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Research Profiles

Inside the research labs of the Engineering Quad, the familiar routines of classes, schedules, home, work, and exams give way to the amazing possibilities of tomorrow: tiny bionic motors that could power microscopic devices to deliver drugs directly to the site of a tumor, hearing aids based on the unique structure of a fly’s ear, even brain cells growing on silicon columns—a project that could someday lead to the ability to rewire damaged brains. Firmly grounded in more than a century of innovation, research in engineering at Cornell University today is creating the tools that will unlock the promises of tomorrow.

Meet some of our faculty members who were recently in the news:

 
Applying squeeze could lead to 'instant on' memory
Darryl Schlom Researchers have deposited strontium titanate on silicon in such a way that the silicon squeezes it into a ferroelectric state -- a result that could prove key to low-power, high-efficiency electronic memory devices.
Darrell Schlom
DNA-based gel produces proteins without live cells
Dan Luo A new method developed by Cornell biological engineers offers an efficient way to make proteins for use in medicine or industry without the use of live cells.

Also:
Metal sheets with DNA framework may enable nanocircuits
DNA molecules engineered to detect pathogens
Dan Luo
Role of protein in tumors studied in 3D
Claudia Fischbach-Teschl By observing the behavior of cancer cells grown in both two and three dimensions, a Cornell researcher has shown that a previously underestimated protein could be a key factor in allowing cancer to grow and spread.
Claudia Fischbach-Teschl
Butcher studies embryonic heart valve development
Jonathan Butcher Biomedical engineer Jonathan Butcher is studying heart valve development from the very beginning of the process. He hopes that a greater understanding will lead to new treatments for valve disease.
Jonathan Butcher
 
 
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