新型微血管3D打印
再生医学领域的一个主要挑战是工程化组织血管化,以创建密集的微尺度血管网络,甚至为大体积组织进行灌注。通过基于双光子聚合3D打印技术的新微流体策略,允许制造出合成…
再生医学领域的一个主要挑战是工程化组织血管化,以创建密集的微尺度血管网络,甚至为大体积组织进行灌注。通过基于双光子聚合3D打印技术的新微流体策略,允许制造出合成…
我们如何才能更深入地了解人类心脏或其他器官,以便于深入研究疾病的发展并获得更好的治疗效果?或许模拟和复制所需器官的小型化芯片实验室设备会是一个高效的解决方案。我…
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…
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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.