

NOVA Materials Dispensing System
Unlock new opportunities and accelerate research and development with this additive manufacturing printer using a range of functional materials and screen-printable inks.
Dispense with Confidence Using NOVA
Discover New Possibilities
Explore new possibilities in printed electronics and advance the development of innovative functional materials. Push the boundaries of research and discover new applications with greater confidence.
Enhance Research and Development Efficiency
Make design changes with ease and gain immediate insights into new concepts, streamlining the R&D process and lowering overall development costs.
Greater Freedom in Material Selection
Work with a wide range of substrates and screen-printable materials, allowing you to test, validate, and refine designs in the lab before seamlessly scaling to production.
Built for Beginners and Experts Alike
The intuitive interface reduces training requirements and makes it easy for users of all experience levels to achieve consistent, high-quality results.
Discover New Possibilities
Explore new possibilities in printed electronics and advance the development of innovative functional materials. Push the boundaries of research and discover new applications with greater confidence.
Enhance Research and Development Efficiency
Make design changes with ease and gain immediate insights into new concepts, streamlining the R&D process and lowering overall development costs.
Greater Freedom in Material Selection
Work with a wide range of substrates and screen-printable materials, allowing you to test, validate, and refine designs in the lab before seamlessly scaling to production.
Built for Beginners and Experts Alike
The intuitive interface reduces training requirements and makes it easy for users of all experience levels to achieve consistent, high-quality results.
What Can NOVA Do?

ECG Electrodes
Materials and process
Thermoplastic polyurethane (TPU)
Printed material
Creative materials EXP 2613-40 gold ink
Celanese Micromax™ Intexar™ PE874 stretchable silver paste
Nozzle size
Nordson EFD 7018395 200 µm dispensing tip
Nordson EFD 7018424 150 µm dispensing tip
Print time
23 minutes 57 seconds
Materials and process
Thermoplastic polyurethane (TPU)
Printed material
Creative materials EXP 2613-40 gold ink
Celanese Micromax™ Intexar™ PE874 stretchable silver paste
Nozzle size
Nordson EFD 7018395 200 µm dispensing tip
Nordson EFD 7018424 150 µm dispensing tip
Print time
23 minutes 57 seconds

Electroluminescent Circuit
Materials and process
Paper
Polyethylene terephthalate (PET)
Printed material
Saralon electroluminescent ink suite
Nozzle size
Nordson EFD 7018424 150 µm dispensing tip
Nordson EFD 7018333 250 µm dispensing tip
Nordson EFD 7018482 100 µm chamfered tip
Print time
~2 hours
Materials and process
Paper
Polyethylene terephthalate (PET)
Printed material
Saralon electroluminescent ink suite
Nozzle size
Nordson EFD 7018424 150 µm dispensing tip
Nordson EFD 7018333 250 µm dispensing tip
Nordson EFD 7018482 100 µm chamfered tip
Print time
~2 hours

Magnesium Zinc Battery
Materials and process
Polyethylene terephthalate (PET)
Printed material
Saralon’s battery ink suite
Nozzle size
Nordson EFD 7018302 330 µm dispensing tip
Nordson EFD 7018107 840 µm dispensing tip
Nordson EFD 7018260 410 µm dispensing tip
Nordson EFD 7018333 250 µm dispensing tip
Print time
3 hours 14 minutes
Materials and process
Polyethylene terephthalate (PET)
Printed material
Saralon’s battery ink suite
Nozzle size
Nordson EFD 7018302 330 µm dispensing tip
Nordson EFD 7018107 840 µm dispensing tip
Nordson EFD 7018260 410 µm dispensing tip
Nordson EFD 7018333 250 µm dispensing tip
Print time
3 hours 14 minutes

Print on Fabric
Materials and process
Cotton fabric
Printed material
ACI SH5025 Printed Fixed Resistance Heater Ink
Nozzle size
Nordson straight barrel 410 µm general dispensing tip
Print time
2 hours 35 minutes
Materials and process
Cotton fabric
Printed material
ACI SH5025 Printed Fixed Resistance Heater Ink
Nozzle size
Nordson straight barrel 410 µm general dispensing tip
Print time
2 hours 35 minutes

RFID Tag
Materials and process
Cardstock paper
Printed material
Copprint LF-301 copper ink
Nozzle size
Nordson EFD 7018395 dispensing tip
Print time
~48 min
Materials and process
Cardstock paper
Printed material
Copprint LF-301 copper ink
Nozzle size
Nordson EFD 7018395 dispensing tip
Print time
~48 min

Flexible PCB
Materials and process
PET
Printed material
ACI Materials FS0142 Semi-Sintering Conductive Ink
ACI Materials SI3104 Stretchable Printed Insulator
Voltera T4 solder paste
Siraya Tech Tenacious Flexible Resin
Nozzle size
Nordson EFD 7018395 200 µm dispensing tip
Nordson EFD 7018424 150 µm dispensing tip
Nordson general purpose 410 µm dispense tip
Nordson general purpose 330 µm dispense tip
Print time
~30 minutes
Materials and process
PET
Printed material
ACI Materials FS0142 Semi-Sintering Conductive Ink
ACI Materials SI3104 Stretchable Printed Insulator
Voltera T4 solder paste
Siraya Tech Tenacious Flexible Resin
Nozzle size
Nordson EFD 7018395 200 µm dispensing tip
Nordson EFD 7018424 150 µm dispensing tip
Nordson general purpose 410 µm dispense tip
Nordson general purpose 330 µm dispense tip
Print time
~30 minutes
How Many Layers Can NOVA Print?
Plan Smarter. Print Better
With Plan, a built-in feature of NOVA, users can create more complex designs through multilayer printing and customizable trace printing sequences.
Plan lets you:
- Print up to 4 stack-up layers (multiple materials can be assigned to each layer)
- Allows for multilayer and multimaterial printing
- Edit print jobs in a single workflow
- Minimize setup time for repeat print jobs
University of Waterloo on Printed Sensors
“My research involves developing flexible and stretchable sensors for wearable electronics. With the Plan feature, I can separate different sensor elements, traces, or components to different layers and remove toolpaths that I don’t want. The ability to change the direction of tool paths has helped me the most — there’s no air pockets, and I have a very uniform trace width because I started printing in a designated safe region.”
– Nick Levinski, University of Waterloo
Plan Smarter. Print Better
With Plan, a built-in feature of NOVA, users can create more complex designs through multilayer printing and customizable trace printing sequences.
Plan lets you:
- Print up to 4 stack-up layers (multiple materials can be assigned to each layer)
- Allows for multilayer and multimaterial printing
- Edit print jobs in a single workflow
- Minimize setup time for repeat print jobs
University of Waterloo on Printed sensors
“My research involves developing flexible and stretchable sensors for wearable electronics. With the Plan feature, I can separate different sensor elements, traces, or components to different layers and remove toolpaths that I don’t want. The ability to change the direction of tool paths has helped me the most — there’s no air pockets, and I have a very uniform trace width because I started printing in a designated safe region.”
– Nick Levinski, University of Waterloo
Accelerate R&D with Direct Ink Writing
-
No tooling
Change designs on the fly and iterate without screens or stencils, eliminating delays and reducing costs. -
No waste
Print only what’s needed, conserving valuable material. -
No cleanup
Material is contained throughout the printing process, simplifying cleaning and handling procedures.
90% faster
iteration time
96% reduced
material costs

Accelerate R&D with Direct Ink Writing
-
No tooling
Change designs on the fly and iterate without screens or stencils, eliminating delays and reducing costs. -
No waste
Print only what’s needed, conserving valuable material. -
No cleanup
Material is contained throughout the printing process, simplifying cleaning and handling procedures.
90% faster
iteration time
96% reduced
material costs
90% faster
iteration time
96% reduced
material costs
High-Resolution Closed-Loop Dispensing
-
Increased material options
Our material dispensing system is compatible with a wide range of viscosities, unlocking enhanced performance and material characteristics, from inks to gels and pastes. -
Reduced risk
Validate designs and materials in the lab and seamlessly transition into production with scalable printing technologies. -
Repeatable results
Achieve repeatable results with close-loop pressure feedback, temp-controlled dispensing, and an optimized algorithm for multilayer printing.
100 µm
Line width*
1,000 – 1,000,000 cps
Viscosity range
Up to 4
Stack-up layers**
** Dependent on material and nozzle.
** More stack-up layers are possible under certain conditions.


High-Resolution Closed-Loop Dispensing
-
Increased material options
Our material dispensing system is compatible with a wide range of viscosities, unlocking enhanced performance and material characteristics, from inks to gels and pastes. -
Reduced risk
Validate designs and materials in the lab and seamlessly transition into production with scalable printing technologies. -
Repeatable results
Achieve repeatable results with close-loop pressure feedback, temp-controlled dispensing, and an optimized algorithm for multilayer printing.
100 µm
Line width*
1,000 – 1,000,000 cps
Viscosity range
Up to 4
Stack-up layers**
100 µm
Line width*
1,000 – 1,000,000 cps
Viscosity range
Up to 4
Stack-up layers**
** Dependent on material and nozzle.
** More stack-up layers are possible under certain conditions.
Flexible Print Area for Any Application
-
Rigid substrates
Secure your rigid substrates of all shapes and sizes with provided threads onto the 40 mm x 40 mm mounting grid. -
Compliant substrates
Secure your conformable substrates with NOVA’s porous titanium vacuum table, which applies uniform suction. -
Unconventional substrates
Develop application-specific fixturing for unconventional substrates using the mounting grid features.
220 mm x 300 mm
Print area
40 mm x 40 mm, M5
Mounting grid
Flexible Print Area for Any Application
-
Rigid substrates
Secure your rigid substrates of all shapes and sizes with provided threads onto the 40 mm x 40 mm mounting grid. -
Compliant substrates
Secure your conformable substrates with NOVA’s porous titanium vacuum table, which applies uniform suction. -
Unconventional substrates
Develop application-specific fixturing for unconventional substrates using the mounting grid features.
220 mm x 300 mm
Print area
40 mm x 40 mm, M5
Mounting grid
220 mm x 300 mm
Print area
40 mm x 40 mm, M5
Mounting grid
Print with Confidence Using Computer Vision
-
Eliminate registration errors
Accurately position and align patterns with augmented reality overlay. -
Optimize print quality
Find the ideal height, pressure, and print settings with a dedicated material calibration workflow. -
Simplify reporting
Capture images for analysis, measurements, and documentation.
17 µm/pixel
Resolution*
1920 x 1080
Image size
** Dependent on substrate height


Print with Confidence Using Computer Vision
-
Eliminate registration errors
Accurately position and align patterns with augmented reality overlay. -
Optimize print quality
Find the ideal height, pressure, and print settings with a dedicated material calibration workflow. -
Simplify reporting
Capture images for analysis, measurements, and documentation.
17 µm/pixel
Resolution*
1920 x 1080
Image size
17 µm/pixel
Resolution*
1920 x 1080
Image size
** Dependent on substrate height
Intuitive Software
-
Smooth onboarding
Guided workflows, walk-through videos, and user profiles in the browser-based app set you up for success. -
Seamless cooperation and independent research
Browse, create, and modify saved profiles for materials and substrates with the central materials library. -
In-app access to support
Connect directly with Voltera support via live, in-app chat.
No downloads required
Gerber file compatible

Intuitive Software
-
Smooth onboarding
Guided workflows, walk-through videos, and user profiles in the browser-based app set you up for success. -
Seamless cooperation and independent research
Browse, create, and modify saved profiles for materials and substrates with the central materials library. -
In-app access to support
Connect directly with Voltera support via live, in-app chat.
No downloads required
Gerber file compatible
No downloads required
Gerber file compatible
Inside NOVA
Module ports
The modular interface uses kinematic couplings and locking levers to locate and hold modules in place.

Smart Dispenser
The Smart Dispenser uses pressure sensing to provide control of material flow.

Smart Probe
Builds a complete height map of the substrate. An accurate height map is critical to maintaining a constant print height.

| TECHNICAL SPECIFICATIONS | ||
|---|---|---|
| GENERAL | ||
| Dispensing technology | Direct ink write (DIW) | |
| Pressure control | Closed loop | |
| Material temperature control | Up to 40°C | |
| Minimum trace width | 0.1 mm* | |
| Print area | 220 mm x 300 mm x 40 mm | |
| XYZ resolution** | 2.5 µm x 7 µm x 1.25 µm | |
| Layer capacity | Up to 4 stack-up layers*** | |
| Module slots | 2 | |
| Compatible modules | Smart Dispenser Smart Probe Vacuum Table | |
| Substrate fixturing | Elevated clamping Vacuum table Customizable (M5 threads, 40 mm grid) | |
| Substrate thickness | Up to 30 mm**** | |
| Substrates | Rigid: PCBs, glass, ceramic, etc. Flexible: Polyimide, PET, etc. Stretchable: TPU, etc. Porous: Paper | |
| Alignment and registration | Manual with camera assist (8 MP, 17 µm/px resolution) | |
| Syringe capacity | Up to 2.5 mL | |
| Dispensable materials | Solder paste Conductive ink Other***** | |
| Additional features | Modular tool interface Dedicated priming area Tool and accessories drawer Solid state strain gauge tool setting Integrated vacuum pump Materials library Automatic fill level detection AI enabled vision system | |
| SOFTWARE | ||
| Interface | Browser-based web application | |
| File formats | Gerber SVG (beta) | |
| HARDWARE | ||
| Printer dimensions | 675 mm x 605 mm x 345 mm | |
| Weight | 35 kg | |
| Power requirements | 100-240 VAC, 50/60 Hz, 221 W | |
| Connectivity | 1 x USB-A 2.0 1 x USB-A 3.0 Ethernet Wi-Fi****** | |
Start printing your own metal parts today
Talk to our experts via Online consultation and request for a demo

