Synergistic Effect of Surface Microstructure and Ag3PO4 on Antimicrobial Performance of Polypropylene‐Based Composites DOI Open Access

Jiayi He,

Zihan Li, Qilong Wang

et al.

Advanced Engineering Materials, Journal Year: 2025, Volume and Issue: unknown

Published: March 20, 2025

In recent years, due to the drug resistance and side effects caused by microbe infection modification, people have begun implement strategies reduce prevent infection. Therefore, a synergistic strategy is designed prepare bioactive polypropylene/silver phosphate (PP/Ag 3 PO 4 ) composites with different Ag contents combining PP through melt blending, micrometer‐scale surfaces inspired lotus leaves are fabricated using hot embossing technique. By comparing analyzing obtained data, it found that microstructured PP/Ag prepared 2800 mesh sieve has best superhydrophobicity antibacterial properties 5% . The contact angle of composite material can be increased 152°, showing excellent superhydrophobic properties. During test, observed colony formation unit counting on surface reaches minimum, number surviving bacteria decreases indicating dense orderly arrangement, containing silver shows

Language: Английский

Synergistic Effect of Surface Microstructure and Ag3PO4 on Antimicrobial Performance of Polypropylene‐Based Composites DOI Open Access

Jiayi He,

Zihan Li, Qilong Wang

et al.

Advanced Engineering Materials, Journal Year: 2025, Volume and Issue: unknown

Published: March 20, 2025

In recent years, due to the drug resistance and side effects caused by microbe infection modification, people have begun implement strategies reduce prevent infection. Therefore, a synergistic strategy is designed prepare bioactive polypropylene/silver phosphate (PP/Ag 3 PO 4 ) composites with different Ag contents combining PP through melt blending, micrometer‐scale surfaces inspired lotus leaves are fabricated using hot embossing technique. By comparing analyzing obtained data, it found that microstructured PP/Ag prepared 2800 mesh sieve has best superhydrophobicity antibacterial properties 5% . The contact angle of composite material can be increased 152°, showing excellent superhydrophobic properties. During test, observed colony formation unit counting on surface reaches minimum, number surviving bacteria decreases indicating dense orderly arrangement, containing silver shows

Language: Английский

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