Textile Enzymes Market

Textile Enzymes Market Size and Forecast

The global Textile Enzymes Market is valued at USD 540.3 Million in 2024 and is projected to reach a value of USD 973.6 Million by 2035 at a CAGR (Compound Annual Growth Rate) of 5.5% between 2025 and 2035.

Textile Enzymes Market Key Highlights

• Based on the Source, the Micro-organisms category accounted for significant market share of 87.5% in Textile Enzymes market industry in 2024
• In 2024, by Type, Cellulase dominated the Textile Enzymes market with significant Textile Enzymes market share of 33.6%
• Based on the Application, the De-Sizing category accounted for significant market share of 38.7% in Textile Enzymes market industry in 2024
• Asia Pacific dominated the Textile Enzymes market industry with 34.5% Textile Enzymes market share in 2024
• North America region is anticipated to grow at the highest CAGR during the forecast period in Textile Enzymes market industry

Textile Enzymes Market Growth Factor

Adoption of Advanced Textile Technologies

The growth of the Textile Enzymes market is primarily driven by the increasing adoption of advanced textile technologies in response to evolving consumer preferences. Manufacturers are always looking for new and creative ways to improve the sustainability, use, and quality of fabrics. For example, specific enzymatic treatments are necessary for smart fabrics and wearable electronics to preserve their eco-friendliness while achieving features like stretchability, moisture management, CO₂ and perspiration regulation, and enhanced comfort. Government bodies, such as the U.S. Department of Energy, recognize the energy-saving potential of these advanced processes, estimating that textile companies could reduce energy consumption by up to 40%. Leading industry players are already implementing cutting-edge solutions, reinforcing the demand for Textile Enzymes that support these technological advancements. As the Textile Enzymes market continues to evolve, the integration of modern textile technologies will remain a key factor driving the demand for enzymatic treatments.

Textile Enzymes Market Restraint Factor

Competition from Alternative Technologies

The Textile Enzymes market faces strong competition from alternative processing technologies despite its environmental and performance benefits. While enzymatic treatments provide eco-friendly and fabric-friendly solutions, traditional chemical-based processes remain widely used due to their cost-effectiveness, familiarity, and immediate results. Furthermore, advancements in non-enzymatic textile treatments are improving efficiency and performance, making them strong competitors. Technologies such as digital printing and high-temperature dyeing do not require enzymatic treatments and offer faster turnaround times, reducing the incentive for manufacturers to switch. As a result, the widespread availability and continuous improvement of these alternative technologies present a significant challenge to the growth of the Textile Enzymes market.

Source Insights

​The Source segment is divided into Animal Tissues, Plants, Micro-organisms.

• Animal Tissues: Enzymes derived from animal tissues play a significant role in textile processing, particularly in applications like leather softening and wool treatment. These enzymes, like proteases, help to improve the softness and durability of fabrics by biopolishing, degumming silk, and descaling wool fibers. However, there is a slow trend toward enzymes synthesized from plants and microbes due to worries about sustainability and ethical sourcing.
• Plants: Plant-based enzymes are widely utilized in textile processing due to their natural availability and environmentally friendly nature. Enzymes including cellulases and pectinases, which are utilized for fiber modification, desizing, and biopolishing, are found in extracts from fruits, leaves, and other plant materials. Manufacturers seeking to implement sustainable textile processing solutions choose these enzymes because they increase fabric texture, lessen fuzziness, and improve dye absorption.
• Micro-organisms: Enzymes produced from bacteria, fungi, and other microorganisms represent the largest and fastest-growing segment in the Textile Enzymes market. Amylases, cellulases, and laccases are examples of microbial enzymes that provide great efficiency, cost-effectiveness, and the potential for large-scale production. These enzymes are widely utilized in eco-friendly bleaching, bio-stoning of denim, and desizing processes, which lessen the environmental effect of textile manufacture and the need for harsh chemicals. As biotechnology advances, the possibility of using genetically modified microbes to improve the stability and performance of enzymes is also being investigated.

Type Insights

The Type segment is divided into Amylases, Cellulase, Lipases, Proteases, Pectinases, Laccases, Other Types, Amylases, Cellulase, Lipases, Proteases, Pectinases, Laccases, Other Types. In 2024, Cellulase dominated the Textile Enzymes market with significant market share of 33.6%.

• Amylases: Amylases are enzymes used in the textile industry primarily for desizing, a process that removes starch-based sizing agents applied to fabrics during weaving. By breaking down starch into soluble sugars, amylases help improve fabric quality without causing damage to the fibers. These enzymes are widely preferred due to their eco-friendly nature, replacing harsh chemical treatments traditionally used for desizing.
• Cellulase: Cellulases are essential for bio-polishing, a technique that breaks down cellulose microfibrils on the surface of textiles to improve their softness and smoothness. In order to generate a stone-washed impression without using pumice stones, they are also used for denim finishing, which lowers fabric wear and water consumption. Customers find cotton and other cellulosic textiles more enticing when they have better texture and look thanks to this enzyme.
• Lipases: Lipases are primarily used in textile processing for removing grease, oils, and waxes from fabrics, which can interfere with dyeing and finishing. By aiding in scouring, these enzymes guarantee that textiles have a uniformly clean surface for subsequent processing. They are an eco-friendly substitute for conventional chemical-based degreasing products because of their capacity to function in mild environments.
• Proteases: Proteases are employed in the Textile Enzymes industry for wool and silk processing, as they break down protein-based impurities. They aid in raising the quality of silk textiles, decreasing shrinking, and boosting the softness of wool. Proteases are also employed in enzymatic scouring procedures to enhance color absorption and eliminate leftover proteins from natural textiles like silk and wool.
• Pectinases: Pectinases are mainly utilized in cotton processing, particularly in bio-scouring, where they help remove pectin, waxes, and other non-cellulosic components from raw cotton. This improves the fabrics absorbency and gets it ready for effective coloring. Pectinases reduce the requirement for harsh alkaline scouring agents during textile manufacturing, which saves energy and water.
• Laccases: Laccases are oxidative enzymes used for textile bleaching and dye degradation. By decomposing lignin and other natural pigments, they make it easier to bleach clothes in an environmentally acceptable manner and provide an alternative to bleaching treatments that rely on chlorine. In the Textile Enzymes business, laccases are also utilized to decolorize textile effluents, which helps with sustainable waste management.
• Other Types: Other textile enzymes include catalases, which help in peroxide removal after bleaching, and xylanases, which improve fiber flexibility and softness. These enzymes continue to improve textile processing performance, sustainability, and efficiency, as do recently developed bio-engineered variations. Their applications meet the Textile Enzymes industrys increasing need for ecologically friendly solutions.

Application Insights

The Application segment is divided into De-Sizing, Bio-Polishing, Bleaching, Bio-Sourcing, Other Applications. In 2024, De-Sizing dominated the Textile Enzymes market with significant market share of 38.7%.

• De-Sizing: De-sizing is a crucial step in textile processing that involves the removal of starch-based sizing agents applied to fabrics during weaving. Enzymes such as amylases break down starch into soluble sugars, allowing for easy removal without damaging the fabric. Compared to traditional chemical de-sizing methods, enzymatic de-sizing is more eco-friendly, requiring less water and energy while preserving fabric integrity.
• Bio-Polishing: Bio-polishing enhances the texture and appearance of textiles by removing surface fuzz and protruding fibers, leading to a smoother and softer fabric. Cellulase enzymes are commonly used in this process, particularly for cotton and other cellulosic fabrics. Bio-polishing improves fabric durability, prevents pilling, and enhances the luster of garments, making it a preferred choice for high-quality textile finishing.
• Bleaching: Bleaching is an essential step in textile processing that removes natural pigments, impurities, and unwanted coloration from fabrics. Enzymes such as laccases and peroxidases facilitate eco-friendly bleaching by degrading lignin and natural dyes without the use of harsh chemicals like chlorine. Enzymatic bleaching not only reduces water and energy consumption but also minimizes environmental pollution.
• Bio-Scouring: Bio-scouring involves the removal of natural waxes, pectin, and other impurities from raw cotton and other natural fibers to improve their absorbency and dyeing properties. Pectinase and other scouring enzymes replace traditional alkaline treatments, making the process more sustainable by reducing water usage, chemical waste, and energy consumption. This method is particularly beneficial for achieving a softer feel in fabrics while maintaining fiber strength.
• Other Applications: Other applications of textile enzymes include enzymatic peroxide removal, fiber modification, and eco-friendly dyeing processes. Catalases, for example, are used to break down residual hydrogen peroxide after bleaching, ensuring better dye uptake. Xylanases and proteases also contribute to innovative textile treatments, offering enhanced fabric properties and sustainability benefits. These additional applications continue to expand as enzymatic solutions gain traction in the Textile Enzymes industry.

Regional Trends

In 2024, the Asia Pacific captured 34.5% of the revenue share in Textile Enzymes market.

Asia Pacific Textile Enzymes Market Trends

Asia Pacific Textile Enzymes market is dominated driven by the presence of major textile-producing countries like China, India, Bangladesh, and Vietnam. The region benefits from large-scale textile manufacturing, rising export demand, and increasing awareness of sustainable textile processing methods. Government initiatives supporting eco-friendly practices and the growing shift toward enzyme-based processing in fabric treatment are key factors boosting market growth. Additionally, rapid industrialization and technological advancements contribute to the widespread adoption of Textile Enzymes.

North America Textile Enzymes Market Trends

North America region is experiencing the fastest growth in Textile Enzymes market. The Textile Enzymes market expansion is primarily fueled by the growing demand for eco-friendly textile processing solutions. The presence of leading textile manufacturers and stringent environmental regulations promoting sustainable practices contribute to Textile Enzymes market growth. The U.S. and Canada are key contributors, with increasing adoption of enzyme-based treatments in fabric finishing, bio-polishing, and de-sizing. Additionally, technological advancements and innovations in enzyme formulations further support the Textile Enzymes market expansion in this region.

Europe Textile Enzymes Market Trends

Europe Textile Enzymes market is set to expand considerably driven by the region’s strong focus on sustainability and stringent environmental regulations, such as REACH and EU Ecolabel. Countries like Germany, France, and Italy, known for their high-quality textile production, are rapidly shifting towards enzyme-based processes to reduce chemical usage and water consumption. The demand for bio-based and organic textiles is also driving the adoption of enzyme treatments in various textile applications.

Latin America Textile Enzymes Market Trends

Latin America Textile Enzymes market is growing steadily, supported by expanding textile industries in countries like Brazil, Argentina, Rest of Latin America. The increasing focus on sustainable textile processing and the need for cost-effective alternatives to traditional chemical treatments are fueling demand for textile enzymes. Additionally, growing exports of textile products to North America and Europe encourage manufacturers to adopt enzyme-based treatments to comply with global environmental standards.

Middle East & Africa Textile Enzymes Market Trends

Middle East & Africa Textile Enzymes market is projected to expand rapidly in the coming years, driven by the expanding textile manufacturing sector in countries like Turkey, Egypt, and South Africa. The region’s focus on improving textile quality for exports and complying with global sustainability standards is driving the adoption of enzyme-based processing techniques. Additionally, the increasing presence of international textile brands and growing investments in textile production facilities contribute to Textile Enzymes market expansion in this region.

Based on the provided market data, Vantage Market Research offers customizations in the reports to meet the specific needs of clients.

Textile Enzymes Market Trends

• Growing Demand for Sustainability – Enzyme-based textile processing reduces water, energy, and chemical use, making it an eco-friendly alternative
• Rise of Bio-based Enzymes – Increasing preference for natural and genetically engineered enzymes for better efficiency and environmental benefits
• Stringent Environmental Regulations – Governments are enforcing stricter rules on chemical wastewater disposal, driving enzyme adoption
• Expansion in Emerging Markets – Countries like China, India, and Vietnam are boosting textile enzyme demand due to large-scale textile production
• Advancements in Enzyme Technology – Innovations in biotechnology are improving enzyme efficiency, stability, and cost-effectiveness
• Growing Use in Specialty Fabrics – Enzymes are increasingly applied in high-performance textiles, including sportswear and medical fabrics
• Circular Fashion and Recycling – Enzymes are playing a key role in textile recycling and fiber recovery, supporting sustainability efforts

Track market trends LIVE & outsmart rivals with our Premium Data Intel Tool: Vantage Point

Competitive Landscape

The competitive landscape of the Textile Enzymes market is highly competitive with key players focusing on innovation, strategic partnerships, and geographic expansion to strengthen their market position. Leading companies such as Novozymes, BASF SE, AB Enzymes, DSM, Kemin Industries, Advanced Enzyme Technologies, and BESTZYME BIO-ENGINEERING CO., LTD. dominate the industry, offering a diverse portfolio of textile enzymes tailored for various applications, including bio-polishing, desizing, and denim fading. Market participants are investing in R&D to develop sustainable and eco-friendly enzyme solutions that reduce water and energy consumption in textile processing. Additionally, mergers, acquisitions, and collaborations with textile manufacturers are prevalent strategies to enhance product offerings and global reach. Emerging players, particularly in Asia-Pacific, are leveraging cost-effective production methods and regional demand growth to gain market traction. The competitive landscape is also influenced by stringent environmental regulations, pushing companies to develop bio-based and non-toxic enzyme formulations.

The key players in the global Textile Enzymes market include - BASF SE among others.

Recent Textile Enzymes Market Developments

• In 2023, Denmark’s bioscience leaders, Novozymes and Chr. Hansen, revealed the name of their soon-to-be merged entity: Novonesis. This new company represents a transformative step in the biosolutions industry, aiming to harness the full potential of biological innovations while delivering substantial value to stakeholders and society as a whole
• In 2023, DuPont unveiled enhancements to its PrimaGreen enzyme technology, enabling cold-water textile processing and significantly lowering energy consumption
• In 2022, BASF broadened its Lavergy enzyme portfolio by introducing a new formulation optimized for high-efficiency textile processing, improving both bio-polishing and desizing performance

Textile Enzymes Market Segments Covered in the report:

Source

• Animal Tissues
• Plants
• Micro-organisms

Fabric Type

• Cotton
• Wool
• Silk
• Polyester
• Linen
• Denim
• Synthetic Blends
• Others

Type

• Amylases
• Cellulase
• Lipases
• Proteases
• Pectinases
• Laccases
• Other Types

Application

• De-Sizing
• Bio-Polishing
• Bleaching
• Bio-Sourcing
• Other Applications

Distribution Channel

• Offline
• Online

Textile Enzymes Market Regions and Countries:

North America

• U.S.
• Canada
• Mexico

Europe

• Germany
• France
• U.K.
• Italy
• Spain
• Nordic Countries
• Benelux Union
• Rest of Europe

Asia Pacific

• China
• Japan
• India
• New Zealand
• Australia
• South Korea
• South-East Asia
• Rest of Asia Pacific

Latin America

• Brazil
• Argentina
• Rest of Latin America

The Middle-East and Africa

• Saudi Arabia
• UAE
• Egypt
• Kuwait
• South Africa
• Rest of Middle-East Africa