Color centres and polymorphism in pure WO3 and mixed (1−x)WO3−y·xReO2 powders

被引:0
|
作者
E. Cazzanelli
G. Mariotto
C. Vinegoni
A. Kuzmin
J. Purans
机构
[1] Università della Calabria,Istituto Nazionale per la Fisica della Materia and Dipartimento di Fisica
[2] Università di Trento,Istituto Nazionale per la Fisica della Materia and Dipartimento di Fisica
[3] University of Geneva,Dept. of Physics, GAP Optique
[4] Institute of Solid State Physics,undefined
来源
Ionics | 1999年 / 5卷
关键词
Tungsten; Milling; Structural Transformation; Mechanical Treatment; Raman Band;
D O I
暂无
中图分类号
学科分类号
摘要
The relationship between structural transformations and colour centres creation is discussed for deeply coloured hydrogen tungsten bronzes and for pure WO3 powders, acquiring less intense colour after mechanical treatments of variable duration. A comparative study on coloration is made also for mixed compounds (1−x)WO3−y·xReO2, where an evidence of a resonance effect for a particular Raman band at 970 cm−1, attributed to the color centres, is observed. Besides, it is found that even moderate milling treatments result in a quite different structural evolution of tungsten trioxide upon cooling.
引用
收藏
页码:335 / 344
页数:9
相关论文
共 50 条
  • [31] NO2-sensing properties of WO3 nanorods prepared by glancing angle DC magnetron sputtering
    Horprathum, M.
    Limwichean, K.
    Wisitsoraat, A.
    Eiamchai, P.
    Aiempanakit, K.
    Limnonthakul, P.
    Nuntawong, N.
    Pattantsetakul, V.
    Tuantranont, A.
    Chindaudom, P.
    SENSORS AND ACTUATORS B-CHEMICAL, 2013, 176 : 685 - 691
  • [32] Effect of High-Temperature Calcination on the Generation of Bronsted Acid Sites on WO3/Al2O3
    Kitano, Tomoyuki
    Hayashi, Tomohiro
    Uesaka, Toshio
    Shishido, Tetsuya
    Teramura, Kentaro
    Tanaka, Tsunehiro
    CHEMCATCHEM, 2014, 6 (07) : 2011 - 2020
  • [33] Catalytic performance of highly dispersed WO3 loaded on CeO2 in the selective catalytic reduction of NO by NH3
    Zhang, Lei
    Sun, Jingfang
    Xiong, Yan
    Zeng, Xiaoqing
    Tang, Changjin
    Dong, Lin
    CHINESE JOURNAL OF CATALYSIS, 2017, 38 (10) : 1749 - 1758
  • [34] Isostructural Molecular and Surface Mimics of the Active Sites of the Industrial WO3/SiO2 Metathesis Catalysts
    Mougel, Victor
    Coperet, Christophe
    ACS Catalysis, 2015, 5 (11): : 6436 - 6439
  • [35] Structural properties of TiO2–WO3 thin films prepared by r.f. sputtering
    S. Komornicki
    M. Radecka
    P. Sobaś
    Journal of Materials Science: Materials in Electronics, 2004, 15 : 527 - 531
  • [36] Effect of oxygen and WO3 additive on anatase-to-rutile phase transformation in TiO2 nanoparticles
    Wang, Meihan
    Wen, Jiaxing
    Sawada, Yutaka
    Hoshi, Yoichi
    Hou, Zhaoxia
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 2015, 119 (01) : 435 - 439
  • [37] Enhancement of photoelectric response of bacteriorhodopsin by multilayered WO3•H2O nanocrystals/PVA membrane
    Li, Rui
    Hu, Fengping
    Bao, Qiaoliang
    Bao, Shujuan
    Qiao, Yan
    Yu, Shucong
    Guo, Jun
    Li, Chang Ming
    CHEMICAL COMMUNICATIONS, 2010, 46 (05) : 689 - 691
  • [38] PREDICTION OF TiO2 AND WO3 NANOPOWDERS SURFACE CHARGE BY THE EVALUATION OF POINT OF ZERO CHARGE (PZC)
    Bertus, Laura Maria
    Carcel, Radu Adrian
    ENVIRONMENTAL ENGINEERING AND MANAGEMENT JOURNAL, 2011, 10 (08): : 1021 - 1026
  • [39] Promotional effect of ZrO2 and WO3 on bimetallic Pt-Pd diesel oxidation catalyst
    Rongrong Fan
    Zhaoqiang Li
    Yu Wang
    Yan Wang
    Zhiyong Ding
    Cheng Zhang
    Na Kang
    Xin Guo
    Rong Wang
    Environmental Science and Pollution Research, 2022, 29 : 5282 - 5294
  • [40] Quasi-1D hyperbranched WO3 nanostructures for low-voltage photoelectrochemical water splitting
    Balandeh, Mehrdad
    Mezzetti, Alessandro
    Tacca, Alessandra
    Leonardi, Silvia
    Marra, Gianluigi
    Divitini, Giorgio
    Ducati, Caterina
    Meda, Laura
    Di Fonzo, Fabio
    JOURNAL OF MATERIALS CHEMISTRY A, 2015, 3 (11) : 6110 - 6117
12345