Subas Scheibler
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View article: Superferromagnetic Disk Particles for Magnetic Particle Imaging
Superferromagnetic Disk Particles for Magnetic Particle Imaging Open
Magnetic particle imaging (MPI) offers rapid, highly sensitive tracer‐based imaging without ionizing radiation, but its clinical translation remains challenged by the limited performance of existing superparamagnetic (SP) tracers. In this …
View article: Synthetic Antiferromagnetic Designer Nanodisks for High‐Performance Magnetic Separation
Synthetic Antiferromagnetic Designer Nanodisks for High‐Performance Magnetic Separation Open
Magnetic separation of magnetic particles offers an appealing route to rapid and selective target capturing and isolation. However, to leverage such an approach to its full potential, high colloidal stability of the nanoparticles in the ab…
View article: Approaching the physical limits of specific absorption rate for synthetic antiferromagnetic nanodisks in hyperthermia applications
Approaching the physical limits of specific absorption rate for synthetic antiferromagnetic nanodisks in hyperthermia applications Open
Antiferromagnetic disk particles with optimized anisotropy achieve near-maximal heating efficiency under safe alternating magnetic field exposure, surpassing iron oxide nanoparticles and advancing magnetic hyperthermia therapy.
View article: Approaching the Physical Limits of Specific Absorption Rate in Hyperthermia Applications
Approaching the Physical Limits of Specific Absorption Rate in Hyperthermia Applications Open
Magnetic nanoparticle-based hyperthermia has emerged as a promising therapeutic modality for treating malignant solid tumors that exhibit resistance to conventional cancer treatments, including chemotherapy and radiation. Despite the clini…
View article: A rapid and specific antimicrobial resistance detection of <i>Escherichia coli via</i> magnetic nanoclusters
A rapid and specific antimicrobial resistance detection of <i>Escherichia coli via</i> magnetic nanoclusters Open
The peptide@PEG@MNCs can specifically capture E. coli from a bacterial mixture. The antimicrobial susceptibility of the captured E. coli can be analyzed thereafter by applying a sensitive luminescent probe within 30 min.
View article: Inducing In-Plane Uniaxial Anisotropies in Soft Cofeb Thin Films
Inducing In-Plane Uniaxial Anisotropies in Soft Cofeb Thin Films Open
View article: Specific capture of Pseudomonas aeruginosa for rapid detection of antimicrobial resistance in urinary tract infections
Specific capture of Pseudomonas aeruginosa for rapid detection of antimicrobial resistance in urinary tract infections Open
View article: Ultrafast Determination of Antimicrobial Resistant <i>Staphylococcus aureus</i> Specifically Captured by Functionalized Magnetic Nanoclusters
Ultrafast Determination of Antimicrobial Resistant <i>Staphylococcus aureus</i> Specifically Captured by Functionalized Magnetic Nanoclusters Open
Sepsis, the systemic response to infection, is a life-threatening situation for patients and leads to high mortality, especially when caused by antimicrobial resistant pathogens. Prompt diagnosis and identification of the pathogenic bacter…
View article: Particle interactions and their effect on magnetic particle spectroscopy and imaging
Particle interactions and their effect on magnetic particle spectroscopy and imaging Open
The effect of particle interactions on the signal stability of magnetic particle imaging (MPI) and spectroscopy is analyzed. We show that our pre-aggregated flame-made nanoparticles outperform a commercial agglomerating MPI tracer.
View article: Particle interactions and their effect on magnetic particle imaging and spectroscopy
Particle interactions and their effect on magnetic particle imaging and spectroscopy Open
Tracer and thus signal stability is crucial for an accurate diagnosis via magnetic particle imaging (MPI). However, MPI-tracer nanoparticles frequently agglomerate during their in vivo applications leading to particle interactions. Here, w…
View article: Extending the field of view of imaging behind turbid media beyond the memory effect
Extending the field of view of imaging behind turbid media beyond the memory effect Open
Fluorescent imaging behind turbid layers has recently become available using several different methods based on speckle correlations.The limited range of these speckle correlations embodied in the memory effect, however, leads to a severe …