Reseacher at National institute for materials science (NIMS), Japan|Chemistry in Confined space of MOFs||precision molecular recognition||2D MOF materials
Happy to share our latest work, now published in Nature!
Ligand-enabled remote C–H activation converts abundant saturated fatty acids into desaturated lactones.
https://t.co/cCpMO9idcM
https://t.co/Yl6ERXsAPG
Thanks to @NandanNilekani Foundation, @ANRFIndia@iitbombay@dm_lab
Polystyrene pyrolysis using MOFs―#Polystyrene is one of the most common and abundant plastic materials, yet the chemical structure of this polymer hampers the implementation of chemical recycling. Now, Tatsumi, Uemura et al. report in @J_A_C_S a method for highly efficient thermal depolymerization of polystyrene mediated by nanoporous metal–organic frameworks (#MOFs). Nanoconfinement of polystyrene within a MOF enables the consolidation of complex degradation pathways in the nanochannels, restraining the formation of undesirable heavy-oil components composed of styrene oligomers and more selectively generating styrene monomers. Full article:
https://t.co/1H6eorWAZ8
Applications for the NIMS Graduate Research Assistantship (NIMS Junior) are open (deadline May 14)! To enroll in the Kyushu Univ.–NIMS Joint Graduate Program and conduct research under my supervision, applying for this assistantship is the first step.
https://t.co/iweyYldt93
In Situ Insights into Enhanced Cooperative Ligand Exchange Kinetics via Solvent-Induced Restacking in a 2D Metal–Organic Framework | Journal of the American Chemical Society https://t.co/hEKoNQQBED
Hi all💥! The power of SCSC guest exchange/inclusion! Another step on CS method! Interesting paper 👉Automated Nanocrystalline Sponge Workflow Enabled by 3D Electron Diffraction | Journal of the American Chemical Society https://t.co/fLqAy7vi49