Simon Markert
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View article: Click-Funktionalisierung bakterieller Magnetosomen für die Biomedizin
Click-Funktionalisierung bakterieller Magnetosomen für die Biomedizin Open
Magnetosomes do not only serve magnetotactic bacteria as geomagnetic field sensors but also represent a novel class of magnetic iron oxide nanoparticles with unprecedented material properties. The recent development of genetic engineering …
View article: Comparing the Colloidal Stabilities of Commercial and Biogenic Iron Oxide Nanoparticles That Have Potential In Vitro/In Vivo Applications
Comparing the Colloidal Stabilities of Commercial and Biogenic Iron Oxide Nanoparticles That Have Potential In Vitro/In Vivo Applications Open
For the potential in vitro/in vivo applications of magnetic iron oxide nanoparticles, their stability in different physiological fluids has to be ensured. This important prerequisite includes the preservation of the particles’ stability du…
View article: Long‐Term Stability, Biocompatibility, and Magnetization of Suspensions of Isolated Bacterial Magnetosomes
Long‐Term Stability, Biocompatibility, and Magnetization of Suspensions of Isolated Bacterial Magnetosomes Open
Magnetosomes are magnetic nanoparticles biosynthesized by magnetotactic bacteria. Due to a genetically strictly controlled biomineralization process, the ensuing magnetosomes have been envisioned as agents for biomedical and clinical appli…
View article: Towards standardized purification of bacterial magnetic nanoparticles for future in vivo applications
Towards standardized purification of bacterial magnetic nanoparticles for future in vivo applications Open
Bacterial magnetosomes (MS) are well-defined membrane-enveloped single-domain iron oxide (magnetite) nanoparticles, which are susceptible to genetic and chemical engineering. Additionally, the possibility to manipulate these particles by e…