The miniaturization of energy storage units is pivotal for the development of next‐generation
portable electronic devices. Micro‐supercapacitors (MSCs) hold great potential to work as …

A simple full-inkjet-printing technique is developed for the scalable fabrication of graphene-
based microsupercapacitors (MSCs) on various substrates. High-performance graphene …

Rational engineering and simplified production of printable graphene inks are essential for
building high-energy and flexible graphene micro-supercapacitors (MSCs). However, few …

Modern energy storage devices for portable and wearable technologies must fulfill a number
of requirements, such as small size, flexibility, thinness, reliability, transparency …

High performance, flexibility, safety, and robust integration for micro‐supercapacitors
(MSCs) are of immense interest for the urgent demand for miniaturized, smart energy …

Graphene micro‐supercapacitors (MSCs) are an attractive energy storage technology for
powering miniaturized portable electronics. Despite considerable advances in recent years …

The advance of miniaturized and low-power electronics has a striking impact on the
development of energy storage devices with constantly tougher constraints in terms of form …

Tailoring the composition of graphene used as electrodes for microsupercapacitors is an
effective solution to increase the areal energy density of the devices for greater …

Three-dimensional (3D) printing is gaining importance as a sustainable route for the
fabrication of high-performance energy storage devices. It enables the streamlined …

Scalable fabrication of high-rate micro-supercapacitors (MSCs) is highly desired for on-chip
integration of energy storage components. By virtue of the special self-assembly behavior of …