Driving innovation through collaborative partnerships, empowering academia and research institutions. At ATLANT 3D, we are at the forefront of revolutionizing research and innovation in academia through our cutting-edge μDALP™ (Micro Direct Atomic Layer Processing) technology. Our commitment to fostering collaborative partnerships with academic and research institutions is grounded in our belief that the future of scientific discovery lies in advanced manufacturing techniques. μDALP™ technology, a cornerstone of ATLANT 3D’s innovative prowess, offers unparalleled precision and flexibility in material fabrication at the atomic level. This technology enables researchers to explore new frontiers in nanotechnology, material science, and beyond. Nanomaterial Development: μDALP™ is instrumental in synthesizing new nanomaterials with unique properties. This has profound implications in sectors like energy storage, pharmaceuticals, and advanced materials. Micro-Electro-Mechanical Systems (MEMS): The technology’s precise control over material deposition is ideal for creating complex MEMS devices, used in sensors, actuators, and miniature robotics. Quantum Computing Research: μDALP™ plays a pivotal role in developing quantum computing components, enabling the fabrication of superconducting qubits with atomic-scale accuracy. Biomedical Innovations: In the biomedical field, μDALP™ aids in the creation of microfluidic devices and organ-on-chip systems, accelerating drug testing and reducing reliance on traditional methods. Material Science Breakthroughs: A research team utilizes μDALP™ to develop a novel composite material with enhanced electrical conductivity. This material becomes pivotal in creating more efficient solar cells, contributing significantly to renewable energy research. Quantum Device Fabrication: A university lab specializing in quantum computing leverages μDALP™ to fabricate nanoscale superconducting circuits, pushing the boundaries of quantum technology. Biomedical Advances: Researchers use μDALP™ to prototype microfluidic devices for rapid medical diagnostics, leading to significant advancements in personalized medicine. Nanoelectronics Development: A collaborative project between ATLANT 3D and an academic institution results in the creation of ultra-thin, high-performance nanoelectronic components, setting new standards in the electronics industry. ATLANT 3D’s collaborative approach with academic institutions is not just about providing access to μDALP™ technology. It’s about building relationships that foster knowledge exchange, joint research initiatives, and the development of customized solutions to meet specific research needs. These partnerships are essential in nurturing the next generation of scientists and engineers, equipped to tackle global challenges with innovative solutions. Through μDALP™ technology and our commitment to collaborative partnerships, we are helping to shape academic and research advancements. Our approach offers a unique platform for academia to leap forward in their research capabilities, ensuring that the institutions we partner with are always at the cutting edge of scientific innovation. ATLANT 3D’s NANOFABRICATOR™ Lite is a groundbreaking tool designed to meet the specific needs of academic and research environments. It stands as a hallmark of our commitment to advancing scientific research and education. Precursor Testing and Validation: Accelerates material testing and process development. Enhanced Precision: Achieves atomic-level accuracy in material fabrication. NANOFABRICATOR™ Lite empowers researchers with unparalleled precision and versatility, fostering an environment ripe for discovery and innovation. It’s not just a tool, but a pivotal asset in driving forward scientific exploration and education. Academia & Research
Empowering Academia and Research Institutions with μDALP™ Technology
Key Applications in Research and Academia
Impact of μDALP™ in Academia
Shaping the Future of Scientific Discovery
Our Solution
Revolutionizing Academic and Research Applications
Key Feature
Advanced Patterning: Enables intricate device structure development.
Multi-Material Capability: Facilitates diverse process development with multiple materials.
Broad Application Range: Ideal for MEMS & Sensors, Photonics, Novel Displays, and more. Benefits for Academia and Research
Rapid Prototyping: Drastically reduces design and testing time.
Material Versatility: Accommodates a wide range of materials and substrates.
User-Friendly: Simplifies operations with no vacuum requirement, making it accessible for varied research settings.
Cost Efficiency: Minimizes resource use and overall innovation costs. Impact in Academia
- Technology
OUR TECHNOLOGY
Discover ATLANT 3D's unique atomic layer advanced manufacturing technology based on Direct Atomic Layer Processing (DALP®).
- Solutions
OUR SOLUTIONS
Our revolutionary tools are built to enhance the whole value chain of advanced micro- and nano-device manufacturing. Our A-HUB solutions enable rapid prototyping, pilots and feasibility studies.
- Applications
ADVANCED NANOFABRICATION
Our technology is built for advanced applications enabling previously impossible functionality and speed at a fraction of the cost. Its reach across multiple application domains plays a pivotal role in propelling industries toward cutting-edge technological achievements.
- Insights
INSIGHTS
Learn how we are building the foundation for new advanced materials innovation and high-tech applications of the future.
RESOURCES
- About
OUR MISSION
We are building the future atomically precise advanced manufacturing technology & infrastructure for micro and nanoelectronics, optics & photonics on Earth and Beyond.
OUR COMPANY