Transmission electron microscopy study of Pb-depleted disks in PbTe-based alloys

Author(s)

Wang, Hengzhi; Zhang, Qinyong; Yu, Bo; Wang, Hui; Liu, Weishu; Chen, Gang; Ren, Zhifeng; ... Show more Show less

Abstract

Even though the crystal structure of lead telluride (PbTe) has been extensively studied for many years, we discovered that the structure has a strong tendency to form Pb-depleted disks on {001} planes. These disks are around 2–5 nm in diameter and less than 0.5 nm in thickness, with a volume density of around 9 × 10[superscript 17] cm[superscript −3], resulting in lattice strain fields (3–20 nm) on both sides of the disks along their normal directions. Moreover, such disks were also observed in Pb-rich Pb[subscript 1.3]Te, Pb-deficient PbTe[subscript 1.3], and thallium (Tl)-doped Tl[subscript 0.01]Pb[subscript 0.99]Te and Tl[subscript 0.02]Pb[subscript 0.98]Te crystals. Because of the effects of diffraction contrast imaging by transmission electron microscopy and orientations of the crystals, these native lattice strain fields were incorrectly recognized as precipitates or nanoinclusions in PbTe-based materials. This discovery provides new insight into the formation mechanism of the precipitates or nanoinclusions in PbTe-based materials.

Date issued

2011-02

URI

http://hdl.handle.net/1721.1/78254

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Journal of Materials Research

Publisher

Cambridge University Press (Materials Research Society)

Citation

Wang, Hengzhi et al. “Transmission Electron Microscopy Study of Pb-depleted Disks in PbTe-based Alloys.” Journal of Materials Research 26.07 (2011): 912–916. © 2011 Cambridge University Press

Version: Final published version

ISSN

0884-2914

2044-5326