Size-Sensitive Thermoelectric Properties of Electrolyte-Based Nanofluidic Systems
YK Jin and R Tao and S Luo and ZG Li, JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 12, 1144-1149 (2021).
DOI: 10.1021/acs.jpclett.0c03558
In this work, we investigate the thermoelectric properties of aqueous KCl solutions confined in graphene nanochannels through molecular dynamics simulations. The channel height H ranges from 0.7 to 7.8 nm. It is found that the Seebeck coefficient, S-e, and the figure of merit, ZT, of the KCl solution are highly sensitive to H when H is small. For the nanochannel of H = 1.0 nm, S-e = 30.6 mV/K and ZT = 4.6 at room temperature, which are superior to most of the solid-state thermoelectric materials. The remarkable thermoelectric properties in small channels are attributed to the flow slip at the channel walls and the mean excess enthalpy density of the solution, which is mainly from the potential energy contribution. The molecular insight promotes the applications of nanofluidic devices for thermal energy harvesting.
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