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Mechanical engineer Deyu Li in the lab and pair of boron nanoribbons stuck together on a microdevice used to measure thermal conductivity (small image). (Courtesy of the Li Lab & Daniel Dubois/Vanderbilt University)https://www.led-professional.com/media/technology_thermal-management_new-method-for-enhancing-thermal-conductivity-could-cool-computer-chips-lasers-leds-and-other-devices_Mechanical%20engineer%20Deyu%20Li%20in%20the%20lab%20and%20pair%20of%20boron%20nanoribbons.jpg/viewhttps://www.led-professional.com/media/technology_thermal-management_new-method-for-enhancing-thermal-conductivity-could-cool-computer-chips-lasers-leds-and-other-devices_Mechanical%20engineer%20Deyu%20Li%20in%20the%20lab%20and%20pair%20of%20boron%20nanoribbons.jpg/@@images/image-1200-5b198d28301947172ba844992dea1653.jpeg
Mechanical engineer Deyu Li in the lab and pair of boron nanoribbons stuck together on a microdevice used to measure thermal conductivity (small image). (Courtesy of the Li Lab & Daniel Dubois/Vanderbilt University)
