nanoPrint X软件用于对准3D打印设计
针对对准双光子光刻技术,Nanoscribe推出了一款高效灵活的软件工具nanoPrintX。该软件基础场景图概念提供了所有与打印相关的对象和操作的分层组织;直…
针对对准双光子光刻技术,Nanoscribe推出了一款高效灵活的软件工具nanoPrintX。该软件基础场景图概念提供了所有与打印相关的对象和操作的分层组织;直…
贝塞尔光束从其被发现开始,由于其比光学中典型的高斯光束具有特殊的优势,拥有独特的无衍射和自恢复特性,引起了科学界极大的兴趣。这些特性也就意味着光束在被物体部分阻…
Nanoscribe 推出全新 IPX-M光敏聚合物打印材料,用于高吞吐量宏观尺度打印,实现一次打印高达 30 立方厘米的打印量。 IPX-M 专为…
一种全新的微纳加工概念推动了微流体系统中颗粒的可扩展性和连续加工制造和组装。德国亚琛工业大学的科学家们利用Nanoscribe公司2PP三维打印技术开发并展示了…
我们保持发布关于Nanocribe和全球3D微纳加工的新闻。
我们也很高兴与您讨论进一步的新闻活动 -请直接与我们联系!
2022/04/25
Nanoscribe, a BICO company, will present its key solutions for microoptics and photonics this week at LASER World of PHOTONICS in Munich, Germany. At the world’s leading exhibition for photonic components, systems and applications, Nanoscribe will showcase the latest achievements of its microfabrication technologies in terms of performance and alignment for advanced applications in integrated photonics, photonic packaging and microoptics. In addition to its regular booth (341, hall A5), Nanoscribe is also part of the first World of QUANTUM, a new exhibition area highlighting enabling technologies for quantum technologies and its exciting applications.
2022/03/09
Nanoscribe, a BICO company, introduces the Extra Large Features (XLF) Print Set, to expand the manufacturing range for its high-precision 3D printer Quantum X shape from nano- and microscale structures to millimeter- and centimeter-sized objects, while maintaining particularly complex structures and filigree details. But above all, the new XLF Print Set speeds up high-precision 3D printing many times over, making Quantum X shape the preferred choice for batch production of voluminous millimeter- and even centimeter-sized objects for the first time.
2022/01/26
Nanoscribe, a BICO company, and the Dutch photonics packaging foundry PHIX B.V. have announced a collaboration to provide on-fiber printing services to the photonic packaging industry. With Nanoscribe’s new high-performance 3D microlens printing technology with nano-precision alignment capabilities, PHIX relies on this new technological approach in their manufacturing services of standard lensed fiber arrays (LFAs). The PHIX service portfolio will then contain the manufacturing of Free Space Microoptical Coupling (FSMOC) components printed directly on fiber arrays and photonic integrated circuits (PICs). This extends PHIX’s portfolio for bringing hybrid integration into mass production.