The coupling between electrons and phonons is ubiquitous in condensed matter physics. In
recent years, with the rise of two dimensional (2D) materials, electron–phonon interaction …

The discovery of novel materials with high gas sensing selectivity is a key driver of gas
sensor technology. Based on the recently reported two-dimensional (2D) pentagonal BeP2 …

Directly and quickly detecting toxic gases in the air is urgently needed in industrial
production and our daily life. However, the poor gas selectivity and low sensitivity under …

The selection of a suitable two-dimensional anode material is a fundamental step in
develo** the batteries to gain excellent performance. Herein, based on the …

The 2D Janus structure, an important derivative of 2D materials, exhibits distinct properties
and significant potential in nanodevices. In this study, we focused on the recently …

Nowadays, as a practical approach to enhancing energy density of a metal ion battery,
discovering efficient electrode materials is the foremost option. At the beginning and end of …

Finding high-performance electrode materials is one of the most effective ways to improve
the energy density of current metal-ion batteries. MoS 2-like 1H-BeP 2 is intrinsically metallic …

Herein, we elucidated the properties of a pentagonal BeP 2 monolayer, emphasizing its
robust dynamic, thermal, and mechanical stabilities, as well as its promising electrochemical …

Two-dimensional (2D) Cairo pentagon materials have attracted tremendous interest due to
their exotic physical properties. Based on first-principles calculations, we predict that …

One of the efficient methods for boosting the energy density of modern metal-ion batteries is
finding electrode materials with high performance. Before and following the adhesion of …