The current study focuses on reviewing the actual progress of the use of ionic liquids and
derivatives in several electrochemical application. Ionic liquids can be prepared at room …

The present work of review is focused on the recent advancements regarding the
exploration of the ionic liquids, ionic liquids with the incorporation of nanoparticles of several …

The significant attention garnered by thermally regenerative electrochemical cycles (TRECs)
is due to their remarkable heat to electricity efficiency in harnessing low-grade heat from …

Emerging ionic thermoelectric devices (i-TEs), with synergistic effect of thermogalvanic effect
and thermo-diffusion effect, are promising devices to achieve heat to electricity. We report a …

Improvement of the thermopower (α) is essential for enhancing the energy conversion
efficiency of a thermally regenerative electrochemical cycle (TREC). Here, we utilize the …

Thermally regenerative electrochemical cycle (TREC) is an efficient, clean and feasible low-
temperature thermoelectric conversion technology. Coupling it with flow battery (FB) can not …

A thermally regenerative electrochemical cycle (TREC) harnesses the temperature effect of
electrode potential to achieve efficient heat to electricity conversion but suffers from low …

Ionic liquids (ILs) are a class of low-melting molten salts (< 100° C) constituted entirely of
ions, and their research has gained tremendous attention in line with their remarkably …

Low-grade thermal energy utilization plays an important role in addressing escalating
energy demand and environmental challenges. However, primary low-grade thermal energy …

The osmotic heat engine (OHE) stands out as a promising approach for converting low-
grade heat into electricity owing to its scalability. However, challenges arise from the …