“The MPO 100 is a unique tool for microfabrication and achieves the highest resolution among additive manufacturing processes at 100 nanometers. Furthermore, the 1-10-100-1000 capability of the MPO 100 will enable users at universities, R&D institutions, as well as the industry and offer significant advantages for new developments in areas such as micro-optics, microfluidics, and biomedicine,” says Dr. Benedikt Stender of Multiphoton Optics GmbH, the subsidiary of Heidelberg Instruments where the development of the MPO 100 was carried out.
The MPO 100 works with a laser wavelength in the green spectral range, which is ideally suited for the 3D structuring of typical photoresists. Furthermore, MPO 100 is optimized to use the hybrid polymers (ORMOCER®s), particularly important for various applications. In addition to sophisticated algorithms to maximize structure quality, the synchronized scanning system offers the possibility of stitching-free patterning. In addition, the MPO 100 is currently the only tool in the market equipped with a flowbox that guarantees temperature stability of up to 0.1°C and thus provides the necessary stability for large-scale exposures. Application-specific writing modes enable customer-specific printing requirements and distinguish the MPO 100 as a multi-user tool.
“With the MPO 100, we have combined the strengths of both companies in one system: Multiphoton Optics' sophisticated exposure unit for two-photon polymerization and Heidelberg Instruments' industrial platform, which guarantees the required stability and meets the necessary industry standards. The capabilities of the MPO 100 are already very popular with our customers, who benefit from the worldwide support from our service organization and ISO-certified production,” says Steffen Diez, COO of Heidelberg Instruments.
(c) Picture: Multiphoton Optics – 100 nm resolution: Metastructures with feature sizes below the diffraction limit can be fabricated in a single process step