Coal to Oil Catalyst Market to hit $324.6M by 2032 (7.2% CAGR)! 🛢️ A vital tech for energy security, converting coal into high-value liquid fuels. 📈

📊 FREE Sample: www.24chemicalresearch.com/download-sam...

#CoalToLiquid #EnergySecurity #Catalysts #MarketTrends #GreenHydrogen #Chemicals

Level Nine Raises €4M to Unlock Locally Abundant Feedstocks for Europe’s Chemical Industry renewable-carbon.eu/news/?p=174887 #artificialintelligence #biochemicals #biofeedstocks #catalysts #greenchemistry #RenewableCarbon

BEAM Circular Accelerator Powered by gener8tor Announces Second Cohort of Startups Advancing Circular Bioeconomy Innovation renewable-carbon.eu/news/?p=174796 #bioeconomy #biotechnology #catalysts #circulareconomy #fermentation #microbes #packaging #wastemanagement #yeast #RenewableCarbon

Biomass energy leads global renewables at 55%
🌱 Efficient HTL converts biomass to #biofuels like crude oil
🔥 Fresh biomass suits HTL due to high moisture
🔬 Future: Optimize bifunctional #catalysts
🔄 Optimize reactors & minimize waste

buff.ly/gGhiIy8

#BioResJournal #RenewableEnergy #reviewarticle

🧪 Copper #catalysts for alcohol #oxidation

This graphical review highlights advances in Cu-catalyzed oxidation and dehydrogenation of alcohols (2015–present), including aerobic oxidation, acceptorless dehydrogenation, and homogeneous & heterogeneous systems!

🔗 Read now: bit.ly/3Pif6TL
#ChemSky

Using individual atoms to achieve fossil-free chemistry Methanol is a key starting material for chemical products. Researchers from ETH Zurich can now produce this precursor from CO2 and hydrogen with high efficiency by using isolated metal atoms as cataly...

#Methanol is a key starting material for chemical products. Researchers from ETH Zurich can now produce this precursor from #CO2 and hydrogen with high efficiency using single atoms for #Catalysts.

Printable Enzyme Ink Powers Next-Generation Wearable Biosensors renewable-carbon.eu/news/?p=174010 #biofuels #bioinks #biosensors #catalysts #enzymes #RenewableCarbon

🔬 David Sebastián del Río y Beatrice Ricciardi son 'Guest Editors' del 'Special Issue' #Electrocatalysis' de #Catalysts - @mdpiopenaccess.bsky.social

📌 #Catalyst Design Strategies for Next-Generation #WaterSplitting Systems

ℹ️ bit.ly/4alBNyz

#AdvancedMaterials #GreenHydrogen #Sustainability

Master Biodiesel Production Feedstocks Catalysts 1st Ed 2025 2026 Exam Success Guide By Rokhum Halder Assabumrungrat Ngaosuwan
#BiodieselProduction #FeedstocksCatalysts #Feedstocks #Catalysts #1stedition #hackedexams

www.hackedexams.com/item/90937/m...

While traditionally used as stoichiometric reagents, #HeavierAlkaliMetalAmides have emerged as versatile #catalysts find out more in this #perspective with #DavidSancehzRoa @pubs.acs.org in collaboration with @remglasgow.bsky.social @unistrathclyde.bsky.social
pubs.acs.org/doi/10.1021/...

#Chemistry: Junior Professor Gabriele Hierlmeier wants to open up new fields of application for #titanium #catalysts. To achieve this, she has been awarded one million euros from @dfg.de #catalysis
➡️ go.uniwue.de/titanium

🚀 Scaling up #electrochemical CO₂ reduction to formate⚡

Using Sn & Bi #catalysts, this study systematically evaluates reactor configurations via comparative analysis, identifying key performance metrics for potential industrial deployment.

🔗 doi.org/10.1039/D5IM...

Greentown Labs Announces Go Make 2026 with Shell and Technip Energies renewable-carbon.eu/news/?p=172530 #carboncapture #catalysts #circulareconomy #useco2 #RenewableCarbon

Scientists Find a Way To Make CO2 a Valuable Fuel Source A redesigned low-cost catalyst shows unexpected durability while converting CO₂ into a useful energy carrier. Researchers from Yale and the University of Missouri report that catalysts made with manganese can efficiently convert carbon dioxide into formate. Manganese is a common and low-cost metal, and formate is widely studied as a possible way to store and [...]

Photo: CLS associate scientist Chunyang Zhang did his PhD at McMaster University. He's now supporting this research project led by professors Andrew Hitchcock and Drew Higgins.

#OnTheBeamlines: Researchers from McMaster University are using the CLS to develop more effective and affordable #catalysts for converting #CO2 into valuable fuels and feedstocks, such as #methane and #ethanol: https://bit.ly/41PjiOw

Manganese emerges as a promising fuel cell catalyst. A new Yale–University of Missouri study shows manganese-based #catalysts can efficiently convert CO₂ into formate, a potential hydrogen carrier for future #fuelcells.

#HydrogenNow #GreenHydrogen

fcw.sh/tsCHB6

Turning #plastic #waste into valuable #chemicals with #single-atom #catalysts

Scientists developed a single-atom catalyst process to convert polystyrene waste into toluene with over 99% selectivity. This cuts carbon footprints by 53% and lowers costs scitechupdates.com/t...

Innovative synthesis of cobalt-based catalysts

This review highlights #IonicLiquids and #DeepEutectic Solvents in synthesizing cobalt‑based #catalysts, detailing their multifunctional roles, advances in #WaterSplitting, and future in #GreenSynthesis and scalability. #SpecialIssue
#OpenAccess Open Chemistry: doi.org/10.1515/chem...

Explainable artificial intelligence for materials discovery: application to catalysts for the HER and ORR The extraordinary progress of strategies coupling ab initio calculations and machine learning (ML) has opened the door for both fast and accurate chemical/physical property predictions and for the vir...

✍ Explainable #AI for materials discovery: application to #catalysts for the #HER and #ORR

In @chemicalscience.rsc.org, Prof. Javier LLorca and Dr. Valentín Vassilev Galindo, present a new approach to ML-assisted materials design focused on explainability.

pubs.rsc.org/en/content/a...

3️⃣ Why does it matter?
Understanding these real-time changes helps design more efficient and selective #catalysts that save #energy, reduce waste, and improve industrial production of materials like polyethylene.

1️⃣ What is the paper about?
The paper studies how palladium-based #catalysts work during a chemical reaction that removes unwanted acetylene from ethylene, an important step in making #plastics.

1️⃣ What is the paper about?
The paper studies how palladium-based #catalysts work during a chemical reaction that removes unwanted acetylene from ethylene, an important step in making #plastics.

🎄 As 2025 comes to a close, we at @thieme-gruppe.bsky.social look back at our #Cheminar series!

From Chemical Synthesis & #Catalysts to Medicinal #Chemistry, plus special sessions and Best Paper Awardees.
Thanks to all chairs, speakers, and attendees.

👀 More Cheminars in 2026. Stay tuned!

You Don't Need Better Storytellers Stories begin with choices. Without internal coherence, even the best storytelling can’t help us imagine, or choose, the future we need.

Photo: CLS associate scientist Chunyang Zhang did his PhD at McMaster University. He's now supporting this research project led by professors Andrew Hitchcock and Drew Higgins.

#OnTheBeamlines: Researchers from McMaster University are using the CLS to develop more effective and affordable #catalysts for converting #CO2 into valuable fuels and feedstocks, such as #methane and #ethanol: https://bit.ly/41PjiOw

KIER turns carbon monoxide into a tool for #innovation. A new 0.3-nm metal thin-film control tech speeds up core–shell catalyst production, boosting #fuelcell efficiency while cutting platinum use.

#HydrogenNow #CleanEnergy #Catalysts #EnergyInnovation

fcw.sh/6XCJO2

Paper Mill Trash Could Be the Secret to Cheap Clean Energy A new study showcases a catalyst made from lignin, a plant-based waste material, that dramatically improves a key step in water electrolysis. Researchers have introduced a new type of catalyst made from renewable plant waste that could greatly speed up the production of clean hydrogen. The material is produced by embedding nickel oxide and iron [...]

🔬Los tests se realizaron en la línea de luz SAMBA usando el soporte del lab. de #Química 1, gracias a la concesión de la solicitud "#Biomass-derived Cu single-atom #catalysts for the electrochemical CO2-to-CO conversion" (Ref: 20250635), en colab. con el Dr. Andrea Zitolo

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New Algorithm Reveals the Secret Chemistry Behind Cheaper, Cleaner Propylene Scientists have mapped the atomic interactions that make nanoscale catalysts so effective at converting propane into propylene. The discovery highlights a stabilizing oxide pattern that could guide improved industrial production methods. Propane’s Transformation Into Propylene Many everyday goods, including plastic squeeze bottles and outdoor furniture, depend on a chemical process that converts propane into propylene. [...]

Clariant catalysts will power the Ecoplanta: Europe’s first waste-to-methanol plant renewable-carbon.eu/news/?p=170602 #biochemicals #biofuels #catalysts #circulareconomy #greenmethanol #municipalwaste #recycling #syngas #transportfuels #RenewableCarbon