The accelerated growth of renewable energy conversion and storage devices with
significantly greater efficiency, stable operation, cost effectiveness, and user-friendly …

Exploring bio-inspired nanomaterials (BINMs) and incorporating them into
micro/nanodevices represent a significant development in biomedical applications …

Abstract Reduced graphene‐oxide (RGO)‐based electrodes in supercapacitors deliver high
energy/power capacities compared to typical nanoporous carbon materials. However …

In carbon-based supercapacitors, redox couples can effectively improve the energy density
of supercapacitors; however, most redox couples still suffer from serious shuttle diffusion …

A simple approach to design the molecular architecture based on modified benzoquinone
and its flexible supercapacitor device is demonstrated. In present work, two electron …

In the pursuit of advancing energy storage technologies, the exploration of novel electrode
materials for supercapacitors, specifically organic materials, has garnered significant …

The development of advanced electrode material is crucial for promoting the application of
new high-performance green energy storage devices and remains a great challenge …

Abstract Nickel disulfide (NiS 2), due to its abundant redox active sites, high theoretical
specific capacity and abundant resources, is a promising high-performance energy storage …

The expansion of global population and industrialization has resulted in an increasing
demand for energy in various sectors including petrochemicals, energy storage …

Redox-active organic molecules show great potential in novel renewable energy storage
devices by modifying carbon-based materials in covalent or non-covalent forms due to their …