Graphene and two-dimensional (2D) transition metal dichalcogenides (TMDs) have
attracted significant interest due to their unique properties that cannot be obtained in their …

Since the first demonstration of the generation of attosecond pulses (1 as= 10− 18 s) in the
extreme-ultraviolet spectral region, several measurement techniques have been introduced …

The development of transparent p‐type oxide semiconductors with good performance may
be a true enabler for a variety of applications where transparency, power efficiency, and …

In the past decade graphene has been one of the most studied materials for several unique
and excellent properties. Due to its two dimensional nature, physical and chemical …

This book is an introduction to the quantum theory of materials and first-principles
computational materials modelling. It explains how to use density functional theory as a …

MOFs have a highly ordered self‐assembled nanostructure, high surface area, nanoporosity
with tunable size and shape, reliable host–guest interactions, and responsiveness to …

Building a fault-tolerant quantum computer will require vast numbers of physical qubits. For
qubit technologies based on solid-state electronic devices,–, integrating millions of qubits in …

High-bandwidth, low-power and compact silicon electro-optical modulators are essential for
future energy-efficient and densely integrated optical data communication circuits. The all …

A key feature of two-dimensional materials is that the sign and concentration of their carriers
can be externally controlled with techniques such as electrostatic gating. However …

In this study, a zinc oxide (ZnO)‐decorated nickel microfiber (ZNMF)‐based piezoelectric
nanogenerator (ZNMF‐PENG) using electrospinning, metal electroplating, electrospraying …