Nanoscribe has published the announcement of its newest printing material which has the ability to change discoveries on the microscale to biocompatible items. The development is called as IP-Visio and was created to print filigree and low-luminous 3D microarchitectures for network engineering. Nanoscribe made the announcement during the SPIE BiOS and Photonics West conference.

Nanoscribe makes and offers 3D printing machines for the micro, mesoscale, and nano. This is together with photoresists and procedure solutions. Mobilizing the motto: “We make small things matter.” The founders of the firm have managed to create technology that may additively manufacture products necessary for smartphones, handheld tools. This is also in the area of medical technology.
Creating two-photon polymerization (2PP) depending on 3D printing machines industrially present they have now provided solutions to evolving sectors globally and universities. They are also operating 3D microprinting living sciences education and also additive manufacturing optics at the nanoscale. This is even while utilizing their technology to create novel tools such as 3D-microscaffold cochlear implant for steroid elution.
2D cell formation systems have been regular for the previous century, allowing discoveries in several applications. This ranges from drug screening, stem cell study, and regenerative medicine. But, cells associate with surrounding cells, the extracellular matrix, and neighboring particles in 3D. Cells in vivo encounter a remarkably complex 3-dimensional setting at the tissue, organ, cellular stage down and beneath the micrometer range.
The 3D microfabrication by Nanoscribe has shown how this technology allows the fabrication of intricate 3D microstructures like 3D cell scaffolds. Through IP-Visio, the firm takes a move further in the invention of biocompatible 3D micro formations.
Nanoscribe’s new printing material is non-cytotoxic as stated by ISO 10993-5, the biological analysis of medical tools that examine the in vitro cytotoxicity.
As a result, IP-Visio is ideal for cell-friendly 3D scaffolds. The firm states that the material high accuracy microstructures may be fabricated to imitate high precision and realistic micro-environments.
Furthermore, IP-Visio demonstrates a very low autoluminous that is mentioned by Nanoscribe. This implies that the property enables a transparent view via the printed scaffolds. This is whereby scientists may analyze cellular pieces and processes by methods of fluorescence microscopy minus the interference of the printed compositions.