Gang Sun. 4 0
Chemistry of durable and regenerable biocidal textiles. 6 6 - - - - - - - - . - . - 0 . - . - 0 .
ABSTRACT : Unlike the widely used slow-releasing biocidal mechanism now employed in biocidal textiles, a novel regenerable process, based on a regeneration principle and halamine chemistry, has been developed in antimicrobial finishing of textiles. Halamine-modified textile materials demonstrate durable and regenerable antimicrobial functions and execute rapid inactivation of a broad spectrum of microorganisms by contact without yielding drug resistance. The unique properties of the products render them useful materials for medical-use and hygienic textiles. The chemistry of the biocidal materials is be discussed.
5
5
2 = =
2
2 --0------
6 --0-- 2 --------
0 2 --
--20------
Textile fabrics.;Microorganisms.;Chemistry, Technical.;Anti - Infective agents.;Biodegradation.;Bleaching. --------20--
--------20--
----2
QD1 .J826ce / 2
/ 2
/
/
Chemistry of durable and regenerable biocidal textiles. 6 6 - - - - - - - - . - . - 0 . - . - 0 .
ABSTRACT : Unlike the widely used slow-releasing biocidal mechanism now employed in biocidal textiles, a novel regenerable process, based on a regeneration principle and halamine chemistry, has been developed in antimicrobial finishing of textiles. Halamine-modified textile materials demonstrate durable and regenerable antimicrobial functions and execute rapid inactivation of a broad spectrum of microorganisms by contact without yielding drug resistance. The unique properties of the products render them useful materials for medical-use and hygienic textiles. The chemistry of the biocidal materials is be discussed.
5
5
2 = =
2
2 --0------
6 --0-- 2 --------
0 2 --
--20------
Textile fabrics.;Microorganisms.;Chemistry, Technical.;Anti - Infective agents.;Biodegradation.;Bleaching. --------20--
--------20--
----2
QD1 .J826ce / 2
/ 2
/
/