LanzaTech, Mibelle Group, and Fraunhofer IGB Achieve Technology Breakthrough with Production of Palm Oil Substitute
MWN-AI** Summary
LanzaTech, in collaboration with the Mibelle Group and the Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB, has achieved a significant technological breakthrough by developing a sustainable alternative to palm oil. Announced on September 2, 2025, this initiative aims to revolutionize the production of sustainable aviation fuel (SAF) and enhance the cosmetics industry by replicating the essential functional properties of palm oil without contributing to deforestation and biodiversity loss.
The newly developed palm oil substitute employs LanzaTech's innovative dual fermentation technology, which converts waste CO? gases into alcohol, and subsequently into a palm oil-like fat using non-GMO yeast. This process has already undergone successful laboratory trials and is currently moving towards commercial production at Fraunhofer's Center for Chemical-Biotechnological Processes in Leuna. The partnership underscores a commitment to sustainability, with Mibelle Group CEO Peter Müller highlighting the importance of robust supply chains and environmental responsibility.
Jennifer Holmgren, CEO of LanzaTech, emphasized the transformative potential of this collaboration, extending its impact from cosmetics to sustainable aviation fuel production. LanzaTech's technology, already recognized in the production of ethanol for SAF via the Alcohol-to-Jet (ATJ) process, is now poised to enhance SAF production through the Hydroprocessed Esters and Fatty Acids (HEFA) pathway. This dual capability provides effective strategies for decarbonization, helping meet the aviation industry's pressing sustainability goals.
Overall, this initiative presents a promising solution to the environmental challenges posed by conventional palm oil production, paving the way for a more sustainable future in both energy and consumer goods sectors.
MWN-AI** Analysis
LanzaTech (NASDAQ: LNZA), together with Mibelle Group and the Fraunhofer Institute, has made a significant advancement in the production of a sustainable palm oil substitute, poised to disrupt both the cosmetics and sustainable aviation fuel (SAF) sectors. This innovation arises from an urgent environmental challenge: the reliance on palm oil links to deforestation and high carbon emissions. By effectively converting waste CO2 gases into a palm oil-like fat, LanzaTech's dual fermentation technology provides a promising solution to these sustainability concerns.
For investors evaluating LanzaTech, this breakthrough reinforces the company's potential for long-term growth amid increasing regulatory pressure for sustainability initiatives in various industries. With LanzaTech's established framework for carbon management, the shift toward sustainable alternatives could lead to expanded market opportunities, particularly in the high-demand SAF space, where current alternatives face raw material shortages.
Mibelle Group’s commitment to innovation enhances its position as a leader in the personal care market, which aligns with consumer trends favoring sustainable products. Mibelle's involvement in this project solidifies its reputation while contributing to the diversification of its product portfolio. The company stands to benefit financially as consumers increasingly seek eco-friendly solutions.
Investors should also consider the role of the Fraunhofer Institute, known for its pioneering research and expertise in biotechnology. This collaboration signals a strong R&D capacity, which is critical for scaling production effectively, thereby reducing risks associated with new technology rollout.
In summary, companies like LanzaTech and Mibelle Group are positioned to benefit from the rising tide of environmentally responsible consumerism. LanzaTech, in particular, should be watched closely for its expanding role in the booming SAF market and other circular economy initiatives, creating compelling investment opportunities as stakeholders prioritize sustainability.
**MWN-AI Summary and Analysis is based on asking OpenAI to summarize and analyze this news release.
CHICAGO, Sept. 02, 2025 (GLOBE NEWSWIRE) -- LanzaTech Global, Inc. (NASDAQ: LNZA) (“LanzaTech” or the “Company”), a leader in carbon management solutions, is proud to announce an innovative advancement with the potential to transform global sustainable aviation fuel (SAF) production. Having successfully commercialized its technology to produce ethanol for SAF via the Alcohol-to-Jet (ATJ) process, the team’s breakthrough expands LanzaTech’s capability for producing SAF via the Hydroprocessed Esters and Fatty Acids (HEFA) pathway. This groundbreaking innovation offers a sustainable palm oil substitute, leveraging LanzaTech's versatile technology which is pivotal for decarbonization efforts across various sectors.
Collaboratively developed with the Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB and the Mibelle Group, this palm oil alternative replicates essential functional properties needed in the cosmetics industry. Moreover, this development potentially introduces a novel route to the HEFA pathway for SAF production, circumventing the sustainability and supply challenges currently present with conventional oil crops and waste oils typically used in this process.
"This innovation is the result of our long-standing partnership with LanzaTech and a milestone for the cosmetics industry. Combined with the innovative strength of the Fraunhofer Institute, we are setting new standards for the entire industry and underlining our commitment to taking responsibility for the future of our planet while making supply chains more robust," says Peter Müller, CEO of the Mibelle Group.
"The Mibelle Group, as the original innovator behind this idea, has been instrumental in assembling the right partners and driving success, alongside the Fraunhofer Institute's outstanding innovators who have focused on developing and scaling this solution,” said Jennifer Holmgren, CEO of LanzaTech. “This collaboration reflects how revolutionary ideas can generate wide-ranging impacts, from reducing reliance on deforestation-linked ingredients in cosmetics to enabling the production of sustainable aviation fuel, thereby creating change that extends beyond initial objectives.”
The Environmental Challenge and the Innovative Solution
Palm oil is a critical raw material due to its high yield, long shelf life, and heat resistance. However, the global dependency on palm oil has resulted in extensive deforestation, biodiversity loss, and significant CO? emissions, highlighting the urgent need for sustainable alternatives.
The unique dual fermentation technology, pioneered by LanzaTech and Fraunhofer IGB, transforms waste CO 2 gases into alcohol and further into a palm oil-like fat using non-GMO oil yeasts in a secondary fermentation process. Following successful laboratory trials at Fraunhofer IGB and promising application tests at Mibelle laboratories, efforts are now focused on scaling up production. This process is currently underway at Fraunhofer’s Center for Chemical-Biotechnological Processes in Leuna, representing a crucial step toward commercial production.
Addressing Aviation's Decarbonization Challenge
Alcohol from the LanzaTech process is already an ideal feedstock for SAF production. Via the Alcohol to Jet Process, LanzaTech’s technology enables the production of advanced sustainable aviation fuels (SAF) and when the ethanol is made from CO? and green hydrogen, e-fuels.
The versatility of LanzaTech's technology could potentially now extend into another route to SAF, namely the Hydroprocessed Esters and Fatty Acids (HEFA) pathway: transforming ethanol into synthetic oils that function as alternatives to conventional HEFA feedstocks.
This innovation advances LanzaTech’s position at the forefront of the rapidly expanding SAF market, offering airlines and fuel producers a new tool in their decarbonization arsenal while demonstrating how circular carbon solutions can transform entire industries.
About LanzaTech
LanzaTech Global, Inc. (NASDAQ: LNZA) is a carbon management solutions company that transforms industrial emissions, gasified solid waste and carbon dioxide into recycled carbon ethanol via proprietary bio-fermentation technology. Ethanol is a crucial building block in the world – a key feedstock for Sustainable Aviation Fuel (SAF) and other downstream chemical derivatives. Operating commercially at six assets today, LanzaTech’s technology unlocks value across the supply chain, reducing the carbon footprint of hard-to-abate sectors while shepherding recycled carbon fuels and products to the world, building a circular carbon economy. www.lanzatech.com
About Mibelle Group
The Mibelle Group, a Persán company, operates in the personal care & beauty, home care, and nutrition sectors and is a leader in the private label business. It also produces and distributes its own renowned brands as well as state-of-the-art and highly effective active ingredients for the cosmetics industry through Mibelle Biochemistry. The Mibelle Group employs around 1,400 people and has production sites in Switzerland, France, the United Kingdom, and the United States. The company also has distribution sites in the Netherlands and Australia.
Further information: https://www.mibellegroup.com
About Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB
Combining biological and process engineering expertise, Fraunhofer IGB develops and optimizes processes, technologies, and products for health, sustainable chemistry, and environmental and climate protection. Complete solutions from laboratory to pilot scale are among the institute's strengths. At the institute's branch in Leuna, the Fraunhofer Center for Chemical-Biotechnological Processes CBP, pilot plants are available for scaling to product-relevant dimensions.
www.igb.fraunhofer.de
Press contact: icr@lanzatech.com
FAQ**
How does the successful commercialization of LanzaTech's technology for producing Sustainable Aviation Fuel (SAF) through the Alcohol-to-Jet (ATJ) process impact the company's stock performance, particularly regarding LanzaTech Global Inc. Warrant LNZAW?
Given the environmental concerns associated with traditional palm oil production, how does LanzaTech's development of a sustainable palm oil alternative through its collaboration with the Fraunhofer Institute affect its market position and investor confidence in LanzaTech Global Inc. Warrant LNZAW?
In light of LanzaTech's advancements in the Hydroprocessed Esters and Fatty Acids (HEFA) pathway for SAF, what implications could these developments have on investor sentiment and the overall valuation of LanzaTech Global Inc. Warrant LNZAW in the growing decarbonization market?
As LanzaTech scales up production of its novel palm oil substitute, what potential risks and opportunities should investors consider regarding the company's financial health and the impact on LanzaTech Global Inc. Warrant LNZAW?
**MWN-AI FAQ is based on asking OpenAI questions about LanzaTech Global Inc. Warrant (NASDAQ: LNZAW).
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