Gansheng Liu scite author profile

Gansheng Liu

2Publications

6Citation Statements Received

80Citation Statements Given

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Jiangnan University, Qingdao University

Publications

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Combination of Surfactant Action with Peroxide Activation for Room‐Temperature Cleaning of Textiles

Shao

Liu

Chen

et al. 2020

J Surfact & Detergents

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Room‐temperature cleaning of textiles is commonly practiced in many countries for energy saving as well as custom in daily life, but not very effective for removing colored contaminants. In this work, it was proposed to combine surfactant action (SA) with peroxide activation (PA) in a peroxide activator to enable cleaning of textiles at room temperature. N‐[4‐(alkyldimethylammoniomethyl)benzoyl]lactam chloride was designed and synthesized as a prototype of the proposed peroxide activator, in which the alkyl chain with a carbon atom number of n was responsible for surfactant action and the N‐benzoyllactam with a carbon atom number of m in the lactam ring was responsible for peroxide activation. Such a peroxide activator was hereby referred to as SAPAm‐n. The room‐temperature cleaning performance of SAPAm‐n was examined by cotton fabrics contaminated with morin and waste engine oil, respectively. It was found that SAPAm‐n was able to activate hydrogen peroxide released from sodium perborate so as to effectively bleach the morin‐contaminated cotton fabric at room temperature. Though extending the alkyl chain length of SAPAm‐n resulted in no apparent effect on the room‐temperature bleaching performance, it enhanced the surfactant action which contributed to removing oily contaminants from textiles. Color‐safe performance of SAPAm‐n was evaluated by cleaning a dyed cotton fabric at room temperature. It was found that the peroxide bleach activated by SAPAm‐n resulted in no apparent color change of the dyed cotton fabric. The results of this study provide new insights on textile cleaning at room temperature for the purpose of energy saving.

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Synthesis of Benzisothiazole–Azo Disperse Dyes for High Resistance to Alkaline Treatments and Peroxide Bleaching of Polyester and Polyester/Cotton Fabric

et al. 2022

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We proposed in this paper to design and synthesize a series of benzisothiazole-based heterocyclic azo disperse dyes with high resistance to alkali and peroxide. These newly synthesized disperse dyes were confirmed using 1 H nuclear magnetic resonance ( 1 H NMR), mass spectroscopy, and a UV–visible spectrophotometer. The resistances to alkali and peroxide were examined by dyeing polyester fabric with these synthesized disperse dyes in sodium hydroxide solution and alkaline hydrogen peroxide solution, respectively. It was found that the disperse dyes having cyano and hydroxyl groups exhibited poor resistance to alkali and peroxide. When the cyano and hydroxyl groups were substituted with ethyl, benzyl, and p -methylbenzyl groups, the synthesized disperse dyes exhibited extremely high resistance to alkali and peroxide. Utilizing the high resistance to alkali and peroxide of synthesized disperse dyes, the polyester suede fabric and polyester/cotton blended fabric could be produced by combining pretreatment with dyeing in one bath. From pilot-plant production based on 1-ton fabric, the one-bath process provided the advantages of saving electric power, steam, water, and man-hour.

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Gansheng Liu

Combination of Surfactant Action with Peroxide Activation for Room‐Temperature Cleaning of Textiles

Synthesis of Benzisothiazole–Azo Disperse Dyes for High Resistance to Alkaline Treatments and Peroxide Bleaching of Polyester and Polyester/Cotton Fabric

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