Nanoimprinted multifunctional nanoprobes for a homogeneous immunoassay in a top-down fabrication approach

Brueckl, Hubert; Shoshi, Astrit; Schrittwieser, Stefan; Schmid, Barbara; Schneeweiss, Pia; Mitteramskogler, Tina; Haslinger, Michael J.; Mühlberger, M.; Schotter, Joerg

doi:10.1038/s41598-021-85524-8

Cited by 3 publications

(2 citation statements)

References 47 publications

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“…Their use in cancer treatment as carriers for drug delivery and imaging contrast agents has long been reported. This is because of their distinctive performances based on their magnetic properties and nanoscale structure [22,23]. For the design of multi-functional MNPs, controlled surface engineering is critical for obtaining the required efficiency on the selected application [24].…”

Section: Fundaments Of Spions Applied To Biomedicinementioning

confidence: 99%

Biomedical Applications of Iron Oxide Nanoparticles: Current Insights Progress and Perspectives

et al. 2022

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The enormous development of nanomaterials technology and the immediate response of many areas of science, research, and practice to their possible application has led to the publication of thousands of scientific papers, books, and reports. This vast amount of information requires careful classification and order, especially for specifically targeted practical needs. Therefore, the present review aims to summarize to some extent the role of iron oxide nanoparticles in biomedical research. Summarizing the fundamental properties of the magnetic iron oxide nanoparticles, the review’s next focus was to classify research studies related to applying these particles for cancer diagnostics and therapy (similar to photothermal therapy, hyperthermia), in nano theranostics, multimodal therapy. Special attention is paid to research studies dealing with the opportunities of combining different nanomaterials to achieve optimal systems for biomedical application. In this regard, original data about the synthesis and characterization of nanolipidic magnetic hybrid systems are included as an example. The last section of the review is dedicated to the capacities of magnetite-based magnetic nanoparticles for the management of oncological diseases.

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Section: Fundaments Of Spions Applied To Biomedicinementioning

confidence: 99%

Biomedical Applications of Iron Oxide Nanoparticles: Current Insights Progress and Perspectives

et al. 2022

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“…A large volume of studies exist in the literature that have explored NIL-based technology for creating 3D nanoscale structures (Fig. 9) using various promising materials [37][38][39][40][41]. The NIL process carries simplicity, low cost and high throughput.…”

Section: (B)] [23] 3dmentioning

confidence: 99%

Review on 3D Fabrication at Nanoscale

Wang

Cai-xin

et al. 2022

AUTEX Research Journal

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Among the different nanostructures that have been demonstrated as promising materials for various applications, three–dimensional (3D) nanostructures have attracted significant attention as building blocks for constructing high-performance nanodevices because of their unusual mechanical, electrical, thermal, optical, and magnetic properties arising from their novel size effects and abundant active catalytic/reactive sites due to the high specific surface area. Considerable research efforts have been devoted to designing, fabricating, and evaluating 3D nanostructures for applications, including structural composites, electronics, photonics, biomedical engineering, and energy. This review provides an overview of the nanofabrication strategies that have been developed to fabricate 3D functional architectures with exquisite control over their morphology at the nanoscale. The pros and cons of the typical synthetic methods and experimental protocols are reviewed and outlined. Future challenges of fabrication of 3D nanostructured materials are also discussed to further advance current nanoscience and nanotechnology.

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Industrial view of plasmonic devices made by nanoimprint or injection molding

Prinz¹,

Haslinger

Mühlberger

et al. 2021

Journal of Applied Physics

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We present a perspective of the industrial realization of plasmonic devices especially for life science and in vitro diagnostic applications. The main focus is on the manufacturing technologies Nanoimprint Lithography and injection molding as scalable processes for high volume manufacturing. Both technologies have their individual strengths and technical restrictions, which are discussed along different examples for plasmonic applications especially for biosensor applications.

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Nanoimprinted multifunctional nanoprobes for a homogeneous immunoassay in a top-down fabrication approach

Cited by 3 publications

References 47 publications

Biomedical Applications of Iron Oxide Nanoparticles: Current Insights Progress and Perspectives

Biomedical Applications of Iron Oxide Nanoparticles: Current Insights Progress and Perspectives

Review on 3D Fabrication at Nanoscale

Industrial view of plasmonic devices made by nanoimprint or injection molding

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