Advanced Nanoscale Printing for Next-Generation Electronics
TECHNOLOGY OVERVIEW
How Does Directed Assembly Work?
Inkjet or Dispenser Printing
-
Directs a droplet toward a substrate to form apattern using many dots, limiting pattern resolution and fidelity.
-
Resolution limited by droplet size​
-
Inherently relies on mechanical accuracy.​
-
Materials limited to organics and metals​
Directed Assembly-Based Printing
-
Directs each nanoparticle (down to 3nm in size)toward a substrate to form a nanopattern.​
-
Resolution limited by particle size​
-
Prints 1000 times faster & smaller patterns than inkjets​
-
Prints one circuit layer (micro and nanoscale) perminute​
PLATFORM CAPABILTIES
What Nanoscale Printing Enables
Semiconductor Innovation Without Penalty
The semiconductor industry faces shrinking feature sizes, increasing material constraints, and rising penalties for heterogeneous integration. Our platform overcomes these challenges through additive nanoscale manufacturing that supports any material system, eliminates thousands of process steps, and enables heterogeneous devices without added cost. With 20 nm features and direct-write flexibility, companies can explore advanced packaging, AI/AR architectures, 5G systems, and next-generation chips without the exponential overhead of conventional fabrication.
High-Yield Manufacturing for Displays and Sensors
Display and sensor manufacturers often struggle with material waste, limited resolution, and low-yield quantum dot processes. Our nanoscale printing technology provides a no-waste workflow with nanometer-level resolution and 1000× smaller feature capability than inkjet. This supports high-yield quantum dot deposition, ultra-fine touch sensing layers, flexible display elements, and monolithic sensor platforms. Engineers can select optimal materials for optimal functionality, enabling smaller packages, better performance, and new form factors for wearables, IoT, healthcare, and environmental monitoring.
