Natural polymers Market Size was valued at USD 9,275.7 million in 2023. The Natural polymers Market industry is projected to grow to USD 16,297.0 million by 2032, exhibiting a compound annual growth rate (CAGR) of 6.46% during the forecast period (2024 - 2032). Natural polymers are polymers that occur and are present in nature and can be extracted from natural resources such as plants and materials. Natural polymers include starch, wool, proteins, DNA, cellulose, chitin, polypeptides, polysaccharides (sugar polymers), and polypeptides such as silk, keratin, hair, and rubber (harvested from the latex of a tropical plant). Polymers are extensively found in nature. Our body too is made up of many natural polymers like nucleic acids, proteins, etc. Cellulose is another natural polymer which is a main structural component of plants. Most of the natural polymers are formed from the condensation polymers and this formation from the monomers, water is obtained as a by-product. Proteins are the basic type of natural polymers which constitute almost all living organisms. Proteins are said to be the most versatile in nature. They can also be used as catalysts. Some proteins are called enzymes. These enzymes are responsible for various chemical reactions occurring in our body. One type of protein in our blood called hemoglobin carries oxygen from the lungs to the cells of the human body.
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
Natural polymers Market Trends
Natural polymers have or show inherent biocompatibility with biological systems, which makes them ideal or suitable for pharmaceutical applications. These polymers are derived or obtained from biological sources and are closely similar to the extracellular matrix found in human tissues, which reduces the risk of immune responses and toxicity. Their biodegradability ensures they can be metabolized and eliminated from the body without showing adverse effects. This makes them suitable for various medical devices, wound healing, and tissue engineering applications.
They offer or provide diverse functionalities that are crucial in drug delivery systems. One of the important features is that they can encapsulate, protect, and release drugs in a controlled manner, by which they can enhance their therapeutic efficacy and also minimize their side effects. Natural polymer (Chitosan) nanoparticles help in drug transport across biological barriers, improving drug bioavailability for neurological treatments. These above-mentioned properties are essential for developing targeted therapies and personalized medicine approaches, driving their adoption in pharmaceutical research and development.
Synthetic polymers can be easily obtained or produced with the help of petrochemicals whereas natural polymers can be obtained the renewable biomass. This helps or allows them to minimize the environmental footprint protecting the environment helping in the promotion of a green environment and protecting fossil fuel for the future generation. Their production generates lower greenhouse gas emissions and reduces overall waste compared to synthetic alternatives. As regulatory bodies and consumers prioritize sustainability, pharmaceutical companies are increasingly integrating natural polymers into their formulations to align with environmental stewardship goals and enhance corporate social responsibility. The important or good thing about natural polymers is that they have gained or have attention because of the widespread regulatory acceptance in pharmaceutical formulations due to their safety profile and biodegradability. Regulatory agencies like the FDA and EMA have approved various natural polymers for use in medical devices, wound dressings, and drug delivery systems, which is helping them to increase or penetrate the market easily. The well-established safety profiles of natural polymers encourage pharmaceutical companies to innovate and commercialize new formulations, driving market growth and expanding therapeutic options for healthcare providers and patients. The advancements or upgradation in polymer have accelerated or led to an increase in the development of natural polymers for use in various pharmaceutical applications. Researchers are exploring or studying extraction techniques, functional modifications, and composite materials to enhance the performance and versatility of natural polymers in drug delivery and tissue engineering.
The market for natural polymers in pharmaceuticals is predicted to have substantial growth because of the increasing healthcare expenditures, government initiatives, aging populations, and rising chronic diseases globally or worldwide. Also, manufacturers are promoting and investing in research, and they are following the principle of collaborations and strategic partnerships to develop the unique properties of natural polymers so that they can be used in the preparation of innovative drug delivery systems and biomaterials. Moreover, integrating natural polymers with advanced technologies such as artificial intelligence and biopharmaceuticals holds promise for developing next-generation therapies with enhanced efficacy and safety profiles.
Natural polymers Market Segment Insights
Natural polymers by Type Insights
Based on the type, the global Natural Polymer market has been segmented Cellulose Ether, Starch & Fermentation Polymers, Exudate & Vegetable Gums and others. In 2023, the Cellulose Ether segment drove the global Natural polymer market by holding a substantial market share with a market value of USD 4,391.9 million. It is projected to register a CAGR of 6.35% during the projected timeframe. Natural polymers can be made using Starch and fermentation products as a sustainable alternative to conventional synthetic materials. Foods like corn, wheat, and potatoes contain starch, a carbohydrate polymer that is composed of glucose units. Polylactic acid (PLA) biopolymers are produced by the conversion of starch during fermentation into sugar through enzymatic reactions. PLA, a natural polymer made from fermentation-derived sugar, is the most suitable for various applications such as packaging, textiles, and bio-based items. Fermentation products themselves, such as organic acids and enzymes, contribute to modifying starch or directly forming biopolymers, enhancing their functional properties and sustainability credentials. This integration of starch and fermentation products into natural polymers underscores their role in advancing environmentally friendly materials that meet the growing demand for sustainable solutions across industries.
Natural polymers by Application Insights
Based on the application, the global Natural Polymer market has been segmented into pharmaceuticals, oilfield, food & beverages, cosmetics & personal care products, construction, textiles and others. In 2023, the pharmaceuticals segment drove the global natural polymer market by holding a substantial market share with a market value of USD 2,629.9 million. It is projected to register a CAGR of 7.04% during the projected timeframe. The second largest segment, being Food & Beverages is growing at 6.70% CAGR during the forecast period. Natural polymers such as chitosan are valued for their antibacterial properties and ability to adhere to mucosal surfaces, making them suitable for wound dressings, oral drug delivery systems, and mechanical tissues. Its safety profile and regulatory approval increase its appeal and accelerate the approval and adoption of pharmaceutical formulations. As industry emphasizes patient health and safety, natural polymers are playing an important role in advancing therapeutic strategies and improving drug efficacy.
Natural polymers Key Market Players & Competitive Insights
Natural polymers Market is characterized by a high level of competition, with many players emerging for market share. The top 10 companies in the market account for a significant market share of Natural polymers Market. The competitive landscape of Natural polymers Market is dynamic, with companies constantly innovating and expanding their product offerings. Despite the challenges, there are several factors that are driving growth in the Natural Polymers Market. These include increasing global awareness and demand for sustainable and eco-friendly products. The Natural Polymers Market is expected to witness significant growth in the coming years, owing to increasing consumer demand for sustainable and environmentally friendly products across various industries.
The market is benefiting from the development of new technologies. The key players in the Natural polymers Market include Ashland, Cargill, Incorporated, Dow, Encore Natural Polymers, Borregaard, CP Kelco, Roquette Freres, Kuraray, Archer Daniels Midland, Ingredion and JRS Pharms. These companies compete based on product quality, innovation, price, customer service, and market share. Companies also engage in various strategic initiatives, such as mergers and acquisitions, new product launches, partnerships, joint ventures, and expansions, to enhance their market position and expand their product portfolio. Companies are also focusing on developing new and innovative products that meet the specific needs of their customers. Companies will need to continue to innovate and expand their product offerings to remain competitive. For instance, on 16 September 2021, Cargill has announced the opening of its new, cutting-edge pectin production facility, located in Bebedouro, Brazil. The plant, which represents a USD 150 million investment, significantly expands the company’s ability to meet growing global demand for label-friendly texturizing ingredient.
Ashland: Environment, social and governance (ESG) is embedded in Ashland’s strategy and operating plans. It is both an impetus and growth opportunity, turning the potential for change into action and driving real business growth. Under its commitment to the Paris Climate Accord and Science Based Targets, and the United Nations Global Compact and Sustainable Development Goals, it is operating with greater transparency and aligning resources to help solve some of the world’s most complex challenges. Ashland’s conscious-to-cutting-edge innovation strategy includes increasing the speed and impact of new product innovations while embracing and integrating ESG in all that they do. The company launched more than 30 new products in FY22, and 83 percent of its product portfolio is natural, nature-derived, biodegradable or sustainable in-use. Though smaller than some of its peers, Ashland’s targeted approach to its value chain and its agile business model mean it has a unique matrixed approach to how it impacts environmental, social and governance issues. This materiality assessment shows Ashland’s holistic approach to managing the needs of people, planet and profit.
Dow: Dow's strategy for Corporate Social Responsibility (CSR) integrates deeply into its overall sustainability ethos, extending beyond traditional community projects to encompass a holistic approach to responsible corporate citizenship and environmental stewardship. This commitment permeates every facet of Dow's business operations and presence in the sub-region, reflecting a dedication to sustainability principles.At Dow, CSR initiatives are strategically aligned with broader programmatic goals, emphasizing not just financial contributions but also leveraging resources, technology, and employee volunteerism to maximize positive impact. This comprehensive approach underscores Dow's role as a leader in promoting a sustainable society, guided by ambitious goals set for 2025 and beyond.
Key Companies in the Natural polymers Market includes.
Natural polymers Industry Developments
August 2022: Ashland has announced a strategically significant expansion of its Viatel bioresorbable polymer manufacturing and research and development site at the National Science Park, home to a network of innovative organizations, in Mullingar, Ireland.
August 2021: GC International Corporation Company Limited, a subsidiary of PTT Global Chemical Public Company Limited (GC) and Cargill Incorporated (Cargill), joint owners of NatureWorks LLC (NatureWorks), announced the construction of a new fully integrated biopolymer production facility in Thailand. This project supports sustainable development in Thailand, specifically, the Bio-Circular-Green (BCG) economy model, further driving economic growth, improving competitiveness and helping the country achieve its Sustainable Development Goals (SDGs).
Natural polymers Market Segmentation
Natural polymers Type Outlook
Natural polymers Application Outlook
Natural polymers Regional Outlook
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