Metal Site Doping in the Narrow-Gap FeGa3 Semiconductor

被引:0
|
作者
B. Kotur
V. Babizhetskyy
E. Bauer
F. Kneidinger
A. Danner
L. Leber
H. Michor
机构
[1] Ivan Franko Lviv National University,Institute of Solid State Physics
[2] Vienna University of Technology,undefined
来源
Materials Science | 2013年 / 49卷
关键词
intermetallic compounds; homogeneity range; electron/hole doping;
D O I
暂无
中图分类号
学科分类号
摘要
The effects and feasibility of metal site doping of the tetragonal diamagnetic insulator FeGa3 by Fe/Co, Fe/Mn, and Co/Ni substitutions were investigated by the X-ray electron-probe microanalysis, electrical resistivity, specific heat, and magnetic susceptibility measurements. The substitution of Co for Fe in FeGa3 does not change its structural type and preserves the structure of the binary parent compound ( FeGa3), whereas the solubility of Mn in the FeGa3 -type structure is limited to 3 at.% and a finite solubility of Ni in CoGa3 is not detected.
引用
收藏
页码:211 / 219
页数:8
相关论文
共 50 条
  • [41] Weak field magnetoresistance of narrow-gap semiconductor InSb
    Yang, R.
    Gao, K. H.
    Zhang, Y. H.
    Chen, P. P.
    Yu, G.
    Wei, L. M.
    Lin, T.
    Dai, N.
    Chu, J. H.
    JOURNAL OF APPLIED PHYSICS, 2011, 109 (06)
  • [42] Results of Double Doping of a Narrow-Gap PbS Semiconductor with Manganese and Copper Impurities: EPR Study Data
    Zaynullin, R. R.
    Housheya, T. A. N.
    Sinicin, A. M.
    Shustov, V. A.
    Ulanov, V. A.
    RUSSIAN PHYSICS JOURNAL, 2022, 65 (02) : 267 - 275
  • [43] Results of Double Doping of a Narrow-Gap PbS Semiconductor with Manganese and Copper Impurities: EPR Study Data
    R. R. Zaynullin
    T. A. N. Housheya
    A. M. Sinicin
    V. A. Shustov
    V. A. Ulanov
    Russian Physics Journal, 2022, 65 : 267 - 275
  • [44] NARROW-GAP SEMICONDUCTOR MAGNETIC-FIELD SENSORS AND APPLICATIONS
    HEREMANS, J
    PARTIN, DL
    THRUSH, CM
    GREEN, L
    SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 1993, 8 (01) : S424 - S430
  • [45] INDIRECT EXCHANGE BETWEEN MAGNETIC CENTERS IN A NARROW-GAP SEMICONDUCTOR
    LITVINOV, VI
    SOVIET PHYSICS SEMICONDUCTORS-USSR, 1985, 19 (03): : 345 - 346
  • [46] Giant Magnetoresistance in Narrow-Gap Ferroelectric-Semiconductor PbSnTe:In
    Klimov, A.
    Sherstyakova, V.
    Shumsky, V.
    FERROELECTRICS, 2009, 378 : 101 - 110
  • [47] Oscillatory quantum interference effects in narrow-gap semiconductor heterostructures
    Lillianfeld, R. B.
    Kallaher, R. L.
    Heremans, J. J.
    Chen, Hong
    Goel, N.
    Chung, S. J.
    Santos, M. B.
    Van Roy, W.
    Borghs, G.
    PROCEEDINGS OF THE 14TH INTERNATIONAL CONFERENCE ON NARROW GAP SEMICONDUCTORS AND SYSTEMS, 2010, 3 (02): : 1231 - 1236
  • [48] Plasmonically-enhanced mid-infrared photoluminescence in a metal/narrow-gap semiconductor structure
    Lu, Pengqi
    Cai, Chunfeng
    Zhang, Bingpo
    Liu, Bozhi
    Wu, Huizhen
    Bi, Gang
    Si, Jianxiao
    EPL, 2016, 114 (03)
  • [49] Efficiency and stability of narrow-gap semiconductor-based photoelectrodes
    Zheng, Jianyun
    Zhou, Huaijuan
    Zou, Yuqin
    Wang, Ruilun
    Lyu, Yanhong
    Jiang, San Ping
    Wang, Shuangyin
    ENERGY & ENVIRONMENTAL SCIENCE, 2019, 12 (08) : 2345 - 2374
  • [50] Magnetization Process of Narrow-Gap Semiconductor FeSb2
    Koyama, Takehide
    Nakamura, Hiroyuki
    Kohara, Takao
    Takahashi, Yoshinori
    JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN, 2010, 79 (09)
12345