Thermal decomposition of [Co(en)3][Fe(CN)6]∙ 2H2O: Topotactic dehydration process, valence and spin exchange mechanism elucidation

Abstract: BackgroundThe Prussian blue analogues represent well-known and extensively studied group of coordination species which has many remarkable applications due to their ion-exchange, electron transfer or magnetic properties. Among them, Co-Fe Prussian blue analogues have been extensively studied due to the photoinduced magnetization. Surprisingly, their suitability as precursors for solid-state synthesis of magnetic nanoparticles is almost unexplored.In this paper, the mechanism of thermal decomposition of [Co(en)… Show more

“…The typical sharp and strong peak at 2160 cm −1 corresponding to the C≡N stretching vibration and weak C−N is observed at 1378 cm −1 . The C≡N signal is shifted to high frequency in comparison to K 2 Ni(CN) 4 due to its connection to metal atoms and removal of electrons from weak orbital ,. Several peaks at 3600, 3500–3000 and 1630 cm −1 indicate that water molecules exist in the compound.…”

Graphene‐Wrapped Nanoporous Nickel‐Cobalt Oxide Flakes for Electrochemical Supercapacitors

“…The typical sharp and strong peak at 2160 cm −1 corresponding to the C≡N stretching vibration and weak C−N is observed at 1378 cm −1 . The C≡N signal is shifted to high frequency in comparison to K 2 Ni(CN) 4 due to its connection to metal atoms and removal of electrons from weak orbital ,. Several peaks at 3600, 3500–3000 and 1630 cm −1 indicate that water molecules exist in the compound.…”

Graphene‐Wrapped Nanoporous Nickel‐Cobalt Oxide Flakes for Electrochemical Supercapacitors

Thermal properties of four Co/Fe complexes based on amine-type and cyanido ligands

Thermal decomposition of iron cyano complexes in an inert atmosphere