searle Scholars Program is funded through grants from the trusts established under the wills of John G. and Frances C. Searle. John Searle was president of G.D. Searle & Co. of Skokie, Ill., a research-based pharmaceutical company.



Bozhi Tian
Vapor Deposition Lab
John Zimmerman

Bozhi Tian, assistant professor in chemistry, has been named a 2013 Searle Scholar. Tian also recently received a 2013 National Science Foundation Faculty Early Development Award. Last year MIT Technology Review named him one of the world’s top innovators under the age of 35 in emerging fields of science and technology.

Photo by Robert Kozloff

Bozhi Tian grows semiconductor materials, including silicon nanowires, silicon nanomembranes or germanium nanostructures, as components of nanoelectronic devices via a chemical vapor deposition system (pictured).

Photo by Robert Kozloff

Graduate student John Zimmerman works in the tissue culture room of Bozhi Tian’s biochemistry laboratory in the Gordon Center for Integrative Science. In this room Tian’s team performs biological experiments and integrates cells with nanoelectronic devices.

Photo by Robert Kozloff

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