Here, copper nanoparticles were in situ synthesized on polyester fabric using cost effective chemicals, without stabilizing and sensitizing agents through a simple click electroless plating method to attain the electrical conductive fabric. Central composite design based on response surface methodology was applied to study the influence of copper salt precursor and reducing agent concentration on the electrical resistivity. The best sample with the lowest electrical resistivity was chosen and analyzed and then similar processing conditions were applied under ultrasonic condition besides final fabrics were subjected to the diverse characterizations. Findings suggested the potentiality of the one-pot sonoplating method for fabrication of copper nanoparticles on polyester fabric. The successful synthesis of copper nanoparticles on the polyester fabric was verified by scanning electron microscopy (SEM) images and X-ray diffraction (XRD) patterns. A remarkable low electrical resistivity of 0.5 Ω·cm obtained on the sonotreated samples produced with incorporation of copper nanoparticles. Further, good results indicated on the mechanical properties of the copper treated fabrics. All of the observations perceive the great potential applications of the product in electrical, medical and smart textiles industries.

此处，铜纳米粒子是使用成本有效的化学物质在聚酯织物上原位合成的，而没有通过简单的点击化学镀方法稳定和增敏剂来获得导电织物。以响应面法为基础的中心复合设计，研究了铜盐前驱体和还原剂浓度对电阻率的影响。选择和分析具有最低电阻率的最佳样品，然后在超声波条件下应用类似的加工条件，此外还要对最终织物进行不同的表征。研究结果表明，一锅超声法可在聚酯织物上制造铜纳米颗粒。通过扫描电子显微镜（SEM）图像和X射线衍射（XRD）图案验证了聚酯织物上铜纳米颗粒的成功合成。在掺入铜纳米粒子的超声处理样品上获得的0.5Ω·cm的极低电阻率。此外，在铜处理的织物的机械性能上显示出良好的结果。所有观察结果都表明该产品在电气，医疗和智能纺织品行业中具有巨大的潜在应用。在铜处理的织物的机械性能上显示出良好的结果。所有观察结果都表明该产品在电气，医疗和智能纺织品行业中具有巨大的潜在应用。在铜处理的织物的机械性能上显示出良好的结果。所有观察结果都表明该产品在电气，医疗和智能纺织品行业中具有巨大的潜在应用。