D4200S is a revolutionary printer engineered specifically for Printed Electronics, Prototyping, Research and Development, as well as Industrial Applications, operating on a Micro-to-Nanoscale. The printer features an impressive print resolution of 20 nanometers, and it stands as one of the most advanced additive print systems currently accessible, pushing the boundaries of precision and quality.
For those unaware, a 3D printer offers a range of advantages and applications to the user. It enables rapid prototyping, allowing designers to test and refine their designs in an efficient way. Customization is another benefit, as 3D printing allows for the creation of personalized products tailored to individual needs. The technology excels at manufacturing complex geometries that traditional methods struggle with. It also facilitates small-batch production, making it cost-effective for limited runs. 3D printers find utility in multiple fields, such as education, research, creating replacement parts, artistic endeavors, as well as medical applications. With continuous advancements, 3D printing opens up new possibilities across various industries.
For now, it’s time to focus on the D4200S printer. Why should you use it? Keep reading to find out!
The printer features a precision stage with XYZ motion control, offering a travel range of 3 x 6 x 2 cm and a precision of less than 3 nm. The stage allows for highly accurate positioning and movement.
With micro-deposition and nano-deposition modes, the printer enables users to tailor their printing process to specific requirements. Additionally, the topographical analysis mode supports in-depth analysis and examination of printed surfaces.
The inclusion of a video optical microscope with up to 400x zoom and 2 μm resolution provides enhanced visualization and analysis capabilities during the printing process.
In terms of design, the D4200S features a compact table-top design, with dimensions measuring 7.5 x 12 inches, ensuring it can fit seamlessly into various laboratory or workspace settings.
The printer incorporates a modified tripod scanner with exceptional performance. It offers high linearity in the XY plane, with less than 1% deviation, while achieving impressively low resolutions of less than 3 nm in closed-loop operation and less than 1 nm in open-loop operation.
The Z motion control mechanism utilizes a direct-drive system and a stepper motor, delivering a robust and controlled vertical movement. It offers a drive range of 25 mm, with a minimum step size of 330 nm and a slew rate of 8 mm per minute.
The D4200S printer accommodates an extensive array of materials, including metals, metallic oxides, polyimide, silver (Ag), gold (Au), dielectrics, organic semiconductors, photosensitive polymers, biomolecules, platinum (Pt), palladium (Pd), and more. This broad compatibility opens up a vast realm of possibilities for various applications.
The D4200S boasts remarkable versatility when it comes to both its tip sizes and applications. Unlike other nano-scale 3D printers, this device offers a range of tip options, accommodating different sizes from 0.200mm down to an incredible 20nm.
Surprisingly enough, the D4200S provides a generous build volume of 50 x 50 x 50 mm. Usually, printers at the nano-scale have limited chamber sizes. However, this printer’s ability to use tips with superior resolution necessitated the larger build area.
Additionally, the system incorporates a video microscope capable of magnifying print images up to 400X, enabling clear visibility when the printing process unfolds
D4200S costs an arm and a leg
The D4200S is undeniably a specialized device that may not cater to a wide range of users.
While affordability may be a consideration for some, it is important to note that the D4200S is positioned as a high-end solution with a price tag of about US$250,000. This investment highlights the advanced technology and sophisticated features incorporated into the printer. Furthermore, it’s worth noting that a 25% deposit is required upon ordering, underscoring the significance of this purchase and the commitment it entails.
Considering the substantial price point and specialized nature of the D4200S, it is clear that this printer targets niche markets where its unique capabilities and exceptional performance can truly shine.
While the D4200S primarily serves the development of unique electronic applications, Nano3Dprint also highlights the printer’s suitability when it comes to prototyping, maskless lithography, mask repair, bioprinting, and tissue engineering.
Tim M. Hill helped bring Digital-Overload from a weekly newsletter to a full-fledged news site by creating a new website and branding. He continues to assist in keeping the site responsive and well organized for the readers. As a writer to Digital-Overload, Tim mainly covers mobile news and gadgets.