Issue 18, 2021

Defect dynamics in two-dimensional black phosphorus under argon ion irradiation

Abstract

Fundamental understanding of the atomic-scale mechanisms underlying production, accumulation, and temporal evolution of defects in phosphorene during noble-gas ion irradiation is crucial to design efficient defect engineering routes to fabricate next-generation materials for energy technologies. Here, we employed classical molecular dynamics (CMD) simulations using a reactive force field to unravel the effect of defect dynamics on the structural changes in a monolayer of phosphorene induced by argon-ion irradiation, and its subsequent relaxation during post-radiation annealing treatment. Analysis of our CMD trajectories using unsupervised machine learning methods showed that radiation fluence strongly influences the types of defect that form, their dynamics, and their relaxation mechanisms during subsequent annealing. Low ion fluences yielded a largely crystalline sheet featuring isolated small voids (up to 2 nm), Stone–Wales defects, and mono-/di-vacancies; while large nanopores (∼10 nm) can form beyond a critical fluence of ∼1014 ions per cm2. During post-radiation annealing, we found two distinct relaxation mechanisms, depending on the fluence level. The isolated small voids (1–2 nm) formed at low ion-fluences heal via local re-arrangement of rings, which is facilitated by a cooperative mechanism involving a series of atomic motions that include thermal rippling, bond formation, bond rotation, angle bending and dihedral twisting. On the other hand, damaged structures obtained at high fluences exhibit pronounced coalescence of nanopores mediated by 3D networks of P-centered tetrahedra. These findings provide new perspectives to use ion beams to precisely control the concentration and distribution of specific defect types in phosphorene for emerging applications in electronics, batteries, sensing, and neuromorphic computing.

Graphical abstract: Defect dynamics in two-dimensional black phosphorus under argon ion irradiation

Supplementary files

Article information

Article type
Paper
Submitted
27 Jan 2021
Accepted
23 Apr 2021
First published
24 Apr 2021

Nanoscale, 2021,13, 8575-8590

Author version available

Defect dynamics in two-dimensional black phosphorus under argon ion irradiation

S. Gupta, P. Periasamy and B. Narayanan, Nanoscale, 2021, 13, 8575 DOI: 10.1039/D1NR00567G

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