Chemical Technology
Chemify | January 23, 2024
Chemify and Prepaire™ Labs announced to expand their partnership with an additional program to tackle the ongoing Opioid crisis and develop a novel class of digitally discovered non-addictive Opioids as pain modulators, as well as drugs tackling Opioid addiction directly by combining Chemify's breakthrough programmable chemistry platform with Prepaire’s integrated novel open collaboration drug discovery platform. The project, named Toxifree, comes in response to the FDA’s Center for Drug Evaluation and Research (CDER) requesting drugmakers and researchers to develop treatments for stimulant use disorder, hoping to address a major gap in the addiction crisis response.
After a successful initial partnership, Chemify and Prepaire are now aiming to leverage Chemify's Chemputation technology which enables the automated and integrated design, discovery, and synthesis of complex molecules on demand using a chemical programming language and Prepaire's advanced open-architecture drug development platform.
Under the terms of this partnership, Chemify will design and discover novel compounds to identify Opioid-derived hits and develop them further into candidates. Chemify will receive at least USD $30 million in payments and pre-negotiated, success-driven clinical and regulatory milestones for each developed molecule, as well as single digit royalties on any resulting products.
Lee Cronin, Chemify's Founder and CEO and Regius Professor of Chemistry at the University of Glasgow has extensive experience leading research efforts to develop solutions for the opioid crisis. Cronin lead a team that won several NIH-prize challenges including winning the grand runner up prize for the design, discovery and automated synthesis of next generation, safer and non-addictive drug-candidates to help address the opioid crisis.
"We are extremely excited to combine Chemify's technology for molecular design, discovery and synthesis with the integrated Prepaire platform to expand our collaboration and create a fully integrated, digitally driven drug discovery approach. With this partnership we are breaking ground on a new pain modulation discovery program that aims to tackle the global need for better and non-addictive pain medication. With our unique design approach guided by Chemputation, we are utilizing an evolutionary approach to discovering novel compounds to solve this devastating and critical healthcare need," said Professor Lee Cronin, Chemify's Founder and CEO.
"Our partnership with Chemify allows our discovery platform to integrate directly with Chemify's chemical space exploration approach, enabling us to access novel chemical matter that would have otherwise been inaccessible. As we progress our collaboration, we are aiming to build an integrated approach that can be used for many more indications beyond novel pain modulators. There aren't any approved treatments to help address addiction to opioids, whose use has surged in recent years. The purpose of this FDA guidance is to assist in the clinical trial designs for the development of novel drugs to support indications for treatment of moderate to severe cocaine use disorder, treatment of moderate to severe methamphetamine use disorder, or treatment of moderate to severe prescription stimulant use disorder," said Dr Vicent Ribas, Prepaire’s Co-Founder.
About Chemputation
Digital chemistry applies principles of computation to chemistry for programable chemistry and Chemify has developed the underpinning infrastructure to make this possible for chemical discovery and synthesis. Like a computer program, digital chemistry programs can automatically run chemical experiments, make new molecules, and ensure that complex chemical recipes are always accessible and perfectly reproducible. Chemical programs are precise pieces of code that allow fully transparent and reliable operation allowing the implementation of AI and other techniques with full audit and safety.
About Chemify
Based in Glasgow, Chemify is a pioneering company digitizing chemistry to provide world-leading pharmaceutical, biotechnology, and industrial partners access to an exponentially growing space of novel molecules and materials. By leveraging decades of chemistry experience, hardware robotics, and artificial intelligence, Chemify's Chemputation technology enables companies to access an end-to-end workflow for drug discovery, molecule synthesis, and materials discovery. Chemify was founded by CEO Lee Cronin based on conceptual advancements from Cronin's Digital Chemistry Laboratory at the University of Glasgow in Scotland. By building the infrastructure to digitize chemistry, Chemify is reimagining chemical research, discovery and manufacturing to benefit all of humanity by accelerating advances across chemistry with a focus on medicine and functional materials.
About Prepaire Labs
Prepaire Labs is a pioneering healthcare technology company focused on revolutionizing drug discovery and precision medicine. Through the integration of deep learning and biology, Prepaire Labs builds predictive models grounded in genetic, phenotypic, and clinical data. These models form a view to the underlying architecture and biology of diseases. Prepaire Labs utilizes patient-derived induced pluripotent stem cells (iPSCs), genome editing, high-content cellular phenotyping, and machine learning to create in vitro disease models that optimize genetics, cell-type, environment, and multidimensional data collection for increased predictability of human clinical outcomes. A state-of-the-art BSL3 lab is opening in May 2024, located at Masdar City, Abu Dhabi, UAE.
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Chemical Management
Charter Next Generation | January 30, 2024
Charter Next Generation (CNG), a leading provider of sustainable films, announced that it has expanded its GreenArrow portfolio with a new line of cavitated polyethylene (PE) films. Developed in collaboration with VOID Technologies (VOID), the new recycle-ready films meet the rapidly growing demand for flow wrap and confectionery applications. Using VOID's patented VO+™ PE Voiding Agent Masterbatch and Machine Direction Orientation (MDO) film processing, CNG has successfully developed high-performing PE film structures that are opaque yet compatible with existing PE recycling streams making more packaging suitable for recycling.
Adoption of MDO PE film is a rapidly growing industry trend as it enables recyclable, high-performing flexible packaging. By using VO+ Masterbatch, CNG can now produce thin gauge voided MDO PE films that offer a combination of low density and high opacity not achievable with mineral additives such as TiO2 pigments or CaCO3 cavitation agents. This innovation creates a unique PE-based recycle-ready alternative to conventional PP-based substrates that often require biaxial orientation.
"CNG continues to raise the bar and re-invent packaging with a sustainability-first mindset. Using VOID's patented VO+ technology enables us to achieve the high opacity, ease of processing, and recycle-ready performance we are targeting for these films. This in turn allows our customers to reduce their use of virgin materials and process their packaging in existing polyethylene film recycling streams," said Brent Greiner, Vice-President of Technology at Charter Next Generation.
The VO+ PE Masterbatch is added to PE resin to create nano and micro-scale voids, reducing density and creating high levels of opacity via light scattering through the voided structure. VOID's latest VO+ PE Masterbatch product is compliant with direct food contact standards in North America and Europe and has passed key recycling standards.
James Gibson, CEO of VOID Technologies, commented, "CNG is a highly innovative and forward-thinking company. We are delighted with this collaboration and to be part of launching this new generation of recycle-ready voided PE films. As we look to the future, we are excited to be working with CNG across a range of projects that directly address sustainability and recycling targets."
About Charter Next Generation
Charter Next Generation (CNG) is North America's leading producer of highly engineered solutions used in the food, consumer, healthcare, and industrial markets. Committed to a sustainability-first approach, CNG leverages material science to engineer materials that help companies meet and exceed their sustainability goals. Known for world-class manufacturing capabilities and an innovation-driven approach, CNG operates fifteen facilities and employs over 2,200 employees and is a proud partner of Ownership Works®—a nonprofit partnering with companies to enable shared ownership, granting employees a stake in the value they create.
About VOID Technologies
VOID is a materials science company accelerating the transition to more sustainable plastics and packaging. The company combines its VO+ cavitation technology and R&D labs to help plastic and packaging companies rapidly develop new innovative products with a reduced environmental footprint. VOID's extensively patented VO+ technology was first conceived as part of a research initiative at Kimberly-Clark. Soon after, in 2015, VOID was launched as an independent company. Today, VOID has R&D labs and a compound manufacturing facility based in Neenah, Wisconsin (USA) and has commercial teams in Canada, France, and the UK.
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Chemical Management
Infinium | January 25, 2024
Leading eFuels provider Infinium and Amogy Inc. ("Amogy"), a pioneer of carbon-free, energy-dense power solutions, have entered into a memorandum of understanding (MOU) to explore opportunities to integrate their technologies and develop commercial applications across the eFuels and green ammonia value chain. Infinium and Amogy are also exploring collaborations with both Mitsubishi Heavy Industries (MHI) Group and SK Innovation for deployment of the integrated solution.
To accelerate the decarbonization of heavy industry sectors, the companies will jointly study and identify the most suitable applications to deploy their eFuels and green ammonia solutions. A key focus of this collaboration is the potential integration of Amogy's ammonia-cracking technology to provide low-cost, accessible green hydrogen feedstock as an input to produce Infinium's eFuels.
Infinium eFuels, also known as electrofuels or Power-to-X, are made from green hydrogen and waste carbon dioxide (CO2) in a proprietary process. Amogy's ammonia-cracking technology leverages its state-of-the-art catalyst materials to crack ammonia into hydrogen and nitrogen at lower reaction temperatures with high durability, reducing heating and maintenance requirements.
Upon identifying promising applications, Infinium and Amogy will initiate strategic pilot programs, showcasing tangible and scalable implementations of their clean technology solutions. The partnership also entails the evaluation of additional opportunities for collaboration within the eFuels and ammonia spaces, with a focus on the development of commercial use cases.
"Ingenuity and collaboration are critical to creating decarbonization solutions today. Our partnership with Amogy will go a long way toward helping advance our ability to rapidly scale the production of ultra-low carbon Infinium eFuels, including eSAF, eDiesel and eNaphtha," said Robert Schuetzle, CEO at Infinium.
"We are thrilled to forge this alliance with Infinium. By uniting our expertise and resources, we aim to unlock innovative opportunities that will pave the way for sustainable solutions," says Seonghoon Woo, CEO of Amogy. "This partnership reflects a shared commitment to accelerating technologies that can contribute to the reduction of carbon emissions in the heavy industry sectors."
Mitsubishi Heavy Industries (MHI) has invested in both Infinium and Amogy and is exploring potential collaboration for new solutions and applications in energy sector project development.
"Decarbonizing heavy industries requires numerous approaches that can concurrently and collaboratively help mitigate greenhouse gas emissions," said Ricky Sakai, Senior Vice President of New Business Development at MHI of America. "We are excited to see how Amogy's emission-free, energy-dense ammonia solution and Infinium's proprietary eFuels production process might be aligned to overcome challenges and accelerate the global availability of commercial decarbonization solutions."
SK Trading International (SKTI) invests in solutions that contribute to addressing climate change and environmental pollution and is an investor in Infinium while its parent company SK Innovation has invested in Amogy.
"Our global goals to slow the warming of the planet require significant efforts so they can quickly scale, find synergies, and explore new pathways," said Hyunchol Park, Managing Director and Head of Global Trading at SKTI. "Infinium and Amogy are leaders in their progress and proven solutions, and I believe their partnership will result in the identification of breakthrough opportunities to expand and grow access to cleaner fuels."
About Infinium
Infinium is an electrofuels provider on a mission to decarbonize the world. Electrofuels are a new class of synthetic fuels made using renewable power and waste carbon dioxide, not petroleum or resources needed to produce food. Infinium electrofuels can be dropped into existing trucks, planes and ships, significantly reducing harmful carbon dioxide emissions compared to fossil-based fuels. In addition to helping the transport industry meet carbon reduction goals, Infinium electrofuels are a lower carbon alternative for chemical processing, including plastics production.
About Amogy
Founded in 2020, Amogy is on a mission to unlock the potential of ammonia as a clean energy source, accelerating the global journey to Net Zero and sustaining future generations. With a presence in Brooklyn, Houston, Norway, and Singapore, Amogy is developing fully integrated ammonia-to-power systems to enable the decarbonization of the hard-to-abate sectors, such as shipping, power generation, and heavy-duty transportation.
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Chemical Management
LyondellBasell | January 24, 2024
LyondellBasell (LYB), a global leader in the chemical industry, is proud to announce the release of a cross-linkable, all-in-one flame-retardant compound, Petrothene T3XL7420, which is expected to deliver considerable cost savings while streamlining manufacturing processes. This new product offering also improves the quality of end products for wire producers in the automotive and appliance industries. Based on customer demand and industry need, LyondellBasell designed this innovative compound to address the need to optimize production line speeds and enhance manufacturing efficiency.
Petrothene T3XL7420, is specifically formulated for use in Society of Automotive Engineers (SAE) primary wire applications, International Organization for Standardization (ISO) thin wall applications, and Underwriters Laboratories (UL) and Canadian Standards Association (CSA) appliance wire. Petrothene T3XL7420 offers several benefits that make it an attractive option for wire producers, including enhanced cure kinetics, increased stiffness for easier small gauge wire assembly and better barrier performance compared to other Petrothene XL.
"Developing innovative solutions to address the ever-evolving needs of our customers is an important aspect of how we operate and continue to grow our market share," said Palmer Giddings, vice president Polyolefins at LyondellBasell. "Providing cost effective and efficient solutions that are UL and CSA certified, gives us a market advantage for this one-of-a-kind solution."
Petrothene T3XL7420 has undergone rigorous testing and certification processes to ensure its quality and reliability. With this latest development, LyondellBasell reinforces its position as a leading provider of innovative solutions for the wire and cable industry and expects this compound to become the product of choice for a wide range of automotive and appliance wiring applications.
About LyondellBasell
We are LyondellBasell – a leader in the global chemical industry creating solutions for everyday sustainable living. Through advanced technology and focused investments, we are enabling a circular and low carbon economy. Across all we do, we aim to unlock value for our customers, investors and society. As one of the world's largest producers of polymers and a leader in polyolefin technologies, we develop, manufacture and market high-quality and innovative products for applications ranging from sustainable transportation and food safety to clean water and quality healthcare.
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