Supercritical CO2-Assisted Electroless Plating of Ultrahigh-Molecular-Weight Polyethylene Filaments for Weavable Device Application

Supercritical CO2-Assisted Electroless Plating of Ultrahigh-Molecular-Weight Polyethylene Filaments for Weavable Device Application

This study reports on the use of supercritical CO2 (scCO2) for the metallization of ultrahigh-molecular-weight polyethylene (UHMW-PE) filaments, which are used as functional components in weavable devices. UHMW-PE is well known for its chemical and impact resistance, making it suitable for use in bu...

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Veröffentlicht in:Electrochem (Basel, Switzerland) Switzerland), 2024-06, Vol.5 (2), p.213-222
Hauptverfasser: Kondo, Hikaru, Kurioka, Tomoyuki, Wan-Ting, Chiu, Chun-Yi, Chen, Jhen-Yang Wu, Tso-Fu, Mark Chang, Yamaguchi, Machiko, Kurosu, Hiromichi, Sone, Masato
Format: Artikel
Sprache:eng
Schlagworte:
Antiballistic materials
Carbon dioxide
catalyzation temperature
Electroless plating
Filaments
Impact resistance
Mechanical properties
metallization
Metallizing
Metals
Ni-P
Palladium
Photocatalysis
Plating
Polyethylene
Polymers
Seeds
Spectrum analysis
supercritical carbon dioxide
Tensile strength
Textiles
UHMW-PE
Ultra high molecular weight polyethylene
Wearable computers
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Beschreibung
Zusammenfassung:This study reports on the use of supercritical CO2 (scCO2) for the metallization of ultrahigh-molecular-weight polyethylene (UHMW-PE) filaments, which are used as functional components in weavable devices. UHMW-PE is well known for its chemical and impact resistance, making it suitable for use in bulletproof clothing and shields. However, its chemical resistance poses a challenge for metallization. By utilizing scCO2 as the solvent in the catalyzation process, a uniform and defect-free layer of Ni-P is successfully deposited on the UHMW-PE filaments. The deposition rate of Ni-P is enhanced at higher temperatures during the scCO2 catalyzation. Importantly, the durability of the Ni-P-metalized UHMW-PE filaments is improved when the scCO2 catalyzation is carried out at 120 °C, as evidenced by minimal changes in electrical resistivity after a rolling test.
ISSN:2673-3293
DOI:10.3390/electrochem5020013