A cryogenic solid-state reaction at the interface between Ti and the Bi2Se3topological insulator

Cryogenics; Solid State Physics; Surface Science; Scanning Electron Microscopy; Titanium; Transmission Electron Microscopy; Solid State Chemistry; Nanotechnology; Surface Chemistry; Topological Insulators; Ultra High Vacuum; Scanning tunneling microscopy; Selenium; X-Ray Photoelectron Spectroscopy; Bismuth; Redox

Abstract :

[en] Understanding the chemical processes at the interface between a metal and topological insulator (TI) is important when it comes to designing devices that exploit the peculiar topological surface states or studying the properties of TI heterostructures. In this paper we show that the interface between Ti and Bi2Se3 is unstable at RT and results in the formation of interfacial phases of titanium selenides and metallic Bi. The reaction has shown significant kinetics already at cryogenic temperatures, which is very surprising for a solid-state redox reaction. This can be explained with the possibility of electrons in the topological surface states playing a role in enhancing the Bi2Se3 surface reactivity due to the electron-bath effect. For the Ti coverage above 40 nm, the interfacial processes cause compressive stress that triggers the morphological change (buckling) of the deposited film. The observed interface reaction, with all of its consequences, has to be considered not only in the design of devices, where the Ti adhesion layer is often used for contacts, but also for possible engineering of 2D TI heterostructures.

Disciplines :

Physics

Author, co-author :

Ferfolja, K.

Fanetti, M.

Gardonio, S.

PANIGHEL, Mirco ; CNR - Istituto Officina dei Materiali (IOM), Trieste, Laboratorio TASC, Strada Statale 14, km 163.5, 34149 Basovizza, Italy

Píš, I.

Nappini, S.

Valant, M.

External co-authors :

yes

Language :

English

Title :

A cryogenic solid-state reaction at the interface between Ti and the Bi2Se3topological insulator

Publication date :

2020

Journal title :

Journal of Materials Chemistry C

ISSN :

2050-7526

eISSN :

2050-7534

Volume :

Issue :

Pages :

11492 - 11498

Peer reviewed :

Peer Reviewed verified by ORBi

Focus Area :

Physics and Materials Science

Additional URL :

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090416512&doi=10.1039%2fd0tc00863j&partnerID=40&md5=9eb733fa58c61ccfebb585b70970efe6

European Projects :

H2020 - 654360 - NFFA-Europe - NANOSCIENCE FOUNDRIES AND FINE ANALYSIS - EUROPE

Funders :

Union Européenne

Funding text :

The work was financially supported by the Slovenian Research Agency, research core funding No. P2-0412. This project has received funding from the EU-H2020 research and innovation programme under grant agreement No. 654360 having benefitted from the access provided by IOM-CNR in Trieste (Italy) within the framework of the NFFA-Europe Transnational Access Activity.

Available on ORBilu :

since 01 August 2024

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