Anomalous Isotope Effect on Mechanical Properties of Single Atomic Layer Boron Nitride

Overview

Journal Nat Commun

Specialty Biology

Date 2023 Sep 1

PMID 37658077

Authors

Alexey Falin

Haifeng Lv

Eli Janzen

James H Edgar

Rui Zhang

Dong Qian

Hwo-Shuenn Sheu

Qiran Cai

Wei Gan

Xiaojun Wu

Elton J G Santos

Lu Hua Li

Affiliations

Soon will be listed here.

Abstract

The ideal mechanical properties and behaviors of materials without the influence of defects are of great fundamental and engineering significance but considered inaccessible. Here, we use single-atom-thin isotopically pure hexagonal boron nitride (hBN) to demonstrate that two-dimensional (2D) materials offer us close-to ideal experimental platforms to study intrinsic mechanical phenomena. The highly delicate isotope effect on the mechanical properties of monolayer hBN is directly measured by indentation: lighter B gives rise to higher elasticity and strength than heavier B. This anomalous isotope effect establishes that the intrinsic mechanical properties without the effect of defects could be measured, and the so-called ultrafine and normally neglected isotopic perturbation in nuclear charge distribution sometimes plays a more critical role than the isotopic mass effect in the mechanical and other physical properties of materials.

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