As elemental main group materials (ie, silicon and germanium) have dominated the field of
modern electronics, their monolayer 2D analogues have shown great promise for next …

Elemental two-dimensional (2D) materials possess distinct properties and superior
performances across a multitude of fundamental and practical research fields. Although a …

The exploration of new two-dimensional (2D) allotropes of carbon has attracted great
research attention after graphene, but experiment-feasible graphene allotropes with novel …

The net-Y, a novel two-dimensional carbon allotrope with four-, six-and eight-membered
rings, is investigated by performing first-principles calculations. The calculations on …

When materials are reduced to two dimensions, novel and versatile quantum functions
emerge. Benefiting from unique electron-electron, electron-photon, and photon-photon …

Reticular chemistry has been a cornerstone in the design of novel 2D materials. Despite
numerous possibilities for topological arrangements, only a few with high symmetry can form …

The development of multifunctional two-dimensional (2D) carbon-based materials with
novel, excellent properties and high performance is a challenge. By using density functional …

Abstract Penta-hexa-graphene (PHG) is the name given to a novel puckered monolayer of
carbon atoms tightly packed into an inerratic mixing pentagonal and hexagonal network …

The discovery of ferroelectricity in elemental bismuth monolayer motivated us to look for
elemental ferroelectricity in other monolayers. Based on two experimentally synthesized two …

To induce intrinsic magnetism in the nominally nonmagnetic carbon materials containing
only s and p electrons is an intriguing yet challenging task. Here, based on first-principles …