Fasten UV-Resistant Cotton Textiles by Modification with Mixed Metal–Ce–MOF

Abstract

Nowadays, manufacturing of ultraviolet (UV) protective textiles is quite interesting for the outdoor workers to protect their bodies from harmful radiation. Herein, for the first time, durable UV-protective cotton textiles were produced by modification with the mixed metal–Ce organic framework. Cotton was first interacted with 1,2,4-tricarboxybenzene-2,4-anhydride through benzylation reaction. The benzylated cotton (BTC–C = O@Cotton) was then reacted with two metal salts including Cerium salt to obtain Ce–M–BTC–C = O@Cotton. The estimated contents of Ce and the mixed metal within Ce–M–BTC–C = O@Cotton were 3.3% and 0.4%, respectively. The color of cotton was turned to bluish-green color, greenish-yellow color and reddish color after incorporation with Ce–Cu–BTC, Ce–Ni–BTC and Ce–Co–BTC, respectively. The all-modified fabrics exhibited UV-blocking character from good to excellent, depending on the inserted mixed metal. The measured UV-protection factor (UPF) was 34.7 (very good) for Ce–Cu–BTC–C = O@Cotton, 43.1 (excellent) for Ce–Ni–BTC–C = O@Cotton, 26.4 (good) for Ce–Zn–BTC–C = O@Cotton, and 33.3 (very good) for Ce–Co–BTC–C = O@Cotton. After 5 washing cycles, Ce–Ni–BTC–C = O@Cotton and Ce–Co–BTC–C = O@Cotton showed good UV protection. The mechanical properties of cotton textiles were not significantly affected after modification with Ce–M–BTC.