Li metal is a promising candidate for battery anodes due to its high theoretical specific
capacity (3860 mAh g− 1) and low electrochemical potential (− 3.04 V). Nevertheless, the …

The vital issues of rechargeable lithium batteries widely used for everyday energy storage is
being studied by many researchers to enhance the battery performance and safety …

Graphene oxide (GO) has emerged as a promising material for revolutionizing
supercapacitor technology due to its exceptional properties and versatile characteristics …

High‐performance flexible and transparent chemical sensors are key to achieving wearable
electronics. Graphene with high transmittance and electrical properties is a suitable material …

Herein, we present an innovative graphene oxide (GO)-induced strategy for synthesizing GO-
based metal-organic-framework composites (Co-BTC@ GO) for high-performance …

F-doped carbon layer coating is an effective surface modification method to enhance the
intrinsic conductivity of active materials and facilitate the accommodation of solvated Li+ ions …

Lithium-ion capacitors (LICs) are emerging as one of the most advanced hybrid energy
storage devices, however, their development is limited by the imbalance of the dynamics …

Lithium-ion capacitors were conceptualized to bridge the gap between high-energy lithium-
ion batteries and high-power electric double-layer capacitors. The history behind the …

Hybrid devices consisting of energy-dense lithium-ion battery chemistry and power-dense
supercapacitors in a single unit cell are vital to improve the energy density of …

The research found that after doping with rare earth elements, a large number of electrons
and holes will be produced on the surface of AlN, which makes the material have the …