A novel, highly soluble and solution processable Fe(II) spin cross-over (SCO) coordination polymer shows an SCO temperature at T 1/2 $ 302 K. Bottom-up self-assembly of this supramolecular polymer in THF-water formed a several micron long nano-tape network. Further solution processing using a lithographically controlled wetting technique produced aligned 1D arrays of SCO nano-tape bundles.
A dual functional nanohybrid object combining photonic and magnetic properties was successfully prepared through a "bottomup" self-assembly approach. In this method, spin transition Fe(II) coordination nanoparticles and optical wave guiding organic nanorods were generated in situ and successfully integrated together in a single pot through self-assembly. The Fe(II) nanoparticles coated on organic nanorods (nanohybrids) display temperature dependent reversible spin transition (Paramagnetic; = 2 ↔ diamagnetic; = 0) behavior. The nano-hybrids show efficient optical wave guiding behavior, which demonstrates the future possibility to perform light induced excited spin state trapping (LIESST) experiments on a single spin transition nanoparticle level. These photonic and magnetic "nanohybrids" offer promising option to externally manipulate spin state of the spin transition nanoparticles using temperature as well as remote laser light.
"Sustained drug delivery systems" which are designed to accomplish long-lasting therapeutic effect are one of the challenging topics in the area of nanomedicine. We developed an innovative strategy to prepare nontoxic and polymer stabilized organic nanovesicles (diameter: 200 nm) from a novel bolaamphiphile, where two hydrogen bonding acetyl cytosine molecules connected to 4,4 -positions of the 2,6-bispyrazolylpyridine through two flexible octyne chains. The nanovesicles behave like biological membrane by spontaneously self-assembling into "pearl-like" chains and subsequently forming long nanotubes (diameter: 150 nm), which further develop into various types of network-junctions through self-organization. For drug loading and delivery applications, the nanovesicles were externally protected with biocompatible poly(ethyleneglycol)-2000 to prevent them from fusion and ensuing tube formation. Nontoxic nature of the nanovesicles was demonstrated by zebrafish teratogenicity assay. Biocompatible nanovesicles were loaded with "terfenadine" drug and successfully utilized to transport and release drug in sustained manner (up to 72 h) in zebrafish larvae, which is recognized as an emerging in vivo model system.
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