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Synthesis of Copper Nanowires Using Monoethanolamine and the Application in Transparent Conductive Films

Xiangyun Zha, Depeng Gong, Wanyu Chen, Lili Wu, Chaocan Zhang

2025Nanomaterials7 citationsDOIOpen Access PDF

Abstract

Copper nanowires (Cu NWs) are considered a promising alternative to indium tin oxide (ITO) and silver nanowires (Ag NWs) due to their excellent electrical conductivity, mechanical properties, abundant reserves, and low cost. They have been widely applied in various optoelectronic devices. In this study, Cu NWs were synthesized using copper chloride (CuCl2) as the precursor, monoethanolamine (MEA) as the complexing agent, and hydrated hydrazine (N2H4) as the reducing agent under strongly alkaline conditions at 60 °C. Notably, this is the first time that MEA has been employed as a complexing agent in this synthesis method for Cu NWs. Through a series of experiments, the optimal conditions for the CuCl2–MEA–N2H4 system in Cu NWs synthesis were determined. This study revealed that the presence of amines plays a crucial role in nanowire formation, as the co-ordination of MEA with copper in this system provides selectivity for the nanowire growth direction. MEA prevents the excessive conversion of Cu(I) complexes into Cu2O octahedral precipitates and exhibits an adsorption effect during Cu NWs formation. The different adsorption tendencies of MEA at the nanowire ends and lateral surfaces, depending on its concentration, influence the growth of the Cu NWs, as directly reflected by changes in their diameter and length. At an MEA concentration of 210 mM, the synthesized Cu NWs have an average diameter of approximately 101 nm and a length of about 28 μm. To fabricate transparent conductive films, the Cu NW network was transferred onto a polyethylene terephthalate (PET) substrate by applying a pressure of 20 MPa using a tablet press to ensure strong adhesion between the Cu NW-coated mixed cellulose ester (MCE) filter membrane and the PET substrate. Subsequently, the MCE membrane was dissolved by acetone and isopropanol immersion. The resulting Cu NW transparent conductive film exhibited a sheet resistance of 52 Ω sq−1 with an optical transmittance of 86.7%.

Topics & Concepts

NanowireMaterials scienceCopperChemical engineeringAdsorptionPolyethylene terephthalateIndium tin oxideSubstrate (aquarium)IndiumReducing agentNanotechnologyThin filmComposite materialOrganic chemistryMetallurgyChemistryEngineeringGeologyOceanographyNanomaterials and Printing TechnologiesAdvanced Sensor and Energy Harvesting MaterialsOrganic Light-Emitting Diodes Research
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