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Immobilization of Air-Stable Copper Nanoparticles on Graphene Oxide Flexible Hybrid Films for Smart Clothes

Through the use of organic/inorganic hybrid dispersants-which are composed of polymeric dispersant and two-dimension nanomaterial graphene oxide (GO)-copper nanoparticles (CuNPs) were found to exhibit nano stability, air-stable characteristics, as well as long-term conductive stability. The polymeri...

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Published in:	Polymers 2022-01, Vol.14 (2), p.237
Main Authors:	Huang, Peng-Yang, Huang, Chen-Yang, Li, Jia-Wun, Shen, Sheng-Yen, Cheng, Chih-Chia, Chiu, Chih-Wei, Jeng, Ru-Jong, Lin, Jiang-Jen
Format:	Article
Language:	English
Subjects:	Anhydrides Antioxidants Carbon Chemical reduction Composite materials Copper Dispersants Dispersion Electrocardiography Electrodes Esters Graphene Nanomaterials Nanoparticles Oxidation Particle size Physiology Polyethylene glycol Polyoxyethylene Redox reactions Silver Skin Spectrum analysis Stability Stabilizers (agents) Surfactants Wearable computers
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creator	Huang, Peng-Yang Huang, Chen-Yang Li, Jia-Wun Shen, Sheng-Yen Cheng, Chih-Chia Chiu, Chih-Wei Jeng, Ru-Jong Lin, Jiang-Jen
description	Through the use of organic/inorganic hybrid dispersants-which are composed of polymeric dispersant and two-dimension nanomaterial graphene oxide (GO)-copper nanoparticles (CuNPs) were found to exhibit nano stability, air-stable characteristics, as well as long-term conductive stability. The polymeric dispersant consists of branched poly(oxyethylene)-segmented esters of trimellitic anhydride adduct (polyethylene glycol-trimethylolpropane-trimellitic anhydride, designated as PTT). PTT acts as a stabilizer for CuNPs, which are synthesized via in situ polymerization and redox reaction of the precursor Cu(CH COO) within an aqueous system, and use graphene oxide to avoid the reduction reaction of CuNPs. The results show that after 30 days of storage the CuNPs/PTT/GO composite film maintains a highly conductive network (9.06 × 10 Ω/sq). These results indicate that organic/inorganic PTT/GO hybrid dispersants can effectively maintain the conductivity stability of CuNPs and address the problem of CuNP oxidation. Finally, the new CuNPs/PTT/GO composite film was applied to the electrocardiogram (ECG) smart clothes. This way, a stable and antioxidant-sensing electrode can be produced, which is expected to serve as a long-term ECG monitoring device.
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subjects	Anhydrides Antioxidants Carbon Chemical reduction Composite materials Copper Dispersants Dispersion Electrocardiography Electrodes Esters Graphene Nanomaterials Nanoparticles Oxidation Particle size Physiology Polyethylene glycol Polyoxyethylene Redox reactions Silver Skin Spectrum analysis Stability Stabilizers (agents) Surfactants Wearable computers
title	Immobilization of Air-Stable Copper Nanoparticles on Graphene Oxide Flexible Hybrid Films for Smart Clothes
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