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Controlled adhesion, membrane pinning and vesicle transport by Janus particles

Chemical Communications 2022 14 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Eleanor Ewins, Eleanor Ewins, Bhuvnesh Bharti, Koohee Han, Koohee Han, Bhuvnesh Bharti, Bhuvnesh Bharti, Bhuvnesh Bharti, Orlin D. Velev Bhuvnesh Bharti, Tom Robinson, Tom Robinson, Orlin D. Velev Tom Robinson, Tom Robinson, Bhuvnesh Bharti, Bhuvnesh Bharti, Orlin D. Velev Orlin D. Velev Orlin D. Velev Bhuvnesh Bharti, Bhuvnesh Bharti, Bhuvnesh Bharti, Rumiana Dimova, Bhuvnesh Bharti, Rumiana Dimova, Orlin D. Velev

Summary

Researchers developed Janus polystyrene microparticles half-coated with iron to study controlled adhesion and encapsulation by giant vesicles used as model cell membranes, demonstrating that electrostatic charge and ferromagnetic patches enable tunable particle engulfment and magnetic manipulation of vesicle transport.

Polymers

The interactions between biomembranes and particles are key to many applications, but the lack of controllable model systems to study them limits the progress in their research. Here, we describe how Janus polystyrene microparticles, half coated with iron, can be partially engulfed by artificial cells, namely giant vesicles, with the goals to control and investigate their adhesion and degree of encapsulation. The interaction between the Janus particles and these model cell membrane systems is mediated by electrostatic charge, offering a further mode of modulation in addition to the iron patches. The ferromagnetic particle coatings also enable manipulation and transport of the vesicles by magnetic fields.

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