Please use this identifier to cite or link to this item: https://doi.org/10.21256/zhaw-22639
Publication type: Article in scientific journal
Type of review: Peer review (publication)
Title: Using lock-in thermography to investigate stimuli-responsive nanoparticles in complex environments
Authors: Bonmarin, Mathias
Steinmetz, Lukas
Spano, Fabrizio
Geers, Christoph
et. al: No
DOI: 10.1109/MIM.2021.9448265
10.21256/zhaw-22639
Published in: IEEE Instrumentation & Measurement Magazine
Volume(Issue): 24
Issue: 4
Page(s): 3
Pages to: 10
Issue Date: 2021
Publisher / Ed. Institution: IEEE
ISSN: 1094-6969
1941-0123
Language: English
Subject (DDC): 620: Engineering
Abstract: The use of nanoparticles (NP) has been dramatically rising in the recent years and NPs can nowadays be found in various products ranging from food to composite materials or cosmetics. Currently, the most frequently employed NP types are titania (TiO 2 ), as a typical color additive, silica (SiO 2 ), as anticoagulation agent, and silver (Ag) NPs, which are added to textiles, due to their antimicrobial properties. Because of their outstanding physical and mechanical properties, carbon-containing nanomaterials, such as graphene and carbon nanotubes, have also experienced a surge in industrially relevant applications. About 30% of the NPs are suspended in liquids, ranging from water to creams and lotions to car lubricants, followed by applications containing surface-bound (e.g., in textiles) NPs and finally nanocomposites (e.g., polymer-CNT composites). Together with biological and physiological fluids, these matrices render the detection and quantification of NPs fairly complex. The broad range of chemical and biological compositions of these environments, including pH and ionic strength, are often detrimental to the colloidal stability of NPs, potentially causing aggregation or even dissolution effects and therefore render NP analysis fairly challenging.
Further description: ​© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.
URI: https://digitalcollection.zhaw.ch/handle/11475/22639
Fulltext version: Accepted version
License (according to publishing contract): Licence according to publishing contract
Departement: School of Engineering
Organisational Unit: Institute of Computational Physics (ICP)
Appears in collections:Publikationen School of Engineering

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Bonmarin, M., Steinmetz, L., Spano, F., & Geers, C. (2021). Using lock-in thermography to investigate stimuli-responsive nanoparticles in complex environments. IEEE Instrumentation & Measurement Magazine, 24(4), 3–10. https://doi.org/10.1109/MIM.2021.9448265
Bonmarin, M. et al. (2021) ‘Using lock-in thermography to investigate stimuli-responsive nanoparticles in complex environments’, IEEE Instrumentation & Measurement Magazine, 24(4), pp. 3–10. Available at: https://doi.org/10.1109/MIM.2021.9448265.
M. Bonmarin, L. Steinmetz, F. Spano, and C. Geers, “Using lock-in thermography to investigate stimuli-responsive nanoparticles in complex environments,” IEEE Instrumentation & Measurement Magazine, vol. 24, no. 4, pp. 3–10, 2021, doi: 10.1109/MIM.2021.9448265.
BONMARIN, Mathias, Lukas STEINMETZ, Fabrizio SPANO und Christoph GEERS, 2021. Using lock-in thermography to investigate stimuli-responsive nanoparticles in complex environments. IEEE Instrumentation & Measurement Magazine. 2021. Bd. 24, Nr. 4, S. 3–10. DOI 10.1109/MIM.2021.9448265
Bonmarin, Mathias, Lukas Steinmetz, Fabrizio Spano, and Christoph Geers. 2021. “Using Lock-in Thermography to Investigate Stimuli-Responsive Nanoparticles in Complex Environments.” IEEE Instrumentation & Measurement Magazine 24 (4): 3–10. https://doi.org/10.1109/MIM.2021.9448265.
Bonmarin, Mathias, et al. “Using Lock-in Thermography to Investigate Stimuli-Responsive Nanoparticles in Complex Environments.” IEEE Instrumentation & Measurement Magazine, vol. 24, no. 4, 2021, pp. 3–10, https://doi.org/10.1109/MIM.2021.9448265.


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