Philipp Groppe scite author profile

In the course of globalization, tracking of material supply chains and product protection against counterfeiting is a topic of increasing relevance. The labeling of raw materials or product components with encoded microstructures may therefore ensure their reliable and tamper-proof identification. In this work, luminescent lanthanide doped calcium fluoride nanoparticles with characteristic optical properties are assembled to micrometer-sized supraparticles via spray-drying. By wise selection of these nanoscale building blocks, it is possible to create spectrally encoded microparticles. Their code relies on the relative emission intensities of the different luminescent nanoparticles and their concentration ratios within the supraparticle. Due to this strategy, we offer a nanoscale modular approach for an easily adjustable and simple creation of ratiometric luminescence-encoded microparticles for the tamper-proof marking of objects.

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Supraparticles for Sustainability

Wintzheimer

Reichstein

Groppe

et al. 2021

Adv Funct Materials

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The indispensable transformation to a (more) sustainable human society on this planet heavily relies on innovative technologies and advanced materials. The merits of nanoparticles (NPs) in this context are demonstrated widely during the last decades. Yet, it is believed that the impact of particle‐based nanomaterials to sustainability can be even further enhanced: taking NPs as building blocks enables the creation of more complex entities, so‐called supraparticles (SPs). Due to their evolving phenomena coupling, emergence, and colocalization, SPs enable completely new material functionalities. These new functionalities in SPs can be utilized to render six fields, essential to human life as it is conceived, more sustainable. These fields, selected based on an entropy‐rate‐related definition of sustainability, are as follows: 1) purification technologies and 2) agricultural delivery systems secure humans “fundamental needs.” 3) Energy storage and conversion, as well as 4) catalysis enable the “basic comfort.” 5) Extending materials lifetime and 6) bringing materials back in use ensure sustaining “modern life comfort.” In this review article, a perspective is provided on why and how the properties of SPs, and not simply properties of individual NPs or conventional bulk materials, may grant attractive alternative pathways in these fields.

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Core–Satellite Supraparticles To Ballistically Stamp Nanostructures on Surfaces

Oppmann

Miller

Thürauf

et al. 2018

ACS Appl. Mater. Interfaces

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Nanostructured surfaces are of great importance in a very wide range of fields. They can be obtained by imprint or deposition techniques. However, these are usually sophisticated to perform. Generally, it is not easy to equip an object/product with a nanostructure after manufacturing. Yet, it would be very beneficial to achieve a modification of an arbitrary surface with a nanostructure of choice at a later stage by an approach that is simple to perform without the need of sophisticated equipment or excessive treatment by physicochemical methods. Herein, such a process is reported, which combines two "old-fashioned" techniques, namely, sandblasting and rubber-stamping, and translates them to the "nanoworld". By creating core-satellite supraparticles via spray-drying, a ballistic core-satellite stamp particle system is obtained, which can be used to easily transfer a wide range of nanoparticles to a great variety of surfaces to equip these with a nanostructure and subsequently advanced properties. These include water-repellant, antifouling, or antidust surfaces. Moreover, it is also demonstrated that the approach can be used to manufacture well-defined nanoimprinted surfaces. Such surfaces showed an improved spreading behavior for aliphatic alcohols, thus making such surfaces, for instance, very susceptible for disinfectants. All in all, the simple technique described herein has a great potential for creating nanostructured surfaces on nearly any surface.

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Supraparticles for naked-eye H2 indication and monitoring: Improving performance by variation of the catalyst nanoparticles

Zhang

Schötz

Reichstein

et al. 2023

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The recent transition to H2-based energy storage demands for reliable H2 sensors that allow for easy, fast, and reliable detection of leaks. Conventional H2 detectors are based on the H2 probes of changes of physical properties induced by subsurface H-atoms to a material, such as electrical conductivity. Herein, we report on highly reactive gasochromic H2 detectors based on the adsorption of H2 on the material surface. We prepared supraparticles (SPs) containing different types of noble metal nanoparticles (NPs), silica NPs, and the dye resazurin by spray‑drying and tested their performance for H2 detection. The material undergoes a distinct color change due to the hydrogenation of the purple resazurin to pink resorufin and, finally, colorless hydroresorufin. The step-wise transition is fast and visible to the naked eye. To improve further the performance of the sensor, we tested the reactivity of SPs with different catalytically active NPs by means of in situ DRIFTS. We show that choice of the NP catalyst has a pronounced effect on the response of the H2 indicator. In addition, we demonstrate that the performance depends on the size of the NPs. These effects are attributed to the availability of reactive H‑atoms on the NP surface. Among the materials studied, Pt-containing SPs gave the best results for H2 detection.

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Real-time monitoring of magnetic nanoparticle-assisted nanoplastic agglomeration and separation from water

Groppe

Wintzheimer

Eigen

et al. 2022

Environ. Sci.: Nano

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Philipp Groppe

Luminescent Supraparticles Based on CaF₂–Nanoparticle Building Blocks as Code Objects with Unique IDs

Supraparticles for Sustainability

Core–Satellite Supraparticles To Ballistically Stamp Nanostructures on Surfaces

Supraparticles for naked-eye H2 indication and monitoring: Improving performance by variation of the catalyst nanoparticles

Real-time monitoring of magnetic nanoparticle-assisted nanoplastic agglomeration and separation from water

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About

Philipp Groppe

Luminescent Supraparticles Based on CaF2–Nanoparticle Building Blocks as Code Objects with Unique IDs

Supraparticles for Sustainability

Core–Satellite Supraparticles To Ballistically Stamp Nanostructures on Surfaces

Supraparticles for naked-eye H2 indication and monitoring: Improving performance by variation of the catalyst nanoparticles

Real-time monitoring of magnetic nanoparticle-assisted nanoplastic agglomeration and separation from water

Contact Info

Product

Resources

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Luminescent Supraparticles Based on CaF₂–Nanoparticle Building Blocks as Code Objects with Unique IDs