At ICM, we develop and accelerate the commercialization of pioneering climate solutions from the lab-scale to pilots and eventually commercial companies (start-ups) across our three focus areas: industrial decarbonization, carbon removals, and energy transition.
We are a group of scientists, researchers, engineers, and business builders united by our passion for climate and our ambition to solve some of the biggest problems. We are organized into agile and world-class action teams, which have enabled ICM-born technologies to be commercialized via 6 spin-out companies.
“Working at ICM gives me opportunities to change the world with my own hands and thoughts.
I realize and de-risk seawater electrolysis and advance our technology from lab to commercial plants.”
Scientists and researchers passionate to be a part of the climate solution, flair to solve challenging problems and with experience in relevant fields like cement and concrete research, electrochemistry, geochemistry and materials science.
Engineers passionate about solving climate change, excited to work on stimulating problems and with experience in developing and scaling up bench-scale/ pilot scale systems, system integration, factor acceptance tests and plant shakedowns and managing and leading teams.
Business professionals interested in identifying breakthrough climate technologies, translating those technologies into commercial ventures, building businesses including fundraising, stakeholder engagement and operational excellence.
Design, development and optimization of process and plant design, across scales (bench, pilot, commercial) and ensuring successful operation while adhering to all applicable safety and environmental standards and regulations.
CNC machining and manufacturing/prototyping processes.
Conduct reproducibility studies, implement rigorous quality control and assurance protocols to ensure data integrity, and perform detailed post-experiment analyses using advanced analytical techniques.
Chemical analysis, design, prototype development, and optimization of chemistry, reaction kinetics, process and plant design, across scales (bench, pilot, commercial); ensure successful operation while adhering to all applicable safety and environmental standards and regulations.
Lead the development of experimental reactor systems that enable selective metal deposition from ores, while integrating specialized flow paths, solid-handling systems, and HER-suppressing architectures.
Lead the development of experimental reactor systems that enable selective metal deposition from ores, while integrating specialized flow paths, solid-handling systems, and HER-suppressing architectures.
Formulate electrolytes that enable selective metal deposition, suppress hydrogen evolution, and enhance ore dissolution.
Formulate electrolytes that enable selective metal deposition, suppress hydrogen evolution, and enhance ore dissolution.
If none of the above positions fit your profile, but you have a passion for climate impact