International Process Plants (IPP) has leased its fermentation-based bio-acetone and bio-butanol plant in Little Falls, Minnesota to Nuol Green Chemistry, a company focused on replacing petrochemical products with sustainable alternatives. The 40-million-gallon-per-year plant will be used to produce isobutanol and acetone, among other advanced bio-based chemicals. The 27-acre site features commercial and pilot-scale fermentation and distillation systems, as well as comprehensive product testing laboratories. The facility can handle large-scale production, with features including four 285,000-gallon fermenters, milling and ultrafiltration systems, and multistage distillation and evaporation systems. Nuol Green Chemistry aims to accelerate the commercialization of its sustainable chemical products, which will support decarbonization and reduce reliance on petrochemicals. This partnership marks another significant step towards sustainable manufacturing, as IPP’s President, Ronald Gale, notes.

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The bio-based aromatics market is growing rapidly, driven by increasing demand for sustainable and eco-friendly chemicals. The market is expected to grow at a CAGR of 6.8% from 2024 to 2034, reaching a value of $6.1 billion. Key companies in the market include BASF, Chevron Phillips Chemical, Dow Chemical Company, DSM, ExxonMobil Chemical, LG Chem, LyondellBasell Industries, Neste, and Reliance Industries Limited. Key market drivers include the increasing demand for sustainable chemicals, advancements in biorefinery technologies, rising demand from the polymer and adhesive industries, and stringent environmental regulations. Growth is also being driven by the expansion of bio-based feedstock availability, growing investment in green chemistry, and corporate sustainability initiatives.

Top companies are making significant developments in the market, including the launch of new products and partnerships to drive innovation. The market is expected to witness steady growth, driven by continued investments in biorefinery infrastructure, regulatory support, and rising demand for sustainable alternatives. Key segmentation of the market includes type, end-use, and region. The report provides a comprehensive analysis of market trends, key drivers, recent developments, and future outlook to assist stakeholders in making informed decisions.

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The global Bio Platform Chemical market is expected to experience significant growth from 2025 to 2032, driven by technological advancements, increasing consumer demand, and supportive regulatory policies. The market is being driven by the need for sustainable and bio-based substitutes for goods derived from petrochemicals. Bio-based chemicals are being used in bioplastics, agriculture, and pharmaceuticals to reduce their environmental impact. Market growth is also being accelerated by government programs that support the use of renewable resources and circular economy principles. The adoption of green chemistry and developments in microbial and enzymatic fermentation techniques are also contributing to the market’s expansion. The report highlights the key growth drivers, challenges, and restraints in the market, as well as emerging trends, such as the integration of advanced digital technologies and sustainability. The report provides an overview of the market size, dynamics, and growth trends, and is a valuable resource for companies looking to invest in the bio-based platform chemicals industry.

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The global acetyls market is expected to grow at a CAGR of 4.3% from 2025 to 2035, driven by the increasing demand for sustainable and bio-based chemical solutions. The market is expected to reach a size of USD 43,948.1 million by 2035, up from USD 28,846.8 million in 2025. The growth is attributed to the rising focus on sustainability, growing applications in pharmaceuticals, textiles, and food processing, and technological advancements in production.

The market is also expected to witness a shift towards bio-based acetyls, driven by government initiatives promoting circular economies and sustainable chemical production. Key players in the market are investing in bio-based production facilities and forming alliances to expand their global footprint. The market is also expected to benefit from increasing demand in high-growth industries such as pharmaceuticals, textiles, and food processing.

The report identifies key trends, drivers, and challenges in the acetyls market, including the growing demand for bio-based acetyls, the shift towards regenerative production methods, and the growth of high-growth industries. The report also examines the competitive landscape, market segmentation, and country-wise analysis of the market.

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A new study by the Renewable Carbon Initiative (RIC) and the Biobased Industries Consortium (BIC) suggests that biomass could meet 20% of global chemicals demand by 2050, without compromising food and feed supply. The study, carried out by nova-Institute, EuroCARE, and Thünen Institute of Forestry, aims to address concerns about the availability of biomass to meet both chemical and food demands. The report found that with moderate agricultural and forestry practices, biomass could supply 20% of the chemical industry’s carbon needs, while more advanced practices could reach 40%. The development of a low-carbon chemical industry is essential for achieving climate neutrality by 2050, as the sector currently relies heavily on fossil resources. The study’s findings have significant implications for the “defossilisation” of the chemical industry, which could lead to a more sustainable and environmentally friendly production process.

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Solvents are essential in various industries, with an annual demand of 20 million tonnes. Biobased solvents are gaining popularity as they can reduce the environmental footprint of industries such as mining, nutraceuticals, and printed electronics. These solvents are made from renewable sources, are biodegradable, and less toxic to human health and the environment. They are phasing out toxic petrochemicals, which are used in various applications, including paints, inks, and pharmaceuticals. Biobased solvents are being developed for use in coatings, paints, and inks, replacing petrochemicals. Researchers are also exploring their use in printed electronics, biofuels, and even extracting bioactive compounds from winery waste. Cyrene, a biobased solvent, has been developed for use in printed electronics, while another, 2-MeTHF, is being used to extract bioactive compounds from winery waste. Additionally, biobased solvents are being used in lignin extraction, metal processing, and even in lithium-ion batteries for electric vehicles. The demand for biobased solvents is increasing as companies like Pfizer and GSK are investing in sustainable solvent selection and replacing toxic petrochemicals with greener alternatives.

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Godavari Biorefineries Limited (GBL) has reported a 12% increase in revenue to ₹447.3 crore for the third quarter of FY25, driven by its expansion in ethanol and bio-based chemicals. The company’s revenue grew from ₹398.0 crore in Q3 FY24, while EBITDA and profit after tax (PAT) rose to ₹39.7 crore and ₹5.8 crore, respectively. GBL is expanding its ethanol division and diversifying into bio-based chemicals, solidifying its position in India’s renewable energy and chemical sectors. The company has secured technology licenses for Bio-Butanol and higher alcohols, and is investing in capacity expansion, including a new corn/grain-based distillery. GBL has also reduced its term debt by utilizing IPO proceeds, improving its financial stability. The Indian government’s approval of sugar exports and focus on ethanol blending are expected to support the company’s growth. Chairman and Managing Director Samir Somaiya described the company’s focus on innovation-driven bio-refining and expansion into new markets. GBL is well-positioned for sustained growth in India’s renewable energy and chemical markets.

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Godavari Biorefineries Limited (GBL) reported a 12% year-on-year revenue growth in Q3 FY25, with revenue from operations increasing to Rs. 447.3 crore from Rs. 398 crore in Q3 FY24. The company’s EBITDA and Profit After Tax (PAT) also showed significant growth. GBL has been diversifying its revenue streams by focusing on bio-based chemicals and strengthening its ethanol division. The company has been expanding its capacity, licensing new technologies, and investing in new projects to reduce debt and optimize financial efficiency.

GBL’s Chairman, Samir Somaiya, emphasized the company’s commitment to building a sustainable, innovation-led bio-refining business. He highlighted the company’s efforts to reduce debt, increase efficiency, and drive long-term growth. The company has also benefited from the Indian government’s decision to allow the export of one million tons of sugar, which has improved sugar prices and helped the industry. Overall, GBL’s strong financial performance and strategic initiatives position the company for future growth and success.

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The global specialty chemicals market is expected to grow by USD 383.2 billion from 2025 to 2029, with a Compound Annual Growth Rate (CAGR) of 6.7% during the forecast period. The market growth is driven by increasing demand for specialty chemicals from the agrochemical industry, particularly the use of bio-based chemicals. However, stringent regulations and policies towards specialty chemicals pose a challenge to the market.

The report covers the following segments: Agrochemicals, Lubricant and Oilfield Chemicals, Adhesives and Sealants, Industrial and Institutional Cleaners, and Others. The Type segment includes Plasticizers, Water-based, Coagulants and Flocculants, and Scale Inhibitors, while the Geography segment covers APAC, North America, Europe, South America, and Middle East and Africa.

Key market players include Albemarle Corp., Ashland Inc., BASF SE, and others. The report highlights the impact of AI on market evolution, stating that the shift towards sustainable and eco-friendly chemicals is driving the global specialty chemicals market. Additionally, the report provides insights into the market challenges, drivers, and trends, as well as company analysis and market size forecast.

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The bio-based PDO market is emerging as a significant opportunity for growth and innovation, driven by technological advancements, evolving consumer demands, and government policies. The global market was valued at USD 100 million in 2023 and is expected to grow to USD 200 million by 2033. Bio-based PDO is a greener alternative to petrochemical-based PDO, derived from renewable feedstocks such as corn sugar and bio-based glycerol. It is used in the production of polytrimethylene terephthalate (PTT) fibers, high-performance polyurethanes, and cosmetic formulations.

The market is driven by technological innovation, shifting consumer preferences, and supportive government initiatives. Key players are investing in state-of-the-art facilities and strategic partnerships to enhance production efficiency and broaden their application portfolios. The market is expected to witness robust growth, driven by rising demand for sustainable products and advancements in fermentation and bioprocessing technologies.

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The bio-based platform chemicals market is expected to witness significant growth from 2025 to 2032, driven by increasing demand for sustainable and renewable alternatives to conventional petrochemicals, technological advancements, and consumer demand for green products. The market is expected to grow at a CAGR of 7.5% during this period, driven by factors such as the increasing demand for eco-friendly solutions, government regulations promoting sustainable practices, and the growth of industries such as healthcare, automotive, and electronics.

The growing awareness of the benefits of bio-based platform chemicals, coupled with expanding applications across various industries, is also driving market growth. Additionally, the integration of digital technologies, such as AI and IoT, is streamlining supply chains and optimizing resource utilization, further driving market expansion.

However, the market also faces challenges, including high initial investment costs, regulatory complexities, and supply chain disruptions. Despite these challenges, companies that invest in innovation, digital transformation, and sustainability are well-positioned to benefit from the growing demand for bio-based platform chemicals. Overall, the market is expected to be driven by technological advancements, consumer demand, and government support, leading to significant growth opportunities for companies operating in this sector.

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A research team at Washington State University has developed a method to create bio-foam from pine trees, which could replace petroleum-based chemicals in polyurethane foams. The global market for polyurethane totals over $75 billion. The bio-based foam is stronger and more flexible than traditional polyurethane foam, and it’s friendlier to the environment. The research team used a mild, environmentally friendly solvent to extract high-quality lignin from pine, which is a key component in wood. Lignin is the second most abundant renewable carbon source, but it’s notoriously difficult to extract. The team’s innovative extraction process produces a high-quality lignin that can be used to produce high-value products. The bio-based foam is a promising alternative to petroleum-based plastics, which are costly to recycle and often end up in landfills and oceans. The research was published in the journal ACS Sustainable Chemistry and Engineering. The ultimate goal is to replace petroleum-based plastics with naturally derived materials, such as lignin, to create a more sustainable future.

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Researchers at Washington State University have developed a flexible, bio-based polyurethane foam using lignin extracted from pine. This eco-friendly alternative replaces 20% of petroleum-based chemicals and matches the strength and flexibility of conventional foam. The innovation has the potential to transform industries that rely on polyurethane for products such as cushions, insulation, and adhesives, reducing dependence on fossil fuels. The team used a mild, environmentally friendly solvent to separate high-quality lignin from pine, which is then used to produce the foam. The resulting foam is stable and performs well mechanically, similar to conventional foams. The researchers plan to work with industrial partners to optimize and scale up production for a wide range of applications. The lignin used in this process is a renewable resource, and the team believes it could help reduce the use of petroleum-based plastics, which are a significant waste problem and difficult to recycle.

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The circular bioeconomy is transforming the way we think about waste and production, where agricultural waste, by-products, and co-products are turned into food, bioenergy, and materials. This approach can reduce reliance on fossil fuels and petrochemicals, decreasing waste and pollution, and mitigating climate change. Many countries are already implementing policies to promote the circular bioeconomy, such as Finland, Sweden, and the Netherlands. However, Pakistan has not made significant efforts in this area, despite its potential to transform agricultural waste into value-added products like banana fibre. Banana biomass is a significant waste product, generated by banana farmers, which is often burned, causing environmental and health problems. However, this biomass can be converted into sustainable fibre, providing an eco-friendly alternative to cotton. With over 39,000 hectares of banana crops in Pakistan, the potential for value addition is immense. The authors argue that a comprehensive policy and strategy are needed to harness this potential and transition Pakistan towards a bio-based economy.

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Arkema, a leader in Specialty Materials, has introduced a new range of bio-based waterborne dispersions for textile printing and finishing applications. The ENCOR dispersions contain up to 30% bio-based content and can reduce the carbon footprint by up to 40% compared to traditional textile resins. This launch supports the textile industry’s efforts to decrease its carbon footprint, as the sector is responsible for 6-8% of worldwide emissions. To achieve this, Arkema is focusing on the entire lifecycle of its products, from safer formulations that comply with Oeko-Tex Eco Passport standards, to the use of renewable and lower-carbon feedstocks. The company also prioritizes end-of-life management, aiming to enhance biodegradability, durability, and color solidity, as well as improve washing resistance. By introducing bio-based acrylic binders, Arkema enables its customers to achieve their sustainability and carbon reduction goals, supporting a more sustainable textile industry.

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The US Department of Energy’s Bioenergy Technologies Office (BETO) has announced up to $23 million in funding for research and development of domestic chemicals and fuels, including propane, from biomass and waste resources. The funding opportunity, called Sustainable Propane and Renewable Chemicals (SPARC), aims to advance innovative technology pathways for affordable fuels and products, leveraging renewable resources and generating domestic jobs. The funding will support two topic areas: bio-based chemicals and bio-based propane/LPG. Additionally, BETO is providing $52 million in funding for six university and industry projects to advance the production of low-carbon intensity, purpose-grown energy crops. These projects will focus on expanding the domestic supply chain of alternative carbon sources essential to biofuels and bioproducts production, and will be conducted across 18 different states. The funding is critical to creating jobs in rural America, boosting energy independence, and lowering energy costs for households and other users.

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The bio-based oil-derived products market is growing rapidly, driven by increasing environmental awareness and emphasis on sustainability. The market is expected to advance at a CAGR of 10.6% from 2023 to 2031 and reach US$ 181.2 Bn by the end of 2031. Key drivers of the market include environmental awareness, government regulations, consumer preference for eco-friendly products, industrial applications, and technological advancements in bio-refining and oil extraction.

The market is segmented by product type, feedstock, and end-use industry. Product types include bio-based chemicals, solvents, polymers, paints, coatings, inks, and lubricants. Feedstocks include starch, sugar, wood, and vegetable oil. End-use industries include automotive, industrial, personal care, home care, and construction.

Key companies in the market include BASF SE, ADM, LCY Chemical Corporation, DuPont, Cargill, Inc., Braskem, Roquette, and GF Biochemicals Lt. Emerging markets, product diversification, technological integration, and government incentives provide opportunities for growth in this sector. The market is poised for significant growth as industries and consumers prioritize sustainability, and bio-based products become increasingly competitive with traditional petrochemical-derived products.

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The Sustainable Fuels Summit, taking place June 9-11, 2025, at the CHI Health Center in Omaha, Nebraska, is a premier event for producers of biodiesel, renewable diesel, and sustainable aviation fuel (SAF) to learn about the latest process technologies, innovative techniques, and equipment to optimize production. The summit is produced by Biodiesel Magazine and SAF Magazine and features premium content from technology providers, equipment vendors, consultants, engineers, and producers. The event aims to push the biomass-based diesel sector beyond its current limitations and provide attendees with efficiencies that save money and increase throughput and fuel quality. The summit is co-located with the International Fuel Ethanol Workshop & Expo, offering a comprehensive platform for the integrated biofuels industries. Registration is free for all employees of current biodiesel, renewable diesel, and SAF production facilities.

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The global bio-based elastopan polyurethane market is expected to reach USD 61.19 billion by 2031, growing at a CAGR of 6.02% during the forecast period. The market is driven by the increasing demand for green projects in construction, automotive, and packaging industries. Bio-based polyurethane (P.U.) coatings are used to enhance the aesthetic and longevity of products, while bio-based polyurethane foams are used as an insulating material to reduce energy consumption in buildings.

The North American region is expected to dominate the market, driven by the growing demand from emerging economies in sectors such as automotive, consumer products, electrical & electronics, and construction. Europe is expected to be a significant shareholder, driven by the growing demand for sustainable architecture and the development of new industries.

The market is segmented by type, including flexible foam, rigid foam, coatings, adhesives, and sealants, and by end-use industry, including automotive, building & construction, consumer goods, electrical & electronics, and packaging. The report also includes a list of prominent players, market dynamics, and recent developments in the market.

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Bioplastics are being marketed as a solution to the plastics problem, but there is a lot of confusion and misinformation surrounding them. Bioplastics are polymers derived from biobased resources or biodegradable materials, but not all biobased plastics are biodegradable. Many bioplastics are not biodegradable in nature and can take years to decompose in industrial composting units. There is no central authority to regulate bioplastics production or disposal, and additives used in bioplastics are not disclosed and can be toxic. Bioplastics can emit methane in landfills, clog waterways, and harm marine life. Furthermore, using food crops to produce bioplastics can lead to biodiversity loss and genetic pollution. The authors argue that bioplastics are not necessarily safer than conventional plastics and that we must focus on reducing plastic consumption overall. To address the plastic problem, we need to advance recycling technologies, raise awareness, and expand recycling infrastructure. We must be cautious in embracing bioplastics until further research is conducted to avoid creating bigger environmental challenges.

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The article announces a new partnership aimed at driving the development of bio-based indigo. The partnership will focus on creating sustainable and environmentally friendly dyes and chemicals. The move is expected to reduce the industry’s reliance on traditional synthetic dyes and lower its carbon footprint.

The article does not provide further details on the partnership, such as the names of the participating companies or the specific goals and objectives of the collaboration. It also does not discuss the current state of the indigo industry or the potential benefits of a bio-based approach.

The article appears to be a brief news announcement, possibly from a publication or website that focuses on the chemical and dyes industry. The article includes a call to action for interested parties to subscribe to the publication or website for more information, as well as contact information for advertising inquiries.

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The Department of Biotechnology (DBT) in India conducted the fourth webinar in its Biofoundry and Biomanufacturing Initiative series, focusing on “Biomanufacturing of Enzymes.” The webinar aimed to promote sustainable biomanufacturing in the country and position India as a global leader in bio-based innovations. The BioE3 Policy, approved in 2024, aims to promote sustainable biomanufacturing in areas such as enzymes, smart proteins, and bio-based chemicals, while supporting economic growth and environmental sustainability. The webinar featured experts from academia, industry, and research institutions discussing the importance of enzyme biomanufacturing in reducing environmental impact and driving innovation. The experts highlighted the potential of enzymes to transform industrial practices, reduce costs, and enhance sustainability. The session also touched on strategies for indigenous enzyme discovery, scaling up manufacturing, and leveraging advanced technologies like synthetic biology and AI/ML. The event concluded with a Q&A session, where participants engaged with the experts on challenges and opportunities in scaling up enzyme production and addressing regulatory considerations. Overall, the webinar aimed to foster a conducive environment for long-term growth and global competitiveness in enzyme biomanufacturing in India.

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Honda Motor has adopted Mitsubishi Chemical’s bio-based engineering plastic, DURABIO, for the colored bodywork and windshield of its X-ADV motorcycles sold in Japan. DURABIO is made from isosorbide, a renewable plant-derived raw material, and provides the toughness and features required for motorcycle bodywork parts. The plastic can be given a glossy, sophisticated look by adding colorants, eliminating the need for conventional painting. This marks the first use of DURABIO for paintless bodywork for motorcycles.

DURABIO has several benefits, including reducing the consumption of petroleum, a finite non-renewable resource, and contributing to the reduction of greenhouse gases. The plastic also exhibits outstanding toughness, scratch resistance, and color development properties, making it suitable for a wide range of applications. The Mitsubishi Chemical Group continues to develop DURABIO to deliver high-value-added products and drive the realization of a sustainable society.

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The bio-based acrylonitrile market is growing due to rising environmental concerns, regulatory changes, and increasing demand for sustainable materials. The market is expected to grow at a CAGR of 8.1% from 2024 to 2034 and reach $381.9 million by 2034. Key drivers of growth include:

* Rising demand for sustainable alternatives
* Government and regulatory support
* Expanding applications in key industries such as automotive, electronics, and textiles
* Advancements in bio-refining technologies
* Consumer awareness and corporate sustainability goals

Recent trends include increased R&D investment, collaborations between companies, and the integration of bio-based acrylonitrile in lightweight materials. The use of bio-based acrylonitrile in composites and lightweight materials for automotive and aerospace applications is also gaining momentum.

Top companies in the market include AnQore, Solvay, Asahi Kasei Corporation, and Trinseo. The market is expected to grow due to global sustainability initiatives and advancements in bio-refinery technologies. The report provides insights and analysis of the market, including segmentation by type (fermentation-based and direct synthesis-based) and application (fibers, resins, water treatment, adhesive production, and others).

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