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Following Changes at the Solid/Liquid Interface for Large Microplastic Particles by Streaming Potential

Chemistry - Methods 2025 2 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 48 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Nora Meides, Martin G. J. Löder, Christian Laforsch Nora Meides, Martin G. J. Löder, Christian Laforsch Seema Agarwal, Nora Meides, Nora Meides, Christian Laforsch Christian Laforsch Seema Agarwal, Nora Meides, Matthias B. Engelhardt, Martin G. J. Löder, Martin G. J. Löder, Nora Meides, Seema Agarwal, Seema Agarwal, Seema Agarwal, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Seema Agarwal, Nora Meides, Seema Agarwal, Martin G. J. Löder, Nora Meides, Nora Meides, Nora Meides, Christian Laforsch Georg Papastavrou, Martin G. J. Löder, Daniel Wagner, Martin G. J. Löder, Daniel Wagner, Nora Meides, Nora Meides, Christian Laforsch Nora Meides, Nora Meides, Christian Laforsch Daniel Wagner, Christian Laforsch Seema Agarwal, Christian Laforsch Christian Laforsch Daniel Wagner, Martin G. J. Löder, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Martin G. J. Löder, Martin G. J. Löder, Nora Meides, Andrea Carminati, Andrea Carminati, Nicolas Helfricht, Martin G. J. Löder, Nora Meides, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Mohsen Zarebanadkouki, Martin G. J. Löder, Martin G. J. Löder, Mohsen Zarebanadkouki, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Christian Laforsch Seema Agarwal, Seema Agarwal, Seema Agarwal, Christian Laforsch Seema Agarwal, Seema Agarwal, Seema Agarwal, Christian Laforsch Seema Agarwal, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Christian Laforsch Seema Agarwal, Martin G. J. Löder, Martin G. J. Löder, Daniel Wagner, Christian Laforsch Martin G. J. Löder, Seema Agarwal, Seema Agarwal, Seema Agarwal, Christian Laforsch Christian Laforsch Christian Laforsch Martin G. J. Löder, Martin G. J. Löder, Christian Laforsch Seema Agarwal, Martin G. J. Löder, Seema Agarwal, Christian Laforsch Martin G. J. Löder, Nora Meides, Seema Agarwal, Nora Meides, Christian Laforsch Andrea Carminati, Georg Papastavrou, Martin G. J. Löder, Mohsen Zarebanadkouki, Mohsen Zarebanadkouki, Martin G. J. Löder, Georg Papastavrou, Martin G. J. Löder, Seema Agarwal, Martin G. J. Löder, Mohsen Zarebanadkouki, Christian Laforsch Christian Laforsch Seema Agarwal, Martin G. J. Löder, Seema Agarwal, Martin G. J. Löder, Martin G. J. Löder, Seema Agarwal, Martin G. J. Löder, Nora Meides, Seema Agarwal, Mohsen Zarebanadkouki, Christian Laforsch Seema Agarwal, Christian Laforsch Nora Meides, Martin G. J. Löder, Seema Agarwal, Peter Strohriegl, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Seema Agarwal, Seema Agarwal, Seema Agarwal, Seema Agarwal, Seema Agarwal, Seema Agarwal, Seema Agarwal, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Matthias B. Engelhardt, Nora Meides, Christian Schulbert, Christian Schulbert, Andrea Carminati, Andrea Carminati, Andrea Carminati, Andrea Carminati, Peter Strohriegl, Jürgen Senker, Jürgen Senker, Jürgen Senker, Jürgen Senker, Georg Papastavrou, Georg Papastavrou, Georg Papastavrou, Georg Papastavrou, Georg Papastavrou, Georg Papastavrou, Georg Papastavrou, Georg Papastavrou, Nora Meides, Christian Laforsch Christian Laforsch Jürgen Senker, Seema Agarwal, Christian Laforsch Christian Laforsch Christian Laforsch Seema Agarwal, Seema Agarwal, Christian Laforsch Peter Strohriegl, Peter Strohriegl, Peter Strohriegl, Peter Strohriegl, Andrea Carminati, Christian Laforsch Andrea Carminati, Christian Laforsch Christian Laforsch Georg Papastavrou, Christian Laforsch Christian Laforsch Martin G. J. Löder, Christian Laforsch Jürgen Senker, Christian Laforsch Martin G. J. Löder, Seema Agarwal, Martin G. J. Löder, Christian Laforsch Jürgen Senker, Martin G. J. Löder, Seema Agarwal, Seema Agarwal, Christian Laforsch Christian Laforsch Martin G. J. Löder, Christian Laforsch Seema Agarwal, Christian Laforsch Christian Laforsch Christian Laforsch Jürgen Senker, Seema Agarwal, Christian Laforsch Jürgen Senker, Christian Laforsch Martin G. J. Löder, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Seema Agarwal, Christian Laforsch Seema Agarwal, Seema Agarwal, Martin G. J. Löder, Christian Laforsch Christian Laforsch Seema Agarwal, Georg Papastavrou, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Nicolas Helfricht, Martin G. J. Löder, Andrea Carminati, Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Peter Strohriegl, Peter Strohriegl, Peter Strohriegl, Martin G. J. Löder, Christian Laforsch Christian Laforsch Jürgen Senker, Christian Laforsch Christian Laforsch Christian Laforsch Martin G. J. Löder, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Jürgen Senker, Seema Agarwal, Christian Laforsch Seema Agarwal, Christian Laforsch Martin G. J. Löder, Seema Agarwal, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Martin G. J. Löder, Martin G. J. Löder, Christian Laforsch Martin G. J. Löder, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Peter Strohriegl, Christian Laforsch Martin G. J. Löder, Christian Laforsch Martin G. J. Löder, Christian Laforsch Jürgen Senker, Christian Laforsch Martin G. J. Löder, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Andrea Carminati, Christian Laforsch Christian Laforsch Christian Laforsch Martin G. J. Löder, Martin G. J. Löder, Christian Laforsch Peter Strohriegl, Jürgen Senker, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Martin G. J. Löder, Christian Laforsch Jürgen Senker, Christian Laforsch Christian Laforsch Martin G. J. Löder, Martin G. J. Löder, Martin G. J. Löder, Christian Laforsch Martin G. J. Löder, Martin G. J. Löder, Christian Laforsch Jürgen Senker, Jürgen Senker, Christian Laforsch Jürgen Senker, Georg Papastavrou, Jürgen Senker, Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Christian Laforsch Martin G. J. Löder, Christian Laforsch Christian Laforsch Martin G. J. Löder, Christian Laforsch

Summary

Researchers developed and evaluated streaming potential measurement as a technique for characterising the surface charge of large microplastic particles (>10 µm), a size range not well-served by conventional electrophoretic mobility methods. The approach enables prediction of microplastic adsorption and transport behaviour in natural and engineered systems.

Polymers
PS

The electrolyte/solid interface is ubiquitous in nature and for many applications. In particular, the double‐layer properties are essential for predicting adsorption and transport behavior. While for small colloidal particles, electrophoretic mobility has developed into a routine technique, there is currently a lack of analogously established techniques for particles with diameters larger than 10 microns. Such particles are often encountered in natural soils, industrial formulations, and as contaminants in the form of microplastics. Herein, a systematic method development using the streaming potential technique of particle plugs composed of large particles is presented. This approach revives an analytical method that was first introduced nearly 75 years ago, which has rarely been used for particulate systems. Comparing the zeta‐potential versus pH of polystyrene particles with varying surface functionalization demonstrated that streaming potential measurements can distinguish these surface groups. In agreement with theoretical predictions, no dependence on the particle dimensions and shape is observed. Moreover, the particle arrangement within the particle plugs has been characterized by X‐ray microtomography. The viability of this technique is tested by monitoring the artificial weathering of artificially fragmented microplastic particles of non‐spherical shape. This technique opens new possibilities for characterizing the interfacial properties of environmentally relevant microplastics.

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