Self-Healing in Carbon Nitride Evidenced As Material Inflation and Superlubric Behavior

Konstantinos D Bakoglidis; Justinas Palisaitis; Renato B Dos Santos; Roberto Rivelino; Per O Å Persson; Gueorgui K Gueorguiev; Lars Hultman

doi:10.1021/acsami.8b03055

Self-Healing in Carbon Nitride Evidenced As Material Inflation and Superlubric Behavior

ACS Appl Mater Interfaces. 2018 May 16;10(19):16238-16243. doi: 10.1021/acsami.8b03055. Epub 2018 May 3.

Authors

Konstantinos D Bakoglidis^{1

2}, Justinas Palisaitis², Renato B Dos Santos³, Roberto Rivelino³, Per O Å Persson², Gueorgui K Gueorguiev², Lars Hultman²

Affiliations

¹ School of Materials , The University of Manchester , Manchester M13 9PL , United Kingdom.
² Thin Film Physics Division, Department of Physics (IFM) , Linköping University , Linköping SE-581 83 , Sweden.
³ Instituto de Física , Universidade Federal da Bahia , Salvador 40210-340 , Bahia , Brazil.

PMID: 29715003
DOI: 10.1021/acsami.8b03055

Abstract

All known materials wear under extended mechanical contacting. Superlubricity may present solutions, but is an expressed mystery in C-based materials. We report negative wear of carbon nitride films; a wear-less condition with mechanically induced material inflation at the nanoscale and friction coefficient approaching ultralow values (0.06). Superlubricity in carbon nitride is expressed as C-N bond breaking for reduced coupling between graphitic-like sheets and eventual N₂ desorption. The transforming surface layer acts as a solid lubricant, whereas the film bulk retains its high elasticity. The present findings offer new means for materials design at the atomic level, and for property optimization in wear-critical applications like magnetic reading devices or nanomachines.

Keywords: carbon-based coatings; electron microscopy; self-healing; superlubricity; wear.