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High Positive Seebeck Coefficient of Aqueous I<sup>–</sup>/I<sub>3</sub><sup>–</sup> Thermocells Based on Host–Guest Interactions and LCST Behavior of PEGylated α-Cyclodextrin

Yimin Liang, Joseph Ka‐Ho Hui, Masa‐aki Morikawa, Hirotaka Inoue, Teppei Yamada, Nobuo Kimizuka

2021ACS Applied Energy Materials50 citationsDOI

Abstract

The high Seebeck coefficient of an I–/I3– thermocell was achieved by introducing host molecule PEGylated α-cyclodextrin (TEG-α-CD), which showed thermally induced phase transition. The host captures I3– at the cold side of the thermocell, which increased Se up to +2.4 mV/K. Notably, the maximum Se value of +4.2 mV/K was observed in the temperature range between 31 and 37 °C, which was achieved as a consequence of the phase transition between a hydrophilic phase to a hydrophobic phase. At the lower temperature side of the thermocell, the host effectively captures the I3– anion. Meanwhile, microphase separation of TEG-α-CD occurred at the higher temperature side, which promoted the dissociation of I3–. This resulted in a large concentration gap of electrochemically active I3– ions in between the electrodes. The power density determined for the thermoelectric cell was doubled in the presence of TEG-α-CD. This result provides a practical means to design n-type thermocells showing positive Se, only from low-molecular-weight compounds.

Topics & Concepts

Lower critical solution temperatureSeebeck coefficientAqueous solutionThermoelectric effectDissociation (chemistry)Analytical Chemistry (journal)IonAtmospheric temperature rangeChemistryCyclodextrinPhase transitionPhase (matter)MoleculeMaterials sciencePhysical chemistryThermodynamicsChromatographyOrganic chemistryPolymerPhysicsCopolymerAdvanced Thermoelectric Materials and DevicesThermal properties of materialsAdvanced battery technologies research
High Positive Seebeck Coefficient of Aqueous I<sup>–</sup>/I<sub>3</sub><sup>–</sup> Thermocells Based on Host–Guest Interactions and LCST Behavior of PEGylated α-Cyclodextrin | Litcius