Study of Photocatalytic Activity of Titanium and Tungsten Oxides Obtained by an Electric Explosion of Metal Conductors in the Air

被引:0
|
作者
Yu. O. Adamchuk
L. Z. Boguslavskii
A. N. Yushchishina
A. V. Sinchuk
机构
[1] Institute of Pulse Processes and Technologies,
[2] National Academy of Sciences of Ukraine,undefined
[3] Sukhomlynskyi National University of Mykolaiv,undefined
来源
Surface Engineering and Applied Electrochemistry | 2023年 / 59卷
关键词
electric explosion of conductors; titanium and tungsten oxides; photocatalytic reactions;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
页码:798 / 802
页数:4
相关论文
共 50 条
  • [21] On obtaining of ultrafine metal powders under electric explosion of conductors in a liquid. Part II: The optimum mode for the explosion of conductors in a liquid
    Kuskova, N. I.
    Baklar', V. Yu
    Khainatskii, S. A.
    SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2009, 45 (03) : 186 - 192
  • [22] On obtaining of ultrafine metal powders under electric explosion of conductors in a liquid. Part II: The optimum mode for the explosion of conductors in a liquid
    N. I. Kuskova
    V. Yu. Baklar’
    S. A. Khainatskii
    Surface Engineering and Applied Electrochemistry, 2009, 45 : 186 - 192
  • [23] Preparation of nano metal carbide powders by electric explosion of conductors in liquid hydrocarbons
    Kwon, YS
    Kim, JS
    Kim, HT
    Lee, HK
    Nazrenko, O
    Ilyin, A
    JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY, 2004, 10 (06) : 949 - 953
  • [24] Obtaining Ultrafine Metal Powders under Electric Explosion of Conductors in Liquid: Part III. The Optimum Mode for Explosion of Conductors in Gases; Comparison with Explosion in Liquid
    Kuskova, N. I.
    Baklar', V. Yu.
    Khainatskii, S. A.
    SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2009, 45 (05) : 382 - 386
  • [25] Obtaining ultrafine metal powders under electric explosion of conductors in liquid: Part III. The optimum mode for explosion of conductors in gases; Comparison with explosion in liquid
    N. I. Kuskova
    V. Yu. Baklar’
    S. A. Khainatskii
    Surface Engineering and Applied Electrochemistry, 2009, 45 : 382 - 386
  • [26] Holographic interferometry for the study of an electric explosion of titanium wires
    Skryabin, A. S.
    Pavlov, A. V.
    Kartova, A. M.
    Telekh, V. D.
    14TH INTERNATIONAL CONFERENCE GAS DISCHARGE PLASMAS AND THEIR APPLICATIONS, 2019, 1393
  • [27] Porous vanadium/titanium oxides - Synthesis, characterization, and photocatalytic activity
    Zhou, Meifang
    Huang, Fuzhi
    Wang, Xingdong
    du Plessis, Johan
    Murphy, Anthony B.
    Caruso, Rachel A.
    AUSTRALIAN JOURNAL OF CHEMISTRY, 2007, 60 (07) : 533 - 540
  • [28] PHOTOCATALYSIS OVER BINARY METAL-OXIDES - ENHANCEMENT OF THE PHOTOCATALYTIC ACTIVITY OF TIO2 IN TITANIUM SILICON-OXIDES
    ANPO, M
    NAKAYA, H
    KODAMA, S
    KUBOKAWA, Y
    DOMEN, K
    ONISHI, T
    JOURNAL OF PHYSICAL CHEMISTRY, 1986, 90 (08): : 1633 - 1636
  • [29] Preparation and photocatalytic activity of nanotubes obtained from titanium dioxide
    Qamar, M.
    Yoon, C. R.
    Oh, H. J.
    Lee, N. H.
    Park, K.
    Kim, D. H.
    Lee, K. S.
    Lee, W. J.
    Kim, S. J.
    CATALYSIS TODAY, 2008, 131 (1-4) : 3 - 14
  • [30] Reaction synthesis of several titanium oxides through electrical wire explosion in air and in water
    Wada, Naoyuki
    Akiyoshi, Kazunori
    Morita, Kohji
    Hokamoto, Kazuyuki
    CERAMICS INTERNATIONAL, 2013, 39 (07) : 7927 - 7933
12345