In situ growth of suspended zirconene islets inside graphene pores
Loading...
Downloads
0
Date issued
Journal Title
Journal ISSN
Volume Title
Publisher
Wiley
License
Abstract
Experiments using a transmission electron microscope decomposed
zirconium acetylacetonate with an electron beam, forming zirconium
nanoparticles on graphene. Continued electron irradiation transformed these
nanoparticles into atomically thick zirconium islets (zirconene islets) within
the graphene lattice. The electron beam caused zirconium atom dislocations
and vacancies that are rapidly refilled, a process repeating until the vacancies
evolved into zirconium nanoribbons before breaking. This study offers
insights into the electron-driven growth and degradation of zirconene islets,
showcasing a method to fabricate freestanding zirconenes for use as
atomically thin coatings in extreme environments.
Description
Subject(s)
Citation
Advanced Functional Materials. 2024.
Item identifier
Collections
Publikační činnost VŠB-TUO ve Web of Science / Publications of VŠB-TUO in Web of Science
EBEAM (Electron Beam Emergent Additive Manufacturing)
OpenAIRE
Publikační činnost Institutu environmentálních technologií / Publications of Centre for Environmental Technology (9350)
Články z časopisů s impakt faktorem / Articles from Impact Factor Journals
EBEAM (Electron Beam Emergent Additive Manufacturing)
OpenAIRE
Publikační činnost Institutu environmentálních technologií / Publications of Centre for Environmental Technology (9350)
Články z časopisů s impakt faktorem / Articles from Impact Factor Journals