We enjoyed hosting Bill Gates recently at our #eFuels production facility in Texas and appreciate the tremendous support from Breakthrough Energy Catalyst. We agree this piece from The Washington Post is a highly informative and engaging way to learn about how ultra-low carbon fuels are made. Let's go!
Chair, Gates Foundation and Founder, Breakthrough Energy
Earlier this year, I had a chance to see Infinium’s eFuels production up close. This is a great breakdown of the science behind groundbreaking solutions like theirs—which could dramatically reduce emissions in the transportation industry.
There are many pathways to a CO2-free future, but achieving this requires concerted action and a clear definition of the most environmentally and economically viable options. We believe green hydrogen (H2) is the best solution pathway, as it is abundant and has numerous applications across various sectors. Our Sun uses Hydrogen as primary element for its atomic cycle, making life possible on our planet. The weather becomes more and more unpredictable, but in general Winters are getting colder and Summers are getting hotter. When temperatures climb to 50°C no matter who you are, or where you are, you will have trouble functioning properly and airconditioning is part of surviving. 1.5 Billion Cars on our planet are the biggest CO2 polluters on the planet, accounting for over 80% of CO2 emmissions. Remember Covid lockdown? Every major City reported Clean Air. In New Delhi/India they seen for the first time, that they have mountains nearby.
Stop the three wise monkey trick - not hearing - not seeing - not speaking
WE MUST ACT NOW - we know the technologies - we know the pathway - What we need is implementation and Governments, Banks, Investors form a concerted action. For more go to https://lnkd.in/gWhtv369
Chair, Gates Foundation and Founder, Breakthrough Energy
Earlier this year, I had a chance to see Infinium’s eFuels production up close. This is a great breakdown of the science behind groundbreaking solutions like theirs—which could dramatically reduce emissions in the transportation industry.
🧪 Unveil the Future of Energy ⚡!
Dive into the world of PGM-free carbon-based catalysts - the unsung heroes of energy innovation. Our article explores the thrilling journey of replacing costly platinum group metals with eco-friendly alternatives. 🌱
🔍 Journey with us as we demystify ORR mechanisms and unlock the secrets of active site classification. 🕵️♀️ Then, buckle up as we unveil four groundbreaking strategies that promise to supercharge electrocatalysts. 🚀
📖 Ready to embark on this electrifying adventure? Read the full article here: https://lnkd.in/g5yvCYva
🔗 Looking for a deeper dive? Download the article for a comprehensive exploration: https://lnkd.in/ghiNBdJS 📥
Join the vanguard of innovation in energy and be part of the conversation shaping our sustainable future. 💬
#Electrocatalysis#Sustainability#Innovation
In the quest for a sustainable future, hydrogen is emerging as a critical element in the global energy transition. But how can we produce hydrogen sustainably while addressing environmental challenges?
We're thrilled to share our latest research on an innovative solution: producing hydrogen from wastewater coupling eletrochemical and photocatalytic treatment. This approach not only generates clean energy but also tackles water pollution, offering a dual benefit for our planet.
Discover how we're turning wastewater into a valuable resource, pushing the boundaries of clean energy production and environmental protection.
Dr. Kent Warren, our Chief Science Officer, presented the results of our long-term durability demonstration earlier this week at ASME’s 18th International Conference on Energy Sustainability in, “An Efficient and Scalable Approach to Solar Thermochemical Fuel Production via an Iron Aluminate-Based, Pressure-Swing Redox Cycle.”
In this demonstration, OMC’s proprietary active material was subjected to over 60 days of time under process relevant conditions and exhibited exceptional, industry-leading chemical stability that paves the way for commercial trials and cost advantages over competing technologies that steadily degrade over time.
The use of heat and resilient, low-cost, and globally abundant materials to make green hydrogen or to repurpose CO2 back into useful chemicals and fuels offers a paradigm shift for scalable, affordable industrial decarbonization.
Much thanks to Justin T. and Liam Taylor for their work on this demonstration.
#ptl#greenhydrogen#thermochemistry#co2utilization
🌍🚀 Excited about the future of clean energy? Discover the crucial role of material science in unlocking hydrogen's potential! 🔬⚡️
Hydrogen promises a greener future, but there are significant challenges to overcome. From embrittlement to high-temperature performance, Triton Hydrogen's article dives deep into the material science roadblocks and innovative solutions paving the way for a sustainable hydrogen economy. 💡🛠️
Click to read more and join the conversation on advancing hydrogen technology! ⬇️
https://lnkd.in/euJJhCKR#CleanEnergy#Hydrogen#MaterialScience#Innovation#Sustainability#EnergyFuture
I'm excited to share that our latest research article, "Engineering High-Performance Type III Porous Liquids for Carbon Capture: A Multi-Faceted Study with HKUST‑1 and a Spectrum of Ionic Liquids," has been published in Energy & Fuels Journal.
This work presents a comprehensive investigation into Type III porous liquids, focusing on their application in carbon capture using HKUST-1 and various ionic liquids. Our findings highlight promising advancements in carbon capture efficiency, which could contribute significantly to mitigating CO2 emissions.
I want to express my heartfelt gratitude to my mentors from around the world for their invaluable contributions and unwavering support throughout this project. Your expertise and collaboration have been essential to our success. Thank you for being an integral part of this journey!
Read the full article here: https://lnkd.in/d4Mxu2yA#CarbonCapture#PorousLiquids#HKUST1#IonicLiquids#SustainableEnergy#EnergyAndFuels#ClimateResearch#ScientificInnovation#MaterialsScience
I get The Economist in my inbox every morning and I enjoy reading it while sipping a nice cup of Earl Grey before the day begins. I found this article to be really fascinating and it pertains to what we are trying to do with the proliferation of Microgrids across the world.
The author simply evluates the true feasibility of the electrification of energy-intensive industries. If you're someone that works in Industrial manufacturing or if you're just interested in how different players are electrifying and decarbonizing, I recommend this article to you.
You may even find a snippet from our very own Frederic Godemel in it. 👀
Dr. Kent Warren, our Chief Science Officer, presented the results of our long-term durability demonstration earlier this week at ASME’s 18th International Conference on Energy Sustainability in, “An Efficient and Scalable Approach to Solar Thermochemical Fuel Production via an Iron Aluminate-Based, Pressure-Swing Redox Cycle.”
In this demonstration, OMC’s proprietary active material was subjected to over 60 days of time under process relevant conditions and exhibited exceptional, industry-leading chemical stability that paves the way for commercial trials and cost advantages over competing technologies that steadily degrade over time.
The use of heat and resilient, low-cost, and globally abundant materials to make green hydrogen or to repurpose CO2 back into useful chemicals and fuels offers a paradigm shift for scalable, affordable industrial decarbonization.
Much thanks to Justin T. and Liam Taylor for their work on this demonstration.
#ptl#greenhydrogen#thermochemistry#co2utilization
Chief Technology Officer at Infinium Holdings, Inc.
3moFantastic update!