Materials and Energy
Available NowMatterSpace Lattice
Describe the material properties you need. MatterSpace Lattice generates novel crystal structures, alloy compositions, and energy material candidates that meet your exact specifications.
12 industries
Battery Cathodes and Energy Storage
Generate novel cathode compositions and crystal structures optimized for energy density, cycle life, and thermal stability.
Learn moreCatalysis and Chemical Processing
Generate novel catalyst compositions, support configurations, and active-site geometries optimized for selectivity, activity, and durability.
Learn moreSuperconductors and Quantum Materials
Generate novel superconducting material candidates with predicted critical temperatures, targeting accessible operating conditions.
Learn morePhotovoltaics and Solar Energy
Generate novel photovoltaic absorber compositions and heterostructure designs optimized for efficiency, stability, and manufacturability.
Learn moreThermoelectrics and Waste Heat Recovery
Generate novel thermoelectric material compositions with optimized figures of merit for efficient waste heat conversion.
Learn moreHigh-Entropy Alloys
Generate novel high-entropy alloy compositions with targeted mechanical, thermal, and corrosion properties across multi-principal-element design spaces.
Learn moreMagnets and Magnetic Materials
Generate novel permanent magnet compositions and crystal structures targeting high energy products without critical rare-earth dependencies.
Learn moreCoatings and Surface Engineering
Generate novel coating compositions and multilayer architectures optimized for hardness, corrosion resistance, thermal barrier performance, and adhesion.
Learn moreSolid-State Electrolytes
Generate novel solid-state electrolyte compositions with high ionic conductivity, wide electrochemical stability windows, and mechanical compatibility.
Learn moreMetamaterials
Generate novel metamaterial unit cell geometries with target electromagnetic, acoustic, or mechanical properties through constraint-based topology construction.
Learn moreMetal-Organic Frameworks
Generate novel MOF structures with target porosity, gas selectivity, and catalytic activity through systematic exploration of metal node, organic linker, and topology combinations.
Learn morePolymer Design
Generate novel polymer architectures with target mechanical, thermal, and barrier properties through systematic exploration of monomer chemistry, chain topology, and processing parameters.
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