Multifunctional materials for lean processing of waferscale optics

IF 2.3 Q2 OPTICS
R. Houbertz, Verena Hartinger, J. Klein, M. Herder, G. Grützner, P. Dannberg
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引用次数: 1

Abstract

Abstract The continuous miniaturization of components and devices along with the increasing need of sustainability in production requires materials which can fulfill the manifold requests concerning their functionality. From an industrial point of view emphasis is on cost reduction either for the materials, the processes, or for both, along with a facilitation of processing and a general reduction of resource consumption in manufacturing. Multifunctional nanoscale materials have been widely investigated due to their tunable material properties and their ability to fulfill the increasingly growing demands in miniaturization, ease of processes, low-cost manufacturing, scalability, reliability, and finally sustainability. A material class which fulfills these requirements and is suited for integrated or waferscale optics are inorganic–organic hybrid polymers such as ORMOCER®s [ORMOCER® is registered by the Fraunhofer Gesellschaft für Angewandte Forschung e.V. and commercialized by microresist technology GmbH under license since 2003]. The combination of chemically designed multifunctional low-cost materials with tunable optical properties is very attractive for (integrated) optical and waferscale applications via a variety of different nano- and microstructuring techniques to fabricate micro- and nano-optical components, typically within less than a handful of process steps. The influence of photoinitiator and cross-linking conditions onto the optical properties of an acrylate-based inorganic–organic hybrid polymer will be discussed, and its suitability for being applied in waferscale optics is demonstrated and discussed for miniaturized multi- and single channel imaging optics.
用于晶圆级光学器件精益加工的多功能材料
元件和设备的不断小型化以及生产对可持续性的需求日益增加,要求材料能够满足其功能方面的多种要求。从工业的角度来看,重点是降低材料、工艺或两者的成本,同时促进加工和减少制造中的资源消耗。多功能纳米材料由于其可调节的材料特性以及能够满足日益增长的小型化、易于加工、低成本制造、可扩展性、可靠性和可持续性等方面的需求而受到广泛的研究。满足这些要求并适用于集成或晶圆级光学器件的一类材料是无机-有机杂化聚合物,如ORMOCER®s [ORMOCER®由Fraunhofer Gesellschaft f r Angewandte Forschung e.V.注册,并由microresist technology GmbH在2003年获得许可后商业化]。化学设计的多功能低成本材料与可调光学特性的结合对于(集成)光学和晶圆级应用非常有吸引力,通过各种不同的纳米和微结构技术来制造微纳米光学元件,通常只需不到几个工艺步骤。讨论了光引发剂和交联条件对丙烯酸酯基无机-有机杂化聚合物光学性能的影响,论证了其在晶圆级光学中的适用性,并讨论了其在小型化多通道和单通道成像光学中的应用。
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来源期刊
CiteScore
4.40
自引率
0.00%
发文量
23
期刊介绍: Advanced Optical Technologies is a strictly peer-reviewed scientific journal. The major aim of Advanced Optical Technologies is to publish recent progress in the fields of optical design, optical engineering, and optical manufacturing. Advanced Optical Technologies has a main focus on applied research and addresses scientists as well as experts in industrial research and development. Advanced Optical Technologies partners with the European Optical Society (EOS). All its 4.500+ members have free online access to the journal through their EOS member account. Topics: Optical design, Lithography, Opto-mechanical engineering, Illumination and lighting technology, Precision fabrication, Image sensor devices, Optical materials (polymer based, inorganic, crystalline/amorphous), Optical instruments in life science (biology, medicine, laboratories), Optical metrology, Optics in aerospace/defense, Simulation, interdisciplinary, Optics for astronomy, Standards, Consumer optics, Optical coatings.
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