机械刺激的 3D 多细胞系统
3D微纳打印设备的非对称机械刺激,其外部由IP-PDMS制成,内部由HYDROBIO INX…
3D微纳打印设备的非对称机械刺激,其外部由IP-PDMS制成,内部由HYDROBIO INX…
卡内基梅隆大学的研究人员利用双光子聚合(2PP)3D打印技术和柔性电路板(FPCB)开发了带有静电微致动器的小型、轻便和灵活的微系统。在一系列可移动的微镜阵列中…
从左到右适用于基于双光子聚合高分辨率3D打印的Advanced…
生物超材料的有效弹性性能对于在适合的超材料基质上进行细胞培养有很大影响。最近,使用类似硅弹性体材料进行双光子光刻微纳加工取得了突破进展,实现了创建符合细胞大小和…
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2024/12/02
Nanoscribe, a global leader in high-precision 3D microfabrication, is thrilled to announce its integration into the Lab14 Group, marking a decisive step in its journey to drive innovation and serve industrial markets. This transition underscores Nanoscribe’s commitment to pushing the boundaries of microfabrication technology while leveraging synergies within a dynamic network of high-tech micro and nanotechnology companies.
2024/09/25
Nanoscribe received the ECOC Industry Award for its Quantum X align high-resolution 3D printer as the most innovative product in the "Chip-Scale Packaging / Optical Sub-Assembly" category. Jan Szabados, Product Manager at Nanoscribe, accepted the award yesterday at the ECOC 2024 exhibition in Frankfurt am Main, Germany. The Quantum X align enables printing of low-loss optical couplers that are automatically aligned to fiducials on various types of photonic chips or optical fibers.
2024/05/15
Nanoscribe and Advanced BioMatrix have joined forces to pioneer the field of bioprinting with the launch of four advanced bioresins tailored for Two-Photon Polymerization (2PP) based 3D printing. This partnership combines Nanoscribe's expertise in ultra-precise 3D printing with Advanced BioMatrix's proficiency in biomaterial development, aiming to significantly enhance bioprinting capabilities. These innovative bioresins offer unmatched precision, resolution, and versatility, providing researchers in the life sciences and biomedical fields with new opportunities for discovery and innovation to advance human health.