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| with conversion efficiency more than 10 times higher than existing methods |
TOKYO, Apr 25, 2016 - (JCN Newswire) - NEC Corporation , NEC TOKIN Corporation and TOHOKU UNIVERSITY have jointly created a thermoelectric (TE) device(1) using cutting edge thermoelectric conversion technology, the spin Seebeck effect(2), with conversion efficiency 10 times higher than the conventional method(3).
Thermoelectric conversion technology that converts energy abandoned as waste heat back to electric power is strongly anticipated to be used for saving energy and reducing greenhouse gas emissions. Although conventional spin Seebeck thermoelectric devices have the advantages of a low manufacturing cost and high versatility and durability, their energy conversion efficiency is inferior.
"We have improved the conversion efficiency of this spin Seebeck thermoelectric device by more than 10 times because of its newly developed material and device structure," said Soichi Tsumura, General Manager, IoT Device Research Laboratories, NEC Corporation. "Furthermore, devices made of flexible material, such as resin, have been achieved using a manufacturing process that does not require high-temperature heat treatment."
"The conversion efficiency of this new spin thermoelectric device has been improved by almost one million times when compared to the earliest device, and has taken an important step towards practical use as a generator element. The achievement of practical use as a heat flux sensor is also in sight."
In the future, the three parties participating in this development aim to further the research and development of technologies to generate electricity from the large amount of waste heat emitted by plants, data centers, vehicles and others.
Key features of this new technology are as follows:
1. Development of a low-cost, high-performance ferromagnetic alloy and significant improvement in thermoelectric conversion efficiency
Conventionally, expensive platinum was used as the electrode material to extract electric power in a spin Seebeck thermoelectric device. This time, new cobalt alloys were developed to replace the platinum. As a result, the cost was significantly reduced. Furthermore, the combination of the thermoelectric effect termed the "Anomalous Nernst Effect,"(4) appearing due to the ferromagnetic properties added to the cobalt alloys and the spin Seebeck effect, have improved the thermoelectric conversion efficiency by more than 10 times.
2. Devices with bending resistance and low heat treatment temperature achieved by new deposition technology
New deposition technology fabricates a fine ferrite film for spin Seebeck thermoelectric devices at 90 degrees Celsius, much lower than the 700 degrees Celsius used with the conventional method. Owing to the decrease in heat treatment temperature, elements can be created on the surface of plastic film, etc., and flexible devices of various shapes are created.
This achievement was published in Scientific Reports(6) issued on March 15, 2016.
These results were achieved as part of the Exploratory Research for Advanced Technology (ERATO) "SAITOH Spin Quantum Rectification Project" (Research Director: Eiji Saitoh, Professor of Tohoku University; Research Period: 2014 - 2020 fiscal year) of the Japan Science and Technology Agency (JST).
(1) The Spin Seebeck effect is a thermoelectric effect discovered in 2008 by Prof. Eiji Saitoh and Associate Prof. Ken-ichi Uchida of Tohoku University (Keio University at that time). This is a phenomenon in which a temperature gradient applied in a magnetic material produces a spin current along the temperature gradient. The spin current is a flow of a magnetic property of an electron, so-called "spin".
(2) A thermoelectric device is a device which converts thermal energy directly into electricity and vice versa.
(3) Compared with a test module that was produced based on a multi-layered SSE technology published by the Tohoku University group in 2015.
(4) The anomalous Nernst effect is a thermoelectric effect discovered about 100 years ago, which relates to the magnetic property of a conductive material.
(5) References are as follows, A. Kirihara et. al., Nature Materials 11, (2012) 686. M. Ishida, NEC Technical Journal 66(1), (2013). R. Ramos et. al., Phys. Rev. B 92, (2015) 220407(R)
(6) An open access scientific journal published by Nature Publishing Group, UK.
Contact:
NEC
Seiichiro Toda
s-toda@cj.jp.nec.com
+81-3-3798-6511
Topic: Press release summary
Source: NEC Corporation
Sectors: Electronics
http://www.acnnewswire.com
From the Asia Corporate News Network
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