UNIST
Research and development of a high-speed, continuous volumetric additive manufacturing (DVAM) technology for micro-scale 3D printing, enabling serial production of complex microstructures.
- CEO / Founder
- Chong Rae Park
- Team Size
- 1001-5000
- Stage
- Active
- Total Funding
- $0
- Latest Round
- Grant
Technology & Products
Key Products
Dispensing Volumetric Additive Manufacturing (DVAM) research platform; 3D Printing Convergence Technology Center services
Technological Advantage
Proprietary DVAM process achieves continuous production (10 parts in ~10 minutes) at 150-micrometer resolution, protected by research publications and potential patents; core IP lies in the refractive correction algorithm and droplet replenishment system, which is defensible but replicable by well-funded competitors.
Differentiation
Value Proposition
Enables continuous, high-throughput production of micro-scale 3D parts (one part per minute) with 150-micrometer resolution, eliminating vat resin handling and manual reloading bottlenecks.
How They Differentiate
DVAM offers continuous-flow serial production (one part/minute) vs. batch processing of competitors, with AI-corrected fidelity for complex microstructures at comparable resolution.
Market & Competition
Target Customers
Research institutions, industrial R&D labs in micro-optics, microfluidics, and biomedical engineering
Industry Verticals
Research & Development; Micro-optics; Microfluidics; Biomedical Engineering
Competitors
Nanoscribe (two-photon polymerization systems); Multiphoton lithography tool providers
Growth & Milestones
Growth Metrics
Selected to lead national TeX-Corps deep-tech startup acceleration program; UNIST Technology Holdings established in 2017 with 100% funding from UNIST to commercialize technologies
Major Milestones
Established in 2007; Hosted 3D Printing Convergence Technology Center open house (2025); Published breakthrough DVAM research in Advanced Functional Materials (2025)
Notable Customers
Lincsolution