Quo Vadis, Borophene?

The materials-by-design paradigm is based on synergistic efforts involving advanced computation, synthesis and characterization to ensure properties meet various technological needs within a cost-effective framework. However, starting from the elements of the periodic table to achieving useful de-vices is a daunting road. Borophene, a two-dimensional (2D) allotrope of boron, is envisaged to play a role in this exciting area due to its extraordinarily rich polymorphism. The multitude of potentially stable structures, several of them already realized experimentally, differentiates borophene from all other mono-elemental 'X-enes'. The possibility of harnessing this unique characteristic fuels hopes for achieving 'on-demand' crystallographic arrangements making borophene a candidate platform for var-ious electronics, energy sciences and biology applications. Despite the scarcity of data on intrinsic electronic properties, the experimentally confirmed polymorphisms, the recent synthesis of bilayers and the first steps towards transferring borophene on device-compatible substrates are important milestones in borophene research.(c) 2023 Elsevier Ltd. All rights reserved.

Automated summary

The materials-by-design paradigm involves advanced computation, synthesis, and characterization to meet various technological needs. Borophene, a 2D allotrope of boron, shows rich polymorphism and has the potential to be used in electronics, energy sciences, and biology applications. Despite limited data on its intrinsic electronic properties, the confirmed polymorphisms and recent synthesis advancements are important milestones in borophene research.