In the evolving landscape of energy storage technologies, hybrid supercapacitors (HSCs)
are gaining unprecedented attention, primarily due to their enhanced performance …

Converting waste heat from solar radiation and industrial processes into usable electricity
remains a challenge due to limitations of traditional thermoelectrics. In this review, ionic …

Hydrogels are renowned for their complex structures and unique physicochemical
properties, establishing them as key materials in bioenergy harvesting applications. They …

With the rapid development of portable and wearable electronic devices, there is an
increasing demand for miniaturized and lightweight energy storage devices. Micro …

As a young member of the thermoelectric (TE) family, ionic thermoelectric (i-TE) technology
stands out due to its exceptionally high thermopower. However, the intermittent nature of its …

The CoNi-based hydroxide nanosheets (CoNiNSs) are promising active materials for
supercapacitors. At the same time, the fabrication of freestanding electrodes is essential to …

Ionic thermogalvanic cells (TGCs) have attracted interest for their superior thermopower (α)
compared to electronic systems. To maximize the thermopower and overall device …

The conversion of sustainable heat sources from the human body into electricity is a
promising strategy for self-powered temperature monitoring and power supplies in wearable …

Ionic thermoelectric materials, renowned for their high Seebeck coefficients, are gaining
prominence for their potential in harvesting low-grade waste heat. However, the theoretical …

Gelatin-based ionic hydrogels are flexible, bio-compatible, and abundant materials, showing
immense potential as quasi-solid-state electrolytes in energy conversion and storage …