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  1. Ahmad Shuhaimi Abu Bakar, Hasan Abbas Jaffery, Mohd. Faizul Mohd. Sabri, Syed Waqar Hasan, Suhana Mohd Said
    Sains Malaysiana, 2018;47:403-408.
    Thermally driven electrochemical cells (thermocells) are able to convert thermal gradient applied across redox electrolyte
    into electricity. The performance of the thermocells heavily depends on the magnitude and integrity of the applied thermal
    gradient. Herein, we study the iodide/triiodide (I–/I3
    –) based 1-Ethyl-3-methyl-imidazolium Ethylsulfate ([EMIM][EtSO4])
    solutions in a thermocell. In order to comprehend the role of fluidity of the electrolyte, we prepared set of solutions by
    diluting [EMIM][EtSO4] with 0.002, 0.004, and 0.010 mol of Acetonitrile (ACN). We realized a significant improvement
    in ionic conductivity (σ) and electrochemical Seebeck (Se) of diluted electrolytes as compared to base [EMIM][EtSO4]
    owing to the solvent organization. However, the infra-red thermography indicated faster heat flow in ACN-diluted-[EMIM]
    [EtSO4] as compared to the base [EMIM][EtSO4]. Therefore, the maximum power density of base [EMIM][EtSO4] (i.e.
    118.5 µW.m-2) is 3 times higher than the ACN-diluted-[EMIM][EtSO4] (i.e. 36.1 µW.m-2) because of the lower thermal
    conductivity. Hence this paper illustrates the compromise between the fast mass/flow transfer due to fluidity (of diluted
    samples) and the low thermal conductivity (of the pure [EMIM][EtSO4]).
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