WALTHAM, MA, July 19, 2022 – Nano Dimension Ltd., an industry leader in additively manufactured electronics and specialized additive manufacturing, announced that it owns 12.12% of the outstanding ordinary shares of Stratasys Ltd.
With $521 million and $607 million of revenue in 2020 and 2021, respectively, Stratasys is a leader in the global shift to AM through smart and connected 3D printers, polymer materials, a software ecosystem and parts on demand. Stratasys serves customers worldwide by transforming product design, bringing agility to manufacturing and supply chains, and improving patient care.1
Yoav Stern, chairman and chief executive officer of Nano Dimension, commented: “The purpose of Nano Dimension in buying Stratasys shares is the formation of a strategic investment in a market-leader which is well established in a relatively seasoned market segment, while Nano Dimension’s disruptive technologies in AME and 3D metal printing supply its shareholders with value created by accelerated growth and expansion curves. Hence, an investor in Nano Dimension will gain from its value creation in “blue ocean” type AM sectors plus having strategic upside from investment in Stratasys, which enjoys a commanding presence in large, stable more mature, mostly polymer-based AM technologies. In contrast, Nano Dimension’s material development thrusts and business model strategy are centered around metals with electro-mechanical conductive parameters, metals with superior mechanical qualities, dielectric material, and printing of multi-dimensional-electronic devices and mechanical parts.
“Incidentally,” Mr. Stern concluded, “We may increase or decrease our investment in Stratasys, subject to market conditions and other economic factors, while keeping it under the framework and envelop which will evolve from the description above.”
About Nano Dimension
Nano Dimension’s vision is to transform the electronics and similar additive manufacturing sectors through the development and delivery of an environmentally friendly and economically efficient additive manufacturing, Industry 4.0 solution, while enabling a one-production-step-conversion of digital designs into functioning devices – on-demand, anytime, anywhere.
The DragonFly IV system and specialized materials serve cross-industry High-Performance-Electronic-Devices (Hi-PEDs) fabrication needs by simultaneously depositing proprietary conductive and dielectric substances while integrating in-situ capacitors, antennas, coils, transformers, and electromechanical components. The outcomes are Hi-PEDs which are critical enablers of autonomous intelligent drones, cars, satellites, smartphones, and in vivo medical devices. In addition, these products enable iterative development, IP safety, fast time-to-market, and device performance gains.
Nano Dimension also develops complementary production equipment for Hi-PEDs and printed circuit board (PCB) assembly (Puma, Fox, Tarantula, Spider, etc.). The core competitive edge for this technology is in its adaptive, highly flexible surface-mount technology (SMT) pick-and-place equipment, materials dispenser suitable for both high-speed dispensing and micro-dispensing, as well as an intelligent production material storage and logistics system.
Additionally, Nano Dimension is a leading developer and supplier of high-performance control electronics, software, and ink delivery system. It invents and delivers state-of-the-art 2D and 3D printing hardware and unique operating software. It focuses on high-value, precision-oriented applications such as specialized direct-to-container packaging, printed electronics functional fluids, and 3D printing, which is all controlled by the proprietary software system – Atlas.
Serving similar users of Hi-PEDs, Nano Dimension’s Fabrica 2.0 micro additive manufacturing system enables the production of microparts based on a Digital Light Processor (DLP) engine that achieves repeatable micron levels resolution. The Fabrica 2.0 is engineered with a patented array of sensors that allows a closed feedback loop, using proprietary materials to achieve very high accuracy while remaining a cost-effective mass manufacturing solution. It is used in the areas of micron-level resolution of medical devices, micro-optics, semiconductors, micro-electronics, micro-electro-mechanical systems (MEMS), microfluidics, and life sciences instruments.
For more information, please visit www.nano-di.com.