Analysis of the Influence of Technological Parameters on the Properties of Transparent Conductive Oxides

被引:0
|
作者
Pecherskaya, E. A. [1 ]
Zinchenko, T. O. [1 ]
Golubkov, P. E. [1 ]
Karpanin, O. V. [1 ]
Gurin, S. A. [1 ]
Novichkov, M. D. [1 ]
机构
[1] Penza State Univ, Penza, Russia
来源
THEORETICAL FOUNDATIONS OF CHEMICAL ENGINEERING | 2024年 / 58卷 / 03期
基金
俄罗斯科学基金会;
关键词
transparent conductive oxide; process mode; parameters; directed graph; analytical model; surface resistance; correlation analysis; TIO2 NANOTUBE ARRAYS; ELECTRICAL-PROPERTIES; ZNO NANORODS; SOLAR; FILMS; OPTIMIZATION;
D O I
10.1134/S0040579524601444
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
AbstractA model in the form of an oriented graph is developed, displaying the interrelations of technological modes and quality parameters of transparent conductive coatings. The model makes it possible to systematize the factors affecting the process and propose an analytical description of the effect parameters, the reactions to them, and the properties of the synthesized coatings in the form of a system of differential equations. Based on the specified mathematical model of the relationship between technological modes and coating properties, a method for selecting optimal technological parameters is developed in order to obtain transparent conductive coatings with specified properties. The achieved results can be used in technological processes for synthesizing transparent conductive coatings with specified properties.
引用
收藏
页码:798 / 806
页数:9
相关论文
共 50 条
  • [1] Influence of hydrogen plasma on electrical and optical properties of transparent conductive oxides
    Raniero, L
    Gonçalves, A
    Pimentel, A
    Ferreira, I
    Zhang, S
    Pereira, L
    Aguas, H
    Fortunato, E
    Martins, R
    Amorphous and Nanocrystalline Silicon Science and Technology-2005, 2005, 862 : 543 - 548
  • [2] Properties of InSnTaO films as transparent conductive oxides
    Zhang, Bo
    ADVANCED RESEARCH ON MATERIAL SCIENCE AND ENVIRONMENTAL SCIENCE, 2012, 534 : 197 - 200
  • [3] Influence of the Transparent Conductive Oxides on the P-OLEDs Behavior
    Santos, E. R.
    Correia, F. C.
    Junior, E. C. B.
    Onmori, R. K.
    Fonseca, F. J.
    de Andrade, A. M.
    Wang, S. H.
    MICROELECTRONICS TECHNOLOGY AND DEVICES - SBMICRO 2012, 2012, 49 (01): : 347 - 354
  • [4] Transparent Conductive Oxides Preface
    Grundmann, Marius
    Rahm, Andreas
    von Wenckstern, Holger
    PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, 2015, 212 (07): : 1408 - 1408
  • [5] Novel transparent conductive oxides
    Hosono, H
    PROCEEDINGS OF 3RD WORLD CONFERENCE ON PHOTOVOLTAIC ENERGY CONVERSION, VOLS A-C, 2003, : 31 - 33
  • [6] Infrared transparent conductive oxides
    Johnson, LF
    Moran, MB
    WINDOW AND DOME TECHNOLOGIES AND MATERIALS VII, 2001, 4375 : 289 - 299
  • [7] Transparent Conductive Oxides for Transparent Electrode Applications
    Minami, Tadatsugu
    OXIDE SEMICONDUCTORS, 2013, 88 : 159 - 200
  • [8] Investigation of the Properties of Transparent Conductive Oxides Produced by Aerosol Pyrolysis
    Zinchenko, T. O.
    Pecherskaya, E. A.
    Golubkov, P. E.
    Listyukhin, V. A.
    Zhurina, A. E.
    Gurin, S. A.
    JOURNAL OF SURFACE INVESTIGATION, 2022, 16 (06): : 1315 - 1321
  • [9] Investigation of the Properties of Transparent Conductive Oxides Produced by Aerosol Pyrolysis
    T. O. Zinchenko
    E. A. Pecherskaya
    P. E. Golubkov
    V. A. Listyukhin
    A. E. Zhurina
    S. A. Gurin
    Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2022, 16 : 1315 - 1321
  • [10] Transparent conductive oxides for organic photovoltaics
    Murdoch, G. B.
    Gao, D.
    Greiner, M.
    Mordoukhovski, L.
    Zhang, J.
    Lu, Z. H.
    OXIDE-BASED MATERIALS AND DEVICES, 2010, 7603
12345