| Literature DB >> 27929133 |
Y M Lee1, S Y Lee1, T Sasaki2, K Kim3, D Ahn1, M-C Jung4.
Abstract
We fabricated C-doped (1.5 wt.%) In3Sb1Te2 (CIST) thin films with amorphous phase (a-CIST) uEntities:
Year: 2016 PMID: 27929133 PMCID: PMC5144130 DOI: 10.1038/srep38663
Source DB: PubMed Journal: Sci Rep ISSN: 2045-2322 Impact factor: 4.379
Figure 1(a) Sheet resistance and (b) structural information using HRXRD and TEM during the phase-change. At ~350 °C, the phase-change of a-CIST was indicated by a change of resistance and crystallinity.
Figure 2(a) C 1s, (b) Te 4d, (c) Sb 4d, and (d) In 4d core-level spectra before and after mild Ne+ sputtering. We could not observe the O 1s core-level after sputtering.
Figure 3(a) C 1s, (b) Te 4d, (c) Sb 4d, and (d) In 4d core-level spectra after annealing at each temperature. The C 1s and Sb 4d core-levels changed with different chemical states and decreasing peak intensity, respectively.
Figure 4Curve-fitting of (a) C 1s and (b) Sb 4d after annealing at each temperature. (c) The relative peak intensity area with the function of each element. The intensity of Sb 4d core-level decreased >60%.