Hydrogen sensors based on electrophoretically deposited Pd nanoparticles onto InP

被引:0
|
作者
Jan Grym
Olga Procházková
Roman Yatskiv
Kateřina Piksová
机构
[1] Academy of Sciences CR,Institute of Photonics and Electronics
[2] Czech Technical University in Prague,Faculty of Nuclear Science and Physical Engineering
来源
Nanoscale Research Letters | / 6卷
关键词
Reverse Micelle; Schottky Barrier Height; Electrophoretic Deposition; Hydrogen Sensor; Fermi Level Pinning;
D O I
暂无
中图分类号
学科分类号
摘要
Electrophoretic deposition of palladium nanoparticles prepared by the reverse micelle technique onto InP substrates is addressed. We demonstrate that the substrate pre-deposition treatment and the deposition conditions can extensively influence the morphology of the deposited palladium nanoparticle films. Schottky diodes based on these films show notably high values of the barrier height and of the rectification ratio giving evidence of a small degree of the Fermi level pinning. Moreover, electrical characteristics of these diodes are exceptionally sensitive to the exposure to gas mixtures with small hydrogen content.
引用
收藏
相关论文
共 50 条
  • [41] Hydrogen sensors using Pd-based metallic glassy alloys
    Advanced Technologies Development Laboratory, Matsushita Electric Works, Ltd., 1048 Kadoma, Osaka 571-8686, Japan
    不详
    IEEJ Trans. Sens. Micromach., 2008, 5 (225-229):
  • [42] New acetaminophen amperometric sensor based on ferrocenyl dendrimers deposited onto Pt nanoparticles
    Garcia Armada, M. Pilar
    Vallejo, Eduardo
    Villena, Carlos
    Losada, Jose
    Casado, Carmen M.
    Alonso, Beatriz
    JOURNAL OF SOLID STATE ELECTROCHEMISTRY, 2016, 20 (06) : 1551 - 1563
  • [43] Electrophoresis deposition of metal nanoparticles with reverse micelles onto InP
    Zdansky, Karel
    Zavadil, Jiri
    Kacerovsky, Pavel
    Lorincik, Jan
    Vanis, Jan
    Kostka, Frantisek
    Cernohorsky, Ondrej
    Fojtik, Anton
    Reboun, Jan
    Cermak, Jan
    INTERNATIONAL JOURNAL OF MATERIALS RESEARCH, 2009, 100 (09) : 1234 - 1238
  • [44] Current Generation in Pd/InP Structures in Hydrogen Medium
    V. A. Shutaev
    E. A. Grebenshchikova
    V. G. Sidorov
    Yu. P. Yakovlev
    Semiconductors, 2023, 57 : 369 - 372
  • [45] Current Generation in Pd/InP Structures in Hydrogen Medium
    Shutaev, V. A.
    Grebenshchikova, E. A.
    Sidorov, V. G.
    Yakovlev, Yu. P.
    SEMICONDUCTORS, 2023, 57 (08) : 369 - 372
  • [46] Current Generation in Pd/InP Structures in Hydrogen Medium
    Shutaev, V. A.
    Sidorov, V. G.
    Grebenshchikova, E. A.
    Yakovlev, Yu. P.
    SEMICONDUCTORS, 2024, 58 (04) : 349 - 353
  • [47] Influence of Hydrogen on the Electrical Properties of Pd/InP Structures
    V. A. Shutaev
    V. G. Sidorov
    E. A. Grebenshchikova
    L. K. Vlasov
    A. A. Pivovarova
    Yu. P. Yakovlev
    Semiconductors, 2019, 53 : 1389 - 1392
  • [48] Influence of Hydrogen on the Impedance of Pd/Oxide/InP Structures
    Shutaev, V. A.
    Grebenshchikova, E. A.
    Sidorov, V. G.
    Kompan, M. E.
    Yakovlev, Yu. P.
    SEMICONDUCTORS, 2020, 54 (06) : 658 - 661
  • [49] Influence of Hydrogen on the Electrical Properties of Pd/InP Structures
    Shutaev, V. A.
    Sidorov, V. G.
    Grebenshchikova, E. A.
    Vlasov, L. K.
    Pivovarova, A. A.
    Yakovlev, Yu P.
    SEMICONDUCTORS, 2019, 53 (10) : 1389 - 1392
  • [50] Influence of Hydrogen on the Impedance of Pd/Oxide/InP Structures
    V. A. Shutaev
    E. A. Grebenshchikova
    V. G. Sidorov
    M. E. Kompan
    Yu. P. Yakovlev
    Semiconductors, 2020, 54 : 658 - 661
12345