FORMATION OF COPPER OXIDE (CU2O) CRYSTALS ON THE SURFACE OF NATURAL FIBROUS FABRICS AND STUDY OF THEIR PHYSICAL AND MECHANICAL PROPERTIES

Parpiev Khabibulla; Chunxing Zhou; Juramirza Abdiramatovich Kayumov; Zokirjon Erkinov; Adkhamjon Gafurov; Muzaffarkhon Izatillaev

FORMATION OF COPPER OXIDE (CU2O) CRYSTALS ON THE SURFACE OF NATURAL FIBROUS FABRICS AND STUDY OF THEIR PHYSICAL AND MECHANICAL PROPERTIES

Authors

Parpiev Khabibulla Namangan State Technical University
Chunxing Zhou Zhejiang Sci-Tech University
Juramirza Abdiramatovich Kayumov Samarkand State Architecture and Construction University
Zokirjon Erkinov Namangan State Technical University
Adkhamjon Gafurov Namangan State Technical University
Muzaffarkhon Izatillaev Namangan State Technical University

Keywords:

Textile fabrics, structural color, photonic crystals, Cu2O microspheres, mechanical properties.

Abstract

Structural color-forming materials are expected to replace pigments and dyes as a new type of color materials with good light fastness and bright color. In this study, copper oxide (Cu2O) microspheres of different sizes were synthesized by a two-step spin-coating method, and the microspheres were firmly attached to fabrics using a polyvinyl alcohol (PVA) binder. Two different types of fabrics (cotton, silk) were evaluated to study their physical properties and color fastness. As a result, the tensile strength and tearing strength of Cu2O structural fabrics slightly decreased, while the tearing strength of silk fiber fabrics increased, except for cotton fiber fabrics. Meanwhile, all structurally colored fabrics showed excellent color fastness to cutting, abrasion, and washing. This study provides experimental data for developing the feasibility of using structural colors in various natural fabrics.

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Published

2025-10-26

Issue

Vol. 3 No. 10 (2025): WOT

Section

Articles

License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite

FORMATION OF COPPER OXIDE (CU2O) CRYSTALS ON THE SURFACE OF NATURAL FIBROUS FABRICS AND STUDY OF THEIR PHYSICAL AND MECHANICAL PROPERTIES. (2025). Web of Technology: Multidimensional Research Journal, 3(10), 67-80. https://webofjournals.com/index.php/4/article/view/5293