Next-Gen Printable Copper Inks
Sustainable • Low-temp Processing • High conductivity • Non-corrosive
Sustainable • Low-temp Processing • High conductivity • Non-corrosive
Conducting inks currently relied upon for printable electronics are too limiting for next-gen applications
We develop state-of-art conductive inks from pristine or recycled copper that enable scalable, lean manufacturing of high performance, sustainable electronics.
This breakthrough technology opens the door for new 3D printed electronics, flexible devices, biodegradable products, and many other exciting new applications.
NewCopper aims to pioneer new frontiers in both printable electronics and circular materials by unlocking the full potential of copper and other metals in the future
Our technology combines high conductivity with high stability. NewCopper Cu-based inks are non-corrosive even under harsh environments and maintain 70% bulk conductivity.
Our printable inks reduce waste and improve scalability for manufacturing metalized components. Additionally, their low-temp sintering and stability in ambient environments make them amenable to 3D printed systems.
Our inks can be applied precisely on textiles, flexible substrates, and conformal surfaces due to high printing resolution, low-temp sintering, and strong surface adhesion.
NewCopper's ink-making process can utilize chemical feedstocks converted from recycled metals. Furthermore, our inks can be applied to paper and biodegradable polymers.
• Rapid de-icing and heating
• EMI shielding
• Robust RF antennas and external circuitry
• Longer range and more precise sensors
• Current collecting electrodes for batteries
• Transparent electrodes for printed PVs
• Embedded electronics for EVs
• Power electronics systems
• Flexible displays and touchscreens
• Additive manufactured components
• Greater longevity devices
• Textile embedded electronics
• Greater longevity medical devices
• Smart packaging and RFIDs
• Soft robotics
• Non-depreciating recycled feedstocks
• Environmentally safe conductors
• Conservative manufacturing
• Biodegradable materials compatibility
• Low cost alternative inks
• Circular materials
• Roll-to-roll printing compatibility
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College Park, Maryland, United States
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