Jeon Soo Shin

TL;DR: The development of a synthetically controlled magnetic nanocrystal model system that correlates the nanoscale tunabilities in terms of size, magnetism, and induced nuclear spin relaxation processes led to the development of high-performance Nanocrystal-antibody probe systems for the diagnosis of breast cancer cells via magnetic resonance imaging.

TL;DR: This study finds that high performance in vivo MR diagnosis of cancer is achievable by utilizing improved and multifunctional material properties of iron oxide nanocrystal probes.

TL;DR: A novel material that incorporates zinc-doped iron oxide nanocrystals within a mesoporous silica framework that has been surface-modified with pseudorotaxanes is described, which promises to be a noninvasive, externally controlled drug delivery system with cancer-killing properties.

TL;DR: It is visualize that cube has higher magnetization value than sphere with highest coercivity at 60 nm, and its hybridization into core-shell (CS) structure brings about a 14-fold increase in the coercivity with an exceptional energy conversion of magnetic field into thermal energy, the largest reported to date.

TL;DR: The strategy for the development of the next generation of nanoprobes has been to fuse multiple fluorescent dyes and multiple magnetic nanoparticles into a single nanoprobe that provides superior fluorescence and MR imaging capabilities through the synergistic enhancement of its respective components.