| Literature DB >> 31633857 |
Yi Shan Ye1, Xiu Qin Chen1, You De Cai1, Bin Fei1, Pierre Dechambenoit2, Mathieu Rouzières2, Corine Mathonière3, Rodolphe Clérac2, Xin Bao1.
Abstract
A mononuclear FeII complex that shows a high-spin (S=2) paramagnetic behavior at all temperatures (with standard temperature-scan rates, ≈1 K min-1 ) has, in fact, a low-spin (S=0) ground state below 100 K. This low-spin state is not easily accessible due to the extremely slow dynamics of the spin-crossover process-a full relaxation from the metastable high-spin state to the low-spin ground state takes more than 5 h below 80 K. Bidirectional photo-switching of the FeII state is achieved reproducibly by two selective irradiations (at 530-590 and 830-850 nm). The slow dynamics of the spin-crossover and the strong structural cooperativity result in a remarkably wide 95-K hysteresis loop induced by both temperature and selected light stimuli.Entities:
Keywords: Iron(II); photo-induced bistability; slow dynamics; spin-crossover; thermally-induced bistability
Year: 2019 PMID: 31633857 DOI: 10.1002/anie.201911538
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336