3D微纳加工材料工程应用|Nanoscribe

3D微纳加工技术应用于材料工程领域

材料属性可以通过成分和几何设计来调整和定制。通过使用Nanoscribe的3D微纳加工解决方案，可以实现具有特定光子，机械，生物或化学特性的创新超材料和仿生微结构。

具有复杂功能设计的3D打印微纳结构

3D微纳加工可以通过结构化来创造具有可定制机械，光子或等离子体反应特性的材料。例如，利用该技术开发的圆形宽带偏振片或中红外波段吸收体等光子晶体或超材料应用。此外，机械超材料也可以通过几何设计自由度来确定损害承受能力，超轻重量以及异常扭转响应等不同机械性能。

Nanoscribe 公司的Photonic Professional GT2双光子无掩模光刻系统具备易用性和极大设计自由度的特点，可以打印亚微米级尺寸高精度结构，可应用在光子，等离激元，力学超材料和仿生纳米结构及微观结构等（例如，超疏水表面和光子结构色）。

打印材料的选择对于最终打印微纳结构的质量，功能和性能都起着至关重要的作用。打印材料决定着包括分辨率，表面粗糙度，化学性质，机械或光写性能等最终质量。Nanoscribe的IP系列光刻胶是针对双光子聚合技术和特定应用量身定制的，例如，具备生物兼容性和低自发荧光性的IP-Visio光刻胶适用于细胞显微镜应用；IP-n162光刻胶具备高折射率（n=1.62）和低吸收率的特点，适用于消色差或红外微纳光学应用。

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微纳加工创新科技

Auxetic metamaterial with a negative Poisson's ratio that laterally expands when stretched and shrinks when compressed. — 含负泊松比的拉胀超材料。在拉伸时会横向扩张，在压缩时会收缩。图片来自于S. Hengsbach, Karlsruhe Institute of Technology, A. Lantada, Univesidad Politécnica de Madrid

Metamaterial absorber in the mid-IR range — 被连续金属膜覆盖以提供外部导热的中红外范围内超材料吸收体。图片来自于Prof. Mu Wang, Nanjing Univ.

Gold-coated hollow polymer pyramid — 具有亚微米孔径的镀金空心聚合物金字塔，用于亚波长等离激元光聚焦。图片来自于Prof. Changzhi Gu, IOP, CAS

Bicontinuous ceramic-shell structure derived from a 3D-printed template before uniaxial nanomechanical compression. — 在单轴纳米机械压缩之前，从3D打印模板衍生的双连续陶瓷壳结构。图片来自于C. Portela, Massachusetts Institute of Technology, J.R. Greer et al., California Institute of Technology

Bicontinuous ceramic-shell structure derived from a 3D-printed template during uniaxial nanomechanical compression. — 在单轴纳米机械压缩之前，从3D打印模板衍生的双连续陶瓷壳结构。图片来自于C. Portela, Massachusetts Institute of Technology, J.R. Greer et al., California Institute of Technology

Photonic particle-accelerator — 由硅基3D光子晶体内部的空气波导组成的光子粒子加速器。图片来自于Wegener group, KIT

材料工程领域应用

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2022/06/27

3D Printed Microstructures Erasable by Darkness

Affiliation: School of Chemistry and Physics Queensland University of Technology (QUT), Ghent University, Heidelberg University, Karlsruhe Institute of Technology (KIT)

Journal: Advanced Functional Materials

Details

2022/06/14

Closed tubular mechanical metamaterial as lightweight load-bearing structure and energy absorber

Affiliation: National Key Laboratory of Science and Technology on Advanced Composites in Special Environments, Université Bourgogne Franche-Comté

Journal: Journal of the Mechanics and Physics of Solids

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2022/05/11

3D printed metamaterial absorbers for mid-infrared surface-enhanced spectroscopy

Affiliation: The Pennsylvania State University

Journal: Applied Physics Letters

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2022/04/26

Customizable and highly sensitive 3D micro-springs produced by two-photon polymerizations with improved post-treatment processes

Affiliation: Zhejiang University, Westlake University, East China University of Science and Technology

Journal: Applied Physics Letters

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2022/04/08

High-Resolution 3D Fabrication of Glass Fiber-Reinforced Polymer Nanocomposite (FRPN) Objects by Two-Photon Direct Laser Writing

Affiliation: University of Calabria, Universidad de Cádiz

Journal: Applied Materials & Interfaces

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2022/04/06

Attachment of bioinspired microfibrils in fluids: transition from a hydrodynamic to hydrostatic mechanism

Affiliation: INM – Leibniz Institute for New Materials, Saarland University

Journal: Journal of The Royal Society Interface

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2022/03/31

Two‐Photon Printing of Shape‐Memory Microstructures and Metasurfaces via Radical‐Mediated Thiol‐Vinyl Hydrothiolation

Affiliation: University of Rochester

Journal: Advanced Materials Technologies

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2022/03/25

Ceramicpolymer microlattices Increasing specific energy absorption through sandwich construction

Affiliation: ETH Zurich

Journal: Extreme Mechanics Letters

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2022/03/23

Water as a “glue” Elasticity-enhanced wet attachment of biomimetic microcup structures

Affiliation: INM-Leibniz Institute for New Materials, University of Illinois at Urbana-Champaign, Saarland University

Journal: Science Advances

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2022/03/21

Laser Direct Writing of Dual-Scale 3D Structures for Cell Repelling at High Cellular Density

Affiliation: National Institute for Laser, University Politehnica of Bucharest, Horia Hulubei National Institute for Physics and Nuclear Engineering IFIN-HH,

Journal: International Journal of Molecular Sciences

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