工业纺织品染色的绿色路线:漆酶为基础的方法

Q2 Chemical Engineering Journal of Molecular Catalysis B-enzymatic Pub Date : 2016-12-01 DOI:10.1016/j.molcatb.2016.11.016

Cinzia Pezzella , Simona Giacobbe , Valerio Guido Giacobelli , Lucia Guarino , Sibel Kylic , Mehmet Sener , Giovanni Sannia , Alessandra Piscitelli

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引用次数: 35

摘要

漆酶催化的染料分子合成代表了一种绿色选择，以减少传统合成过程的环境足迹。纺织工业将受益于这种绿色技术，因为合成的染料可以用来给不同的织物上色。本文介绍了平菇POXA1b漆酶在间苯二酚和2,5-二氨基苯磺酸(2,5- dabsa)为底物合成聚合染料中的应用。间苯二酚/2,5- dabsa偶联路线的潜力通过在纺织染色常规过程中引入更环保的合成步骤，转移到化学工业setasu Colour Center。以不同的前驱物比例(1:1和1:10 2,5- dabsa:间苯二酚)进行染料合成，并比较其在不同纤维上的染色性能。两种合成染料的混合对尼龙和羊毛均有较好的染色效果，以1:10的比例染色效果最好。用这两种合成染料染色尼龙和羊毛的最终质量和“使用过程中的性能”都很好。

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Green routes towards industrial textile dyeing: A laccase based approach

Laccase-catalyzed synthesis of dye molecules represents a green choice to reduce the environmental footprint of conventional synthetic processes. Textile industry will benefit from this green technology since the synthesized dyes can be exploited to colour different fabrics.

This work describes the application of the Pleurotus ostreatus POXA1b laccase in polymeric dye synthesis using resorcinol and 2,5-diaminobenzenesulfonic acid (2,5-DABSA) as substrates. The potential of the resorcinol/2,5-DABSA coupling route was transferred to a chemical industry, Setaş Colour Center, by introducing a greener synthesis step within the process routinely used for textile dyeing. Dye synthesis was performed at different precursor ratios (1:1 and 1:10 2,5-DABSA: resorcinol) and their dyeing properties were compared on different fibres. The two mixtures of synthesized dyes proved to be effective on nylon and wool, with 1:10 ratio displaying the best performances in terms of dyeing efficiency and colour strength. Good and comparable end quality and “performances during use” were observed for nylon and wool coloured with both synthesized dyes.

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来源期刊

Journal of Molecular Catalysis B-enzymatic 生物-生化与分子生物学

CiteScore

2.58

自引率

0.00%

发文量

审稿时长

3.4 months

期刊介绍： Journal of Molecular Catalysis B: Enzymatic is an international forum for researchers and product developers in the applications of whole-cell and cell-free enzymes as catalysts in organic synthesis. Emphasis is on mechanistic and synthetic aspects of the biocatalytic transformation. Papers should report novel and significant advances in one or more of the following topics; Applied and fundamental studies of enzymes used for biocatalysis; Industrial applications of enzymatic processes, e.g. in fine chemical synthesis; Chemo-, regio- and enantioselective transformations; Screening for biocatalysts; Integration of biocatalytic and chemical steps in organic syntheses; Novel biocatalysts, e.g. enzymes from extremophiles and catalytic antibodies; Enzyme immobilization and stabilization, particularly in non-conventional media; Bioprocess engineering aspects, e.g. membrane bioreactors; Improvement of catalytic performance of enzymes, e.g. by protein engineering or chemical modification; Structural studies, including computer simulation, relating to substrate specificity and reaction selectivity; Biomimetic studies related to enzymatic transformations.