A review of the green chemistry approaches to leather tanning in imparting sustainable leather manufacturing†

IF 9.3 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Green Chemistry Pub Date : 2023-08-18 DOI:10.1039/D3GC02948D
Mohammad Mahbubul Hassan, Jane Harris, James J. C. Busfield and Emiliano Bilotti
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引用次数: 2

Abstract

Leather is made of collagen protein polymer, which is used in the manufacture of a variety of products including footwear, automotive upholstery, garments, and sports equipment. Animal skins/hides are converted into leather using a series of chemical processes. Of them, the tanning process is the most important chemical process that converts animal skins into leather by stabilising collagen fibre so that they do not putrefy. However, it is a hazardous process because of the use of various toxic chemicals in tanning, re-tanning and fatliquoring treatments producing toxic effluent. Over the years many tanning treatments based on chromium sulphate, and vegetable and synthetic tannins in combination with heavy metals, have been developed but tanning with chromium sulphate (known as Cr-tanning) is still the most effective, cheap, and widely used tanning process in the leather industry. Although the development of various improved Cr-tanning methods highly reduced the chemical and water consumption in leather tanning, it is still under scrutiny because of the production of effluent containing a harmful level of Cr and there is strong evidence that when the treated leather is disposed into the environment, part of the released trivalent chromium is converted into carcinogenic hexavalent chromium. Many sustainable alternatives to Cr-tanning based on chemical and enzymatic crosslinking, various bio-derived polymers, enzymes, modified zeolites, and nanostructured materials have been developed over the years with limited success. The alternative methods are either not as effective as Cr-tanning, affect the dyeability and other functional and organoleptic properties of leather, and or are cost-prohibitive. In this comprehensive review article, various tanning methods used in industry or studied in the laboratory are critically reviewed, and their advantages and disadvantages are outlined. The consumption of tanning agents, total chemicals including various auxiliaries and fatliquoring agents, and water in tanning, and the tanning performance and mechanical properties of the processed leather are compiled and compared. The reaction mechanisms of novel tanning agents with leather collagens and the future directions to make leather tanning more sustainable are outlined. This review article will be a guide for academicians/researchers/manufacturers involved in leather processing to develop more sustainable leather materials.

Abstract Image

皮革制革的绿色化学方法在可持续皮革制造中的应用综述†
皮革由胶原蛋白聚合物制成,用于制造各种产品,包括鞋类、汽车内饰、服装和体育器材。动物皮/兽皮通过一系列化学工艺转化为皮革。其中,制革过程是最重要的化学过程,通过稳定胶原蛋白纤维将动物皮转化为皮革,使其不会腐烂。然而,这是一个危险的过程,因为在制革、再鞣和加脂处理中使用了各种有毒化学品,产生了有毒的废水。多年来,已经开发了许多基于硫酸铬、植物和合成单宁与重金属结合的鞣处理方法,但硫酸铬鞣(称为铬鞣)仍然是皮革工业中最有效、最便宜、最广泛使用的鞣方法。尽管各种改进的铬鞣方法的发展大大降低了皮革鞣过程中的化学和水消耗,但由于产生的废水含有有害水平的铬,这一过程仍受到关注,并且有强有力的证据表明,当处理过的皮革被丢弃到环境中时,部分释放的三价铬转化为致癌的六价铬。多年来,基于化学和酶交联、各种生物衍生聚合物、酶、改性沸石和纳米结构材料的铬鞣的许多可持续替代品已经开发出来,但收效甚微。替代方法要么不如铬鞣有效,影响皮革的可染性和其他功能和感官特性,要么成本高昂。在这篇全面的综述文章中,对工业上使用或实验室研究的各种制革方法进行了批判性的综述,并概述了它们的优缺点。编制并比较了鞣剂用量、各种助剂、加脂剂等总化学品用量、鞣水用量以及加工皮革的鞣性能和力学性能。概述了新型鞣剂与皮革胶原的反应机理以及使皮革鞣更具可持续性的未来方向。这篇综述文章将为参与皮革加工的院士/研究人员/制造商开发更可持续的皮革材料提供指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Green Chemistry
Green Chemistry 化学-化学综合
CiteScore
16.10
自引率
7.10%
发文量
677
审稿时长
1.4 months
期刊介绍: Green Chemistry is a journal that provides a unique forum for the publication of innovative research on the development of alternative green and sustainable technologies. The scope of Green Chemistry is based on the definition proposed by Anastas and Warner (Green Chemistry: Theory and Practice, P T Anastas and J C Warner, Oxford University Press, Oxford, 1998), which defines green chemistry as the utilisation of a set of principles that reduces or eliminates the use or generation of hazardous substances in the design, manufacture and application of chemical products. Green Chemistry aims to reduce the environmental impact of the chemical enterprise by developing a technology base that is inherently non-toxic to living things and the environment. The journal welcomes submissions on all aspects of research relating to this endeavor and publishes original and significant cutting-edge research that is likely to be of wide general appeal. For a work to be published, it must present a significant advance in green chemistry, including a comparison with existing methods and a demonstration of advantages over those methods.
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