2021
DOI: 10.1002/anie.202106959
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Exploring Ultrafast Photoswitching Pathways in RbMnFe Prussian Blue Analogue

Abstract: We study by femtosecond optical pump-probe spectroscopyt he photoinduced charge transfer (CT) in the RbMnFeP russian blue analogue.P revious studies evidenced the local nature of the photoinduced Mn III Fe II ! Mn II Fe III process,o ccurring within less than 1ps. Here we show experimentally that two photoswitching pathwayse xist, depending on the excitation pump wavelength, whichi sc onfirmed by band structure calculations.P hotoexcitation of a spins corresponds to the Mn(d-d) band, which drives reverse Jahn-… Show more

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Cited by 25 publications
(21 citation statements)
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“…All these XANES and optical data show that the early response of photoexcited CoFe particles does not depend on the size of the nanocrystals, which agrees with the local nature of the self-trapping process of the photoinduced CT polaron already highlighted in both CoFe and MnFe materials. [36][37][38] As previously discussed in detail for the CoFe PBA, the very rst step of the photoinduced dynamics corresponds to the light-induced excited spin-state trapping process (LIESST) on the Co. The initial photoexcited Co III* (S ¼ 0)Fe II (S ¼ 0) state populates antibonding Co(e g ) states, which drives Co-N bond expansion and the spin transition towards the Co III (S ¼ 2)Fe II (S ¼ 0).…”
Section: Ultrafast and Local Self-trapping Dynamicsmentioning
confidence: 99%
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“…All these XANES and optical data show that the early response of photoexcited CoFe particles does not depend on the size of the nanocrystals, which agrees with the local nature of the self-trapping process of the photoinduced CT polaron already highlighted in both CoFe and MnFe materials. [36][37][38] As previously discussed in detail for the CoFe PBA, the very rst step of the photoinduced dynamics corresponds to the light-induced excited spin-state trapping process (LIESST) on the Co. The initial photoexcited Co III* (S ¼ 0)Fe II (S ¼ 0) state populates antibonding Co(e g ) states, which drives Co-N bond expansion and the spin transition towards the Co III (S ¼ 2)Fe II (S ¼ 0).…”
Section: Ultrafast and Local Self-trapping Dynamicsmentioning
confidence: 99%
“…Understanding and mastering the ultra-fast photoinduced intermetallic CT process is a real challenge because it requires probing the system on the sub-100 femtosecond (fs) timescale of electronic dynamics and molecular motions, as underlined in a recent review by Johansson 34 about ultrafast studies of Fe-Fe, Co-Fe, Mn-Fe, and V-Cr PBAs. 27,28,[35][36][37] We recently used femtosecond X-ray and optical absorption spectroscopies to study the CT process in a photo-excited Co III (S ¼ 0)Fe II (S ¼ 0) material (Fig. 1).…”
Section: Introductionmentioning
confidence: 99%
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“…The situation is however quite complicated, since the electronic state of Co-Fe PBAs depends on the amount of [Fe(CN) 6 ] sites, so that it is hard to predict what that is in each specific case. Furthermore, different photoswitching pathways have been very recently demonstrated and explored also in case of a RbMnFe PBA [48], evidencing the occurrence of spin transition accompanied by a lattice distortion. On the other hand, other investigations have underlined over time the general character of this intermetallic charge transfer process in compounds where the metals are cyanide-bridged [49][50][51][52][53].…”
Section: Photoinduced Charge Transfer and Spin Transition In Pbasmentioning
confidence: 98%