Vision

Academic and research institutions advancing the core science and systems behind Alpine X.

Academic and research institutions advancing the core science and systems behind Alpine X.

Science +
Technical Partners

Testing

Alpine X works with academic partners to validate performance, explore new materials, and refine system design under real environmental conditions, ensuring a transparent and scientifically rigorous approach.

  • Brand logo
  • Brand logo
  • Brand logo
  • Brand logo

From Pilot to Scale.

From Pilot to Scale.

Test Bench

Test Bench

Test Bench

Alpine X’s technology was developed and validated with the support of LOCIE, a CNRS affiliated research center within Université Savoie Mont Blanc known for its expertise in energy systems and climate responsive technologies in alpine environments. LOCIE’s focus on mountain specific conditions made it a natural partner for advancing high altitude direct air capture.


Using altitude relevant laboratory infrastructure, systems were engineered and tested under cold, dry, low pressure conditions representative of the Alps. This approach bridges laboratory research and real world performance, reducing deployment risk and building confidence ahead of field deployment.

Advanced Sorbent Materials

Advanced Sorbent Materials

Advanced Sorbent Materials


Developed in collaboration with novoMOF, Alpine X’s carbon capture system is built on a MOF based adsorption material engineered to selectively capture CO₂ at the molecular scale. This class of materials was recognized with the 2025 Nobel Prize in Chemistry for foundational advances in MOF science led by Omar M. Yaghi and collaborators, and is defined by exceptional internal surface area and molecular tunability that enable high selectivity and efficient capture.

Adapted specifically for cold, dry, high altitude environments, the material enables fast capture cycles and low energy regeneration. Together, Alpine X and novoMOF are translating laboratory scale advances in MOF science into durable, scalable systems designed for real world carbon capture under demanding environmental conditions.


Developed in collaboration with novoMOF, Alpine X’s carbon capture system is built on a MOF based adsorption material engineered to selectively capture CO₂ at the molecular scale. This class of materials was recognized with the 2025 Nobel Prize in Chemistry for foundational advances in MOF science led by Omar M. Yaghi and collaborators, and is defined by exceptional internal surface area and molecular tunability that enable high selectivity and efficient capture.

Adapted specifically for cold, dry, high altitude environments, the material enables fast capture cycles and low energy regeneration. Together, Alpine X and novoMOF are translating laboratory scale advances in MOF science into durable, scalable systems designed for real world carbon capture under demanding environmental conditions.

From Pilot to Scale.

From Pilot to Scale.

Lasting advances are born where curiosity meets discipline, and where ideas are tested with the seriousness required to make them real.

Lasting advances are born where curiosity meets discipline, and where ideas are tested with the seriousness required to make them real.

Lasting advances are born where curiosity meets discipline, and where ideas are tested with the seriousness required to make them real.