0 Datasets
0 Files
Get instant academic access to this publication’s datasets.
Yes. After verification, you can browse and download datasets at no cost. Some premium assets may require author approval.
Files are stored on encrypted storage. Access is restricted to verified users and all downloads are logged.
Yes, message the author after sign-up to request supplementary files or replication code.
Join 50,000+ researchers worldwide. Get instant access to peer-reviewed datasets, advanced analytics, and global collaboration tools.
✓ Immediate verification • ✓ Free institutional access • ✓ Global collaborationJoin our academic network to download verified datasets and collaborate with researchers worldwide.
Get Free AccessTi2 O3 thin films have been prepared through atomic layer deposition and subjected to electrical resistivity measurements as a function of temperature. The as-prepared films were stable for up to three weeks. In Ti2 O3 thin films, the insulator-metal transition is observed at ∼80 K, with nearly 3-4 orders of magnitude change in resistivity. The anomalous increase in electrical resistivity in the films is in accordance with the two-band model. However, the energy interval between the bands depending on the crystallographic c/a ratio leads to a change in electrical resistivity as a function of temperature.
K. Manjunath, Aditi Saraswat, D. Samrat, Cnr Rao (2022). Atomic Layer Deposited Ti<sub>2</sub>O<sub>3</sub> Thin Films. ChemPhysChem, 23(10), DOI: 10.1002/cphc.202100910.
Datasets shared by verified academics with rich metadata and previews.
Authors choose access levels; downloads are logged for transparency.
Students and faculty get instant access after verification.
Type
Article
Year
2022
Authors
4
Datasets
0
Total Files
0
Language
English
Journal
ChemPhysChem
DOI
10.1002/cphc.202100910
Access datasets from 50,000+ researchers worldwide with institutional verification.
Get Free Access
