Mechanical microparts with highest precision

With design freedom of 3D printing and high precision of Two-Photon Polymerization, you can fabricate mechanical parts or even micro-electro-mechanical systems (MEMS) with micrometer accuracy. Discover our 3D Microfabrication solutions for rapid prototyping and manufacturing of truly high-precision microparts.

Additive manufacturing meets precision for micromechanical parts

3D Microfabrication enables you to create complex micromechanical parts with submicron resolution and up to millimeter sizes. Design versatility in 3D is crucial for the fabrication of complex and responsive micromachines, sensors and actuators. Further mechanical parts include springs, gears and connectors, as required in precision mechanics or electronics. Two-Photon Polymerization is a powerful direct fabrication method which is used for rapid prototyping of novel designs. Scientists and engineers employ it to iteratively create innovative 3D structures with varying parameters and without additional costs.

The fabrication of micromechanical parts benefits strongly from the design versatility of our 3D printers and the wide range of printing materials. For example, remotely controlled movable microrobots can be printed from photopolymers, nanoparticle composites and hydrogels. Metal coating can be applied if required. Moreover, microparts can be printed directly on various substrates, even directly onto micro-electro-mechanical systems (MEMS).

Micromechanics & MEMS
application opportunities

You want to assess the opportunities for your project in micromechanics and MEMS? Explore the application options of our 3D Microfabrication solutions. Have a look at the 10 most recent scientific publications in micromechanics and MEMS.

To view the details of the publications and to find more research topics and applications in which Nanoscribe 2PP-based 3D printing systems are already successfully used, just enter our premium resources – log in or register for free.


Additive Manufacturing of 3D Luminescent ZrO2Eu3+ Architectures


A Selectively Controllable Triple-helical Micromotor


Spider-Inspired, Fully 3D-Printed Micro-Hydraulics for Tiny, Soft Robotics


A simple catch: Fluctuations enable hydrodynamic trapping of microrollers by obstacles


Magnetic Microrobots with Folate Targeting for Drug Delivery


Design, Fabrication, and Characterization of a Helical Adaptive Multi-Material MicroRobot (HAMMR)


A 3D Biocompatible Plasmonic Tweezer for Single Cell Manipulation


Reduced rotational flows enable the translation of surface-rolling microrobots in confined spaces


A multi‑material platform for imaging of single cell‑cell junctions under tensile load fabricated with two‑photon polymerization


Increasing the Efficiency of Thermoresponsive Actuation at the Microscale by Direct Laser Writing of pNIPAM

View more innovation projects

You get more publication examples and deeper insights within our premium resources. Via a keyword-underpinned database you find more than 1,400 scientific publications of our customers in specific application areas. Make use of the tool to gather valuable know-how and background information about the manifold application options.

Login Register
Contact us

It's your choice

Cookies help us to better understand you as a visitor and to provide you with a better experience.

It's your choice
Cookies help us to better understand you as a visitor and to provide you with a better experience.
Legal Notice Privacy Policy
Accept all Individual Settings