The global demand for computation is accelerating, but silicon has reached its physical limit. Tessellate 2D manufactures defect-free, monolayer semiconductors to enable the next decade of Moore’s Law.
Tessellate 2D grows the highest quality 2D semiconductor crystals. Our revolutionary Gold-Stamp technology can deterministically isolate the over 100,000 atomic-scale monolayers from every bulk crystal, making top-down fabrication of high-quality 2D semiconductors scalable for the first time!
Atomic-Level Precision
Intrinsic bulk crystal quality is preserved, with 100× fewer point defects than direct growth methods.
Wafer-Scale Potential
Improved crystal growth and automated exfoliation enables future 50–300 mm platforms.
High-Mobility Transport
Monolayers are inherently single-crystal, and exhibit 5× higher mobility than CVD films.
High-Mobility Transport
Monolayers are inherently single-crystal, and exhibit 5× higher mobility than CVD films.
Wafer-Scale Potential
Improved crystal growth and automated exfoliation enables future 50–300 mm platforms.
Atomic-Level Precision
Intrinsic bulk crystal quality is preserved, with 100× fewer point defects than direct growth methods.
applications
Who we serve?
Describe the industries product applies to
Electric utilities
to supply base-load clean energy, supporting grids with high renewables penetration
Heavy industry & process heat
steel, cement, chemical, and refining industries need high-temperature heat without carbon emissions
Space & extreme environments
applications where compact, reliable power sources are crucial (e.g., remote research, off-planet)
Electric utilities
to supply base-load clean energy, supporting grids with high renewables penetration
Heavy industry & process heat
steel, cement, chemical, and refining industries need high-temperature heat without carbon emissions
Space & extreme environments
applications where compact, reliable power sources are crucial (e.g., remote research, off-planet)
FAQ
Everything You Need to Know
Key insights into our materials, methods, and roadmap.
Why do 2D semiconductors matter?
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They maintain high electronic mobility even at a single-atom thickness, unlike silicon, which loses performance below ~3 nm. This makes 2D materials the only viable path to continued transistor scaling.
What makes Gold-Stamp™ technology unique?
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It is the only scalable, top-down method that can isolate individual monolayers with defect rates 100× lower than CVD films. Quality is limited only by the parent crystal.
Can Tessellate 2D materials be used in industrial semiconductor fabrication?
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Yes. Our monolayers are compatible with industry workflows and are already being tested by top semiconductor manufacturers (per customer discovery notes).
What is your current product?
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We supply macroscopic TMD monolayers for research customers and are scaling toward 50 mm → 200 mm → 300 mm wafers.
When will Tessellate 2D be ready for high-volume manufacturing?
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According to our roadmap, industrial scale fabrication aligns with A2 node adoption (~2036), with progressive scaling milestones in 2026, 2028, and 2032.
blog
Shaping the Future of Computation
Deep dives into 2D materials, scaling challenges, and the future beyond silicon
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