Thermoelectricity in liquid crystals

Suhana Mohd Said; Abdul Rahman Nordin; Norbani Abdullah; S. Balamurugan

doi:10.1117/12.2188137

5 September 2015 Thermoelectricity in liquid crystals

Suhana Mohd Said, Abdul Rahman Nordin, Norbani Abdullah, S. Balamurugan

Proceedings Volume 9565, Liquid Crystals XIX; 95650J (2015) https://doi.org/10.1117/12.2188137
Event: SPIE Organic Photonics + Electronics, 2015, San Diego, California, United States

Abstract

The thermoelectric effect, also known as the Seebeck effect, describes the conversion of a temperature gradient into electricity. A Figure of Merit (ZT) is used to describe the thermoelectric ability of a material. It is directly dependent on its Seebeck coefficient and electrical conductivity, and inversely dependent on its thermal conductivity. There is usually a compromise between these parameters, which limit the performance of thermoelectric materials. The current achievement for ZT~2.2 falls short of the expected threshold of ZT=3 to allow its viability in commercial applications. In recent times, advances in organic thermoelectrics been significant, improving by over 3 orders of magnitude over a period of about 10 years. Liquid crystals are newly investigated as candidate thermoelectric materials, given their low thermal conductivity, inherent ordering, and in some cases, reasonable electrical conductivity. In this work the thermoelectric behaviour of a discotic liquid crystal, is discussed. The DLC was filled into cells coated with a charge injector, and an alignment of the columnar axis perpendicular to the substrate was allowed to form. This thermoelectric behavior can be correlated to the order-disorder transition. A reasonable thermoelectric power in the liquid crystal temperature regime was noted. In summary, thermoelectric liquid crystals may have the potential to be utilised in flexible devices, as a standalone power source.

Conference Presentation

Citation Download Citation

Suhana Mohd Said, Abdul Rahman Nordin, Norbani Abdullah, and S. Balamurugan "Thermoelectricity in liquid crystals", Proc. SPIE 9565, Liquid Crystals XIX, 95650J (5 September 2015); https://doi.org/10.1117/12.2188137

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