Global Textile Enzymes Market Growth, Share, Size, Trends and Forecast (2025 - 2031)

• In 2021, Novozymes introduced DeniLite LEC to the market, a cutting-edge enzyme crafted for the denim sector that is aimed at reducing water usage and diminishing the environmental impact of wastewater. In a bid to further innovate within this domain, they joined forces with Jeanologia, a company heralded for its pioneering advancements in eco-friendly finishing techniques for textiles, to forge bespoke solutions for the manufacturing landscape. Novozymes is a global biotechnology company headquartered in Bagsværd, outside of Copenhagen, Denmark. The company's focus is the research, development and production of industrial enzymes, microorganisms, and biopharmaceutical ingredients.

• In 2021, DuPont unveiled their latest environmentally-conscious product, PrimaGreen Eco—an enzyme that is designed for the textile printing industry to aid in saving water and energy throughout the production process. Responding to the escalating call for textile processes that are more sustainable, DuPont took a significant step by enhancing their enzyme production facilities within Europe to better cater to the increasing market demands. DuPont, is an American multinational chemical company first formed in 1802 by French-American chemist and industrialist Éleuthère Irénée du Pont de Nemours. The company played a major role in the development of Delaware and first arose as a major supplier of gunpowder.

The global textile enzymes market is segmented by industry analysis, source, type, application, and geography, providing a comprehensive view of its diverse drivers and growth trends. By industry analysis, the market covers key textile segments such as apparel, home textiles, and industrial textiles. The apparel sector is the largest end-user of textile enzymes, as enzymes play a crucial role in fabric finishing, stone-washing, and bio-polishing processes. Home textiles, including bed linens, curtains, and upholstery, also contribute significantly to the demand for textile enzymes, as these products require various enzymatic treatments for durability, softness, and color enhancement. The industrial textiles segment, though smaller, is growing due to the increasing use of enzymes in the production of specialized textiles for applications like automotive, filtration, and medical textiles.

By source, the textile enzymes market is categorized into animal tissues, plants, and micro-organisms. Micro-organisms, particularly fungi and bacteria, dominate the market due to their cost-effectiveness, high efficiency, and the environmentally friendly nature of the enzymes produced. Microbial enzymes, such as cellulases, xylanases, and amylases, are used extensively in textile processing, including denim finishing, bio-polishing, and bio-scouring. Plant-derived enzymes are gaining popularity due to their sustainability and biodegradability, with enzymes like amylases and pectinases being used in various applications. Animal-derived enzymes, though less common due to higher production costs and sustainability concerns, are still utilized in niche applications that require specialized enzymatic properties.

In terms of type, the textile enzymes market includes cellulases, amylases, proteases, lipases, and others. Cellulases are the most widely used enzymes in the textile industry, especially in the finishing and bio-polishing of fabrics, where they enhance softness, color, and appearance. Amylases are essential for starch removal in the fabric pre-treatment process, while proteases are used for de-sizing and improving fabric feel. Lipases find applications in denim finishing, providing unique properties like softness and better washing performance. Other enzymes, such as pectinases and laccases, are employed in specialized treatments and processes, depending on the fabric and desired finish.

The application segment of the global textile enzymes market includes pre-treatment, bio-polishing, bleaching, scouring, finishing, and others. In pre-treatment, enzymes are used to remove starch and other impurities from textiles before dyeing and finishing processes. Bio-polishing, where cellulases are used, is widely employed to improve fabric smoothness and color retention. Enzymes are also key in the bleaching process, where they help in environmentally friendly, low-temperature treatments that replace harsh chemicals. Scouring enzymes remove natural impurities, enhancing fabric quality, while finishing enzymes are used to enhance fabric performance, such as improving softness, durability, and color brightness.

The textile enzymes market is segmented into North America, Europe, Asia-Pacific, Latin America, and the Middle East & Africa. Asia-Pacific is the largest market for textile enzymes, driven by the presence of major textile manufacturing hubs like China, India, and Bangladesh. The growing demand for environmentally friendly and sustainable textile production methods in this region has significantly increased the adoption of textile enzymes. North America and Europe are mature markets, with a strong focus on innovation, eco-friendly processes, and sustainable textile production. These regions see demand from both the apparel and home textile sectors, where quality and environmental concerns are paramount. Latin America and the Middle East & Africa are emerging markets, experiencing steady growth in the textile enzymes sector due to expanding textile industries and increasing awareness of sustainable practices. Each region's demand for textile enzymes is influenced by its manufacturing capacities, regulatory environments, and consumer preferences for environmentally friendly and high-performance textile products.

Global Textile Enzymes Market Analysis

The Global Textile Enzymes Market has been segmented by Industry Analysis, Source, Type, Application Analysis and Geography.

Global Textile Enzymes Market, Segmentation by Source

The Global Textile Enzymes Market has been segmented by Source into Animal Tissues, and Plants, Micro-organisms.

Animal tissues, including enzymes derived from sources like liver or pancreas, have been used traditionally in textile processing, offering a range of proteolytic, lipolytic, and amylolytic properties. These enzymes are primarily used for processes such as scouring, bio-polishing, and fabric finishing, where their ability to break down complex organic compounds in textiles is highly valued. While less commonly used today due to sustainability concerns and the high cost of production, animal-derived enzymes still find applications in high-performance, specialty textile processing.

Plant-based enzymes are derived from sources such as fruits, seeds, and leaves, and are increasingly favored in the textile industry for their eco-friendly and sustainable attributes. These enzymes, such as amylases, cellulases, and pectinases, are used in processes like bio-scouring, bleaching, and fabric softening. Plant enzymes are highly efficient in breaking down starches and other natural materials in textiles, and they are biodegradable, making them more attractive to manufacturers focused on sustainability. As the textile industry increasingly shifts towards greener and more natural processes, the demand for plant-derived enzymes continues to rise, particularly in eco-conscious markets.

Micro-organisms, such as bacteria and fungi, are the most widely used source for textile enzymes due to their efficiency and ability to produce large quantities of enzymes in a cost-effective and sustainable manner. Microbial enzymes, including cellulases, xylanases, and laccases, are essential in various textile applications, including stone-washing, denim finishing, and fabric bio-polishing. These enzymes not only provide superior performance in processing but also offer significant environmental benefits, as they are often produced through fermentation, reducing the need for harsh chemicals in textile treatment processes. The increasing focus on sustainability, coupled with advances in biotechnology, has led to a rising preference for microbial enzymes, making them the dominant source in the global textile enzymes market.

Global Textile Enzymes Market, Segmentation by Type

The Global Textile Enzymes Market has been segmented by Type into Amylase, Cellulase, Pectinase, Catalase, Laccase and Others.

The Global Textile Enzymes Market is segmented by type into several key categories, each playing a crucial role in enhancing textile manufacturing processes. Amylases are widely used for desizing, removing starch from fabrics during preparation, which is essential for improving fabric handle and dye penetration. Cellulases, another significant segment, contribute to bio-polishing and stone-washing denim, imparting a soft and worn-in look while reducing fabric pilling. Pectinases find application in improving the dyeing and printing properties of textiles by removing pectin substances from natural fibers like cotton and linen.

Catalases and laccases are enzymes employed for oxidative processes in textile finishing. Catalases help in decomposing hydrogen peroxide, commonly used in bleaching and dyeing processes, thereby enhancing color brightness and reducing fabric damage. Laccases, on the other hand, assist in dyeing processes by oxidizing dyes, improving color fastness and reducing environmental impact. The "Others" category encompasses enzymes used for specialized applications such as proteases for fabric softening and surface modification, lipases for hydrophobic treatments, and various other enzyme formulations tailored to specific textile processing needs. As the textile industry emphasizes sustainability and efficiency, the demand for these enzyme types continues to grow, driven by their ability to improve product quality while reducing environmental footprint across global markets.

Global Textile Enzymes Market, Segmentation by Application Analysis

The Global Textile Enzymes Market has been segmented by Application Analysis into Bio-Pulishing, Desizing, Bioscouring, Enzymatic Bleaching and Others.

The Global Textile Enzymes Market is segmented by application into several key categories that address different stages and processes in textile manufacturing. Bio-polishing stands out as a significant application, where enzymes like cellulases are used to enhance the surface of textiles, resulting in a smoother fabric with reduced pilling and improved luster. This process not only improves the aesthetic appeal of garments but also enhances comfort and durability, making bio-polishing essential in the production of high-quality apparel and home textiles.

Desizing is another critical application where enzymes, particularly amylases, play a crucial role in removing starch from fabrics. This process is essential as it prepares textiles for subsequent dyeing and finishing processes, ensuring uniform dye penetration and enhancing overall fabric quality. Bioscouring involves the use of enzymes to remove waxes, pectins, and other impurities from natural fibers like cotton and wool, improving their absorbency and dyeing properties. Enzymatic bleaching processes utilize enzymes like catalases to degrade hydrogen peroxide residues after bleaching, reducing environmental impact and ensuring fabric safety. The "Others" category includes a range of specialized applications where enzymes are employed for niche textile treatments such as anti-pilling treatments, hydrophobic finishing, and functional textile modifications. These applications underscore the versatility and importance of enzymes in modern textile processing, contributing to both operational efficiency and sustainability in the global textile industry.

Global Textile Enzymes Market, Segmentation by Geography

The Global Textile Enzymes Market has been segmented by Geography into five regions; North America, Europe, Asia Pacific, Middle East and Africa and Latin America.

Global Textile Enzymes Market Share (%), by Geographical Region, 2024

The Global Textile Enzymes Market is geographically segmented into North America, Europe, Asia Pacific, Middle East and Africa, and Latin America, each region contributing uniquely to the market dynamics. North America and Europe are mature markets with stringent environmental regulations and a strong emphasis on sustainable manufacturing practices. These regions lead in technological innovations and adoption of advanced enzyme technologies in textile processing. The presence of major textile manufacturers and enzyme suppliers further supports market growth, driven by continuous research and development efforts aimed at improving product efficiency and environmental sustainability.

Asia Pacific dominates the global textile enzymes market, accounting for the largest share due to its thriving textile industry in countries like China, India, and Bangladesh. Rapid industrialization, urbanization, and increasing disposable incomes drive the demand for textiles and, consequently, textile enzymes for efficient and eco-friendly processing. The region also benefits from lower production costs, favorable government policies, and a growing focus on adopting green technologies. In contrast, the Middle East and Africa and Latin America regions are witnessing steady growth in textile manufacturing and are gradually embracing enzyme-based textile processing to enhance product quality and meet global sustainability standards. As these regions continue to develop their textile industries, the demand for textile enzymes is expected to rise, supported by expanding production capacities and increasing consumer awareness towards sustainable textiles.

This report provides an in depth analysis of various factors that impact the dynamics of Global Textile Enzymes Market. These factors include; Market Drivers, Restraints and Opportunities Analysis.

Drivers, Restraints and Opportunity Analysis

Key players in Global Textile Enzymes Market include:

• AB Enzymes
• Novozymes A/S
• Lumis
• Sunson Industry Group Co., Ltd.
• E.I. du Pont de Nemours & Company (DuPont)
• Refnul Resins & Chemicals Ltd.
• Maps Enzymes Ltd.
• BASF SE
• Genotek Biochem
• Zytex Pvt. Ltd.

In this report, the profile of each market player provides following information:

• Company Overview and Product Portfolio
• Key Developments
• Financial Overview
• Strategies
• Company SWOT Analysis