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- Title
Tailoring the Local Conductivity of TiO<sub>2</sub> by X‐Ray Nanobeam Irradiation.
- Authors
Mino, Lorenzo; Bonino, Valentina; Picollo, Federico; Fretto, Matteo; Agostino, Angelo; Truccato, Marco
- Abstract
It is well known that intense synchrotron beams can alter the state of materials, but this effect is generally considered undesired radiation damage. The effect of local irradiation of TiO2 rutile single crystals is investigated by a 56 × 57 nm2 synchrotron X‐ray nanobeam at 17.4 keV. Aside from a transient increase of conductivity due to a photovoltaic‐like process, a nonvolatile localized change of resistance by about 4 orders of magnitude is measured after X‐ray exposure. This effect can be ascribed to the local generation of oxygen vacancies by the X‐ray nanoprobe, which are subsequently ordered by the electric field applied during the acquisition of I–V curves. These results demonstrate that intense synchrotron beams can create oxygen vacancies in materials with tightly bound oxygen atoms, highlighting that X‐ray nanoprobes could become an effective tool for oxide nanofabrication, able to locally tune the material resistivity. For instance, since the localized presence and migration of oxygen vacancies is an essential requisite for redox‐based memristive devices, the possibility to locally induce oxygen vacancies could represent a novel tool for the production of oxide‐based memristive devices, replacing the problematic electroforming step.
- Subjects
SYNCHROTRONS; RADIATION damage; PHOTOVOLTAIC power generation; NANO-probe sensors; ELECTROFORMING
- Publication
Advanced Electronic Materials, 2019, Vol 5, Issue 6, pN.PAG
- ISSN
2199-160X
- Publication type
Article
- DOI
10.1002/aelm.201900129