- ATLANT 3D raised a $15M Series A+ led by West Hill Capital (total funding ~ $32.6M) to scale its atomic-precision manufacturing platform.
- Its Direct Atomic Layer Processing (DALP) enables maskless, atom-by-atom deposition that cuts material waste by ~90% and speeds prototyping for advanced electronics.
- The company is developing a space-qualified NANOFABRICATOR ZERO-G with ESA support and has NASA as a customer, with an ISS-suitable prototype validated.
- Near-term upside spans semiconductors, quantum, and in-orbit manufacturing, while key hurdles include space certification, throughput scaling, and competition from established fabrication players.
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ATLANT 3Dās recent $15 million Series A+ funding marks a significant inflection point in the companyās trajectory. The investment, led by West Hill Capital, brings to light not only investor belief in ATLANT 3Dās DALPĀ® technology but also the accelerating convergence of advanced manufacturing needs in aerospace, quantum, and electronics with precision tools that can operate in extreme conditions. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
Central to ATLANT 3Dās value proposition is its Direct Atomic Layer Processing (DALPĀ®) platform, which allows selective, maskless material deposition at the atomic scale. By replacing many steps in conventional ALD, photolithography, or clean-room-based semiconductor fabrication, it claims to reduce material waste by approximately 90% and shorten R&D cycles dramaticallyāfrom months to days. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
On the space front, particularly promising is ATLANT 3Dās push to adapt its systems for zero-gravity environments. The NANOFABRICATORĀ® ZERO-G has achieved key design milestones in collaboration with the European Space Agencyās Business Incubation Centre (ESA BIC), aiming for ISS-compatible form factors. ATLANT has earlier sold a customised 0-G R&D unit to NASA, underlining external validation of its ability to meet rigorous engineering, volume, and weight constraints. ([atlant3d.com](https://atlant3d.com/atlant-3d-achieves-key-design-milestone-in-collaboration-with-european-space-agency/?utm_source=openai))
Yet, there are material risks and open questions. First, space qualification and reliability under radiation, vibration, extreme thermal cycling,: users like ESA, NASA will demand full certification. Second, scale and throughputāwhile prototypes and LITE versions are in use by universities (e.g., University of Vermont) and industrial partners, making larger-volume, production-grade devices remains a challenge. ([3dprint.com](https://3dprint.com/316897/atlant-3ds-atomic-level-3d-printing-gets-15m-in-series-a/?utm_source=openai)) Third, competition: established semiconductor, ALD, and materials firms are also moving toward atomic-scale and space-qualified manufacturing. ATLANT 3D must defend IP (~11 patents filed) and remain technologically ahead. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
In terms of strategic implications for stakeholders:
- For investors: ATLANT 3D represents a high potential deep-tech play in the emergent intersection of space hardware, quantum, and advanced materials, with capital risk tied to product validation and adoption cycles.
- For aerospace & space agencies: technologies like ZERO-G manufacturing could reduce launch and logistics costs, enable mid-mission repairs, and speed prototyping in orbitārelevant for both LEO and deep-space missions.
- For downstream electronics & quantum computing industries: DALPĀ® could enable substrates and devices with performance or structural capabilities not feasible with multi-step cleanroom photolithography, especially for complex 3D geometries or materials that are difficult to process.
- For competitors and incumbents: thereās an opportunity for partnerships, licensing, or acquisitionābut also risk of displacement if ATLANT delivers on its roadmap.
Open questions to watch:
- What precise performance metrics (throughput, film uniformity, lifetime) will the ZERO-G machine achieve under orbital conditions?
- What are the certification pathways and budgets required for deployment on ISS or equivalent platforms?
- How will supply of precursors, gas handling, and safety in confined or microgravity settings be managed?
- Which markets among quantum, sensors, space hardware will drive early revenueāand what kind of cost-structure will allow competitive pricing?
Supporting Notes
- ATLANT 3D raised $15 million in a Series A+ round in March 2025, led by West Hill Capital. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
- Total funding to date is approximately $32.6 million. ([techfundingnews.com](https://techfundingnews.com/atomic-scale-3d-printing-atlant-3d-scoops-15m-for-space-manufacturing-with-nasa-and-esa-support/?utm_source=openai))
- The companyās core technologyāDirect Atomic Layer Processing (DALPĀ®)āallows precise, atomic-scale, maskless deposition and single-step creation of complex structures for semiconductors, optics, quantum devices, etc. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
- Material waste is claimed to be reduced by roughly 90% versus traditional multi-step fabrication. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
- Since its earlier Series A round, ATLANT 3D has launched the NANOFABRICATOR Lite product and prototyped the multimodular NANOFABRICATOR Flow. ([3dprint.com](https://3dprint.com/316897/atlant-3ds-atomic-level-3d-printing-gets-15m-in-series-a/?utm_source=openai))
- The company has collaborations or customer relationships with over 50 industrial and research organisations, including STMicroelectronics, Sony, and multiple Fortune 500s. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
- Team size is over 35; 11 patents filed (one granted in each of US, Singapore, Japan, South Korea), and a materials library validated for ~20 materials. ([prnewswire.com](https://www.prnewswire.com/news-releases/atlant-3d-secures-15-m-series-a-as-demand-grows-for-its-atomic-layer-processing-technology-302398320.html?utm_source=openai))
- ATLANT 3D is developing a space-certified version, NANOFABRICATOR ZERO-G, optimized for microgravity and zero-gravity use, including compatibility with ISS hardware racks. ([atlant3d.com](https://atlant3d.com/nanofabricator-zero-g/?utm_source=openai))
- Partnership with ESA BIC Denmark and ESA IDEA programs to develop the ZERO-G prototype, including design, gas system, norm/regulation compliance, and testing in simulated ISS conditions. ([atlant3d.com](https://atlant3d.com/atlant-3d-achieves-key-design-milestone-in-collaboration-with-european-space-agency/?utm_source=openai))
- NASA has purchased ATLANT 3Dās first 0G system for experimental thin-film deposition in micro- and zero-gravity conditions. ([atlant3d.com](https://atlant3d.com/press-release-atlant-3d-secures-nasa-as-a-customer/?utm_source=openai))