Bleaching Activators and the mechanism of bleaching activation

Hofmann, Jörg; Just, G.; Pritzkow, W.; Schmidt, Harald

doi:10.1002/prac.19923340402

Cited by 60 publications

(43 citation statements)

References 23 publications

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“…6 In situ generation of peroxycarboxylic acids by hydrolysis of esters or amides in the presence of hydrogen peroxide is an alternative approach for producing active peroxycarboxylic acids when required in applications. 7 Peroxycarboxylic acid production employing hydrolases has been reported for proteases, 8,9 lipases, 10 and esterases, 11 which are mainly used in detergent formulations. In a patent application, 8 the reengineering of proteases for peroxycarboxylic acid production was reported for the first time.…”

Section: Introductionmentioning

confidence: 99%

Fluorescent Assay for Directed Evolution of Perhydrolases

et al. 2012

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Directed evolution offers opportunities to improve promiscuous activities of hydrolases in rounds of diversity generation and high-throughput screening. In this article, we developed and validated a screening platform to improve the perhydrolytic activity of proteases and likely other hydrolases (e.g., lipases or esterases). Key was the development of a highly sensitive fluorescent assay (sensitivity in the µM range) based on 3-carboxy-7-hydroxycoumarin (HCC) formation. HCC is released through an hypobromite-mediated oxidation of 7-(4′-aminophenoxy)-3-carboxycoumarin (APCC), which enables for the first time a continuous measurement of peroxycarboxylic acid formation with a standard deviation of 11% in microtiter plates with a wide pH range window (5-9). As example, subtilisin Carlsberg was subjected to site saturation mutagenesis at position G165, yielding a variant T58A/G165L/L216W with 5.4-fold increased k cat for perhydrolytic activity compared with wild type.

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Section: Introductionmentioning

confidence: 99%

Fluorescent Assay for Directed Evolution of Perhydrolases

et al. 2012

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“…This is plausible because hydrogen peroxide dissociates at pH 11 to 11.5 to release perhydroxyl anions that directly bleach fibers (Zeronian and Inglesby 1995). On the other hand, perhydroxyl anions react with bleach activators to generate peracid species, which can bleach fibers under milder conditions (Grime and Clauss 1990;James and Mackirdy 1990;Hofmann et al 1992;Beck et al 2007). However, in the case of regenerated bamboo fiber, TBBC failed to provide significantly enhanced bleaching efficiency under the conditions tested in the CCD.…”

Section: Chemistry Of Tbbcmentioning

confidence: 98%

“…Bleach activators are organic peracid precursors which liberate more kinetically active peracid in situ in the presence of hydrogen peroxide in a weakly alkaline aqueous solution (Grime and Clauss 1990;James and Mackirdy 1990;Hofmann et al 1992;Beck et al 2007). Using bleaching activators, a relatively benign bleaching system can be conducted at lower temperature and reduced time relative to conventional peroxide bleaching, thereby leading to reduced fiber damage.…”

Section: Introductionmentioning

confidence: 98%

Activated peroxide bleaching of regenerated bamboo fiber using a butyrolactam-based cationic bleach activator

Shamey

Hinks

2010

Cellulose

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Regenerated bamboo fibers are potentially a valuable source of renewable fibers for use in a wide variety of applications. As with almost all natural fibers, inherent yellowness must be reduced or eliminated in order for the fibers to be used effectively in processes such as dyeing. Oxidative bleaching in the form of hot alkaline hydrogen peroxide is the most common method for bleaching cellulosic fibers. However, significant fiber damage results, especially in the case of regenerated bamboo. Recently, more benign oxidative bleaching methods have been developed using so-called bleach activators. Reported is an effective bleaching method using a novel bleach activator, N-[4-(triethylammoniomethyl)benzoyl]butyrolactam chloride (TBBC). The ratio of TBBC to hydrogen peroxide and pH were found to be critical to achieving effective bleaching at low temperature. Using equimolar amounts of TBBC and hydrogen peroxide at pH 7 and 50°C, comparable whiteness and less fiber damage compared with conventional peroxide bleaching was obtained. However, at pH 11.5, TBBC had no effect on whiteness.

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“…Bleach activators are organic compounds that liberate peracids in the presence of hydrogen peroxide in alkaline aqueous solutions (Holst 1954;James and Mackirdy 1990;Hofmann et al 1992;Beck et al 2007). They are widely used in laundry detergent formulations (Grime and Clauss 1990), and are increasingly being considered for use in industrial textile bleaching in an attempt to reduce energy, processing time and fiber damage caused by conventional peroxide bleaching (Mathews 1999;Cai et al 2001;Wang and Washington 2002;Gursoy et al 2004a, b;Lim et al 2004Lim et al , 2005Cai and Evans 2007;Lavrič et al 2007).…”

Section: Introductionmentioning

confidence: 98%

Bleaching cellulosic fibers via pre-sorption of N-[4-(triethylammoniomethyl)-benzoyl]-butyrolactam chloride

Hinks

Shamey

2010

Cellulose

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The sorption of a novel cationic bleach activator, N-[4-(Triethylammoniomethyl)benzoyl]-butyrolactam Chloride (TBBC), was measured on regenerated bamboo fiber. At 25°C near neutral pH, the sorption rate of TBBC onto the fiber was initially rapid and equilibrium was reached within 20 min. Adsorption equilibria experiments followed a Freundlich isotherm. At the sorption equilibrium, bleaching was initiated by addition of sodium perborate to liberate hydrogen peroxide, which reacted with TBBC to generate a peracid that is a more kinetically active oxidant than peroxide. A sorption-activation model was developed that supports the enhanced bleaching of cellulosic fibers using cationic bleach activators under neutral to alkaline conditions.

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Bleaching Activators and the mechanism of bleaching activation

Cited by 60 publications

References 23 publications

Fluorescent Assay for Directed Evolution of Perhydrolases

Fluorescent Assay for Directed Evolution of Perhydrolases

Activated peroxide bleaching of regenerated bamboo fiber using a butyrolactam-based cationic bleach activator

Bleaching cellulosic fibers via pre-sorption of N-[4-(triethylammoniomethyl)-benzoyl]-butyrolactam chloride

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