NanoMOF‐Based Multilevel Anti‐Counterfeiting by a Combination of Visible and Invisible Photoluminescence and Conductivity
Maxeiner M, Maile R, Cuvalli M, Wolf A, Komal A, Oestreich R, Janiak C, Mandel K, Knebel A, Mueller-Buschbaum K (2025)
Publication Type: Journal article
Publication year: 2025
Journal
Abstract
This study presents nanosized metal-organic framwork (nanoMOF)-based multifunctional mixed-matrix-membranes (MMMs) and composite powders as extremely sensitive responder materials for a responder-stimulus based multilevel anti-counterfeiting. The physicochemical properties of nanoMOF-based composites offer a wide operational range as anti-counterfeiting tags. Nine responder materials are presented, constituted of trivalent lanthanide-containing nanoMOFs ([Ln3(bdc)4.5(H2O)3(dmf)2] (nLn-bdc); bdc2−═benzene-1,4-dicarboxylate; Ln═Eu, Tb, Yb) and polystyrene sulfonate, pyrolyzed resorcinol-formaldehyde and polysulfone as matrices. These materials inherit distinct properties, and their combination provides visible and near-infrared light emission and specific conductivity for multiple security level anti-counterfeiting. The additive and interdependent nature of security features in the developed anti-counterfeiting materials ensures that altering one feature will invariably affect others, thereby reinforcing the overall integrity and resilience of the security mechanism. Even the pitch-black composites of nLn-bdc and pyrolyzed resorcinol-formaldehyde show bright light emission to the near-infrared range, when stimulated by UV-light being suitable for black materials. This work also describes a matrix-based active contribution as security feature to an anti-counterfeiting tag, instead of being solely used as a carrier for the security feature-bearing nanoMOFs. The combination of multiple levels of security by different properties marks these multifunctional composites as anti-counterfeiting materials being complicated to copy including a proof-of-principle experiment.
Authors with CRIS profile
Andreas Wolf
Professur für Anorganische Chemie
Karl Mandel
Lehrstuhl für Partikelbasierte Materialchemie
Additional Organisation(s)
Involved external institutions
Justus-Liebig-Universität Gießen
Germany (DE)
Heinrich-Heine-Universität Düsseldorf
Germany (DE)
Friedrich-Schiller-Universität Jena
Germany (DE)
Julius-Maximilians-Universität Würzburg
Germany (DE)
Germany (DE)
Heinrich-Heine-Universität Düsseldorf
Germany (DE)
Friedrich-Schiller-Universität Jena
Germany (DE)
Julius-Maximilians-Universität Würzburg
Germany (DE)
How to cite
APA:
Maxeiner, M., Maile, R., Cuvalli, M., Wolf, A., Komal, A., Oestreich, R.,... Mueller-Buschbaum, K. (2025). NanoMOF‐Based Multilevel Anti‐Counterfeiting by a Combination of Visible and Invisible Photoluminescence and Conductivity. Advanced Functional Materials. https://doi.org/10.1002/adfm.202500794
MLA:
Maxeiner, Moritz, et al. "NanoMOF‐Based Multilevel Anti‐Counterfeiting by a Combination of Visible and Invisible Photoluminescence and Conductivity." Advanced Functional Materials (2025).
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