The versatile electrospinning technique is scalable and suitable to fabricate highly
conducting freestanding carbon nanofiber composite electrodes for energy storage devices …

The design and preparation of electrode materials are of great significance for improving the
overall performance of energy storage devices. Zeolitic imidazolate frameworks (ZIFs) and …

Carbon nanofibers derived from electrospun precursors show great promise for electronic
applications owing to their flexibility, conductivity, high surface area, and open structure. The …

With the increasingly severe electromagnetic interference issue and the huge heat
dissipation demand caused by the miniaturized and integrated electronic devices, exploring …

Oxide ceramic microfibers with low thermal conductivity, high temperature, and corrosion
resistance have been widely used in the field of thermal insulation. When the fiber diameter …

Flexible and free-standing electrospun nanofibres have been used as electrode materials in
electrochemical energy storage systems due to their versatile properties, such as …

Abstract Alkali (Li/Na/K) metal anodes (AMAs), because of their remarkably high energy
density and low redox potential, are considered as the most promising anodes for next …

To achieve efficient degradation of pharmaceutical and personal care products (PPCPs),
dual reaction centers ZnO@ FePc photo-Fenton catalysts with high-speed electron …

Bimetallic transition metal sulfides (TMSs) hold great promise as electrode materials for
supercapacitive energy storage devices compared with their monometallic counterparts …

High-energy–density supercapacitors exhibiting high power density and long-term stability
are essential devices for energy storage applications, such as wearable electronics. In this …