Can charged colloidal particles increase the thermoelectric energy conversion efficiency?

Abstract: a Currently, liquid thermocells are receiving increasing attention as an inexpensive alternative to conventional solid-state thermoelectrics for low-grade waste heat recovery applications. Here we present a novel path to increase the Seebeck coefficient of liquid thermoelectric materials using charged colloidal suspensions; namely, ionically stabilized magnetic nanoparticles (ferrofluids) dispersed in aqueous potassium ferro-/ferricyanide electrolytes. The dependency of thermoelectric potential on experimental… Show more

“…6 The addition of charged nanoparticles, for example, can improve the thermoelectric properties compared to the use of a solvent alone. 7,8 Increasing the electrical conductivity of colloidal dispersions provides new possibilities, for example, complex electrolytes for electrochemical devices. 6 In the past, several approaches were used to stabilise nanoparticles in ionic liquids.…”

Colloidal dispersions of oxide nanoparticles in ionic liquids: elucidating the key parameters

“…6 The addition of charged nanoparticles, for example, can improve the thermoelectric properties compared to the use of a solvent alone. 7,8 Increasing the electrical conductivity of colloidal dispersions provides new possibilities, for example, complex electrolytes for electrochemical devices. 6 In the past, several approaches were used to stabilise nanoparticles in ionic liquids.…”

Colloidal dispersions of oxide nanoparticles in ionic liquids: elucidating the key parameters

“…When submitted to a gradient of temperature rT , ionic nanoparticles (NPs) dispersed in a polar solvent are subjected both to the Ludwig-Soret e↵ect [1], which induces a gradient of volume fraction r and a Seebeck e↵ect [2,3], which induces an electric field E. This can be used for potential thermoelectric applications in terms of heat recovery [4][5][6][7][8][9][10]. In stationary conditions, both r and E are proportional to rT and the NPs migrate either towards the cold region or towards the hot region depending on the sign of their Soret coe cient S T , given (at high dilution) by r = S T rT .…”

Inversion of thermodiffusive properties of ionic colloidal dispersions in water-DMSO mixtures probed by forced Rayleigh scattering

“…Помимо работ [9,10] можно отметить [14,15]. Интерес к термоэлектрическим свойствам коллоидных систем обусловлен прежде всего перспективами их применения в термоэлектрохимических генераторах [16].…”

Термоэлектрические И Термоэлектрокинетические Явления В Жидких Биологических Системах-=sup=-*-=/Sup=-