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Solving the thermoelectric 'trade-off' conundrum with metallic carbon nanotubes

November 30, 2019

Tokyo, Japan - Scientists from Tokyo Metropolitan University have used aligned "metallic" carbon nanotubes to create a device which converts heat to electrical energy (a thermoelectric device) with a higher power output than pure semiconducting carbon nanotubes (CNTs) in random networks. The new device bypasses the troublesome trade-off in semiconductors between conductivity and electrical voltage, significantly outperforming its counterpart. High power thermoelectric devices may pave the way for more efficient use of waste heat, like wearable electronics.

Thermoelectric devices can directly convert heat to electricity. When we think about the amount of wasted heat in our environment like in air conditioning exhausts, vehicle engines or even body heat, it would be revolutionary if we could somehow scavenge this energy back from our surroundings and put it to good use. This goes some way to powering the thought behind wearable electronics and photonics, devices which could be worn on the skin and powered by body heat. Limited applications are already available in the form of body heat powered lights and smartwatches.

The power extracted from a thermoelectric device when a temperature gradient is formed is affected by the conductivity of the device and the Seebeck coefficient, a number indicating how much electrical voltage is generated with a certain difference in temperature. The problem is that there is a trade-off between the Seebeck coefficient and conductivity: the Seebeck coefficient drops when the device is made more conductive. To generate more power, we ideally want to improve both.

Semiconducting materials are generally considered superior candidates for high-performance thermoelectric devices. However, a team led by Prof. Kazuhiro Yanagi of Tokyo Metropolitan University met an unlikely hero in the form of "metallic" CNTs. Unlike purely semiconducting CNTs, they found that they could simultaneously enhance both the conductivity and Seebeck coefficient of metallic CNTs, breaking the trade-off between these two key quantities. The team went on to show that these unique characteristics arose from the one-dimensional metallic electronic structure of the material. Furthermore, they were able to align the orientation of the metallic CNTs, achieving an output which was nearly five times that of films of randomly oriented pure semiconducting CNTs.

Not only will high-performance thermoelectric elements let us use body heat to power our smartphones, the potential biomedical applications will ensure that they play an important role in everyday applications in the future.
-end-
This work was supported by the JSPS KAKENHI Program through Grant Numbers JP17H06124, JP17H01069, and JP18H01816, and the JST CREST Program through Grant Number JPMJCR17I5.

Tokyo Metropolitan University

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