Micro‐Optics 3D Printed via Multi‐Photon Laser Lithography [PDF]
Advanced Optical Materials, 2022 The field of 3D micro‐optics is rapidly expanding, and essential advances in femtosecond laser direct‐write 3D multi‐photon lithography (MPL, also known as two‐photon or multi‐photon polymerization) are being made. Micro‐optics realized via MPL emerged a
Diana Gonzalez‐Hernandez +4 more
semanticscholar +5 more sources
Optics Express, 2022 This publisher's note contains a correction to [Opt. Express30, 28805 (2022)10.1364/OE.462775].
Sharon Jeffress
semanticscholar +7 more sources
Towards efficient structure prediction and pre-compensation in multi-photon lithography [PDF]
Optics Express, 2022 Microscale 3D printing technologies have been of increasing interest in industry and research for several years. Unfortunately, the fabricated structures always deviate from the respective expectations, often caused by the physico-chemical properties ...
Nicolas Lang +3 more
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Frontiers of Laser‐Based 3D Printing: A Perspective on Multi‐Photon Lithography [PDF]
Laser & Photonics ReviewsLasers are instrumental in enabling precise processing and fostering the development of new technologies. Particularly, ultrafast lasers, due to their unique interaction with matter, can achieve not only exceptional spatial precision but also ...
Gordon Zyla, Maria Farsari
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Film‐Based Multi‐Photon Lithography for Efficient Printing of Electromagnetic Surface Structures
Advanced Materials TechnologiesThis study introduces an approach, termed film‐based multi‐photon lithography (MPL), for the efficient fabrication of electromagnetic surface structures. Unlike conventional MPL, which utilizes droplet‐shaped photosensitive volumes for the fabrication of
Gordon Zyla +6 more
semanticscholar +6 more sources
Nearly arbitrary terahertz metamaterials by conformal metallization on multi-photon lithography
Optics LettersThe advent of 5G/6G terahertz era brings an escalating demand for complexity-increasing function-integrated terahertz (THz) metamaterials beyond film-like in-plane ones.
Tao, Yufeng +6 more
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Applied Physics A, 2022 Photopolymerization of (meth)acrylate-based formulations has become a widespread method for industry due to the high energy efficiency and low curing times of this technology. Various products from simple coatings to more complex applications such as additive manufacturing technologies are based on this versatile method.
Dimitra Ladika +7 more
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Strip-loaded waveguides on thin-film lithium niobate realized via multi-photon lithography
Optics ExpressIntegrated photonics play a pivotal role in the advancement of photonic systems in the future. The key to this lies in the research and development of novel materials and fabrication techniques.
Alexandra Rittmeier +10 more
semanticscholar +3 more sources
In Situ Control of Reactive Mesogens Alignment During 3D Printing by Two‐Photon Lithography [PDF]
Advanced SciencePhotopolymerizable liquid crystals, also known as reactive mesogens, are leading candidates for additive manufacturing of smart microdevices via two‐photon lithography (TPL). While substantial advancements are made toward innovative applications, precise
Tiziana Ritacco +4 more
doaj +3 more sources
High- and Low-Fluorescent Photoinitiators for Multi-Photon Lithography: A Study on their Multi-Photon Absorption Properties Towards Optimized Laser-Based Polymerization [PDF]
Abstract Multi-photon lithography (MPL), an additive manufacturing method, enables the fabrication of intricate three-dimensional micro- and nanostructures with high spatial resolution, crucial for applications in photonics, micro-optics, and biomedicine.
Ladika D +7 more
europepmc +3 more sources