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The [Fe(etz) 6 ](BF 4 ) 2 Spin‐Crossover System—Part One: High‐Spin ⇌ Low‐Spin Transition in Two Lattice Sites

1996; Wiley; Volume: 2; Issue: 11 Linguagem: Inglês

10.1002/chem.19960021115

1521-3765

Andreas Hauser, Philipp Gütlich, Roland Hinek, H. Spiering, Dieter Schollmeyer,

Semiconductor materials and devices

Abstract The [Fe(etz),](BF,), spin‐cross‐over system (etz = 1‐ethyl‐1 H ‐tetrazole) crystallizes in space group P 1 , with the following lattice constants at 298 K: a 10.419(3), b=15.709(1), c = 18.890(2) Å = α = 71.223(9), β =77.986(10), and γ = 84.62(1)° V = 2862.0(9) Å 3 and Z = 3. Two nonequivalent lattice sites, one without (site A) and one with (site B) inversion symmetry, are observed. The population of the two sites n A : n B is 2:l. Iron(II) on site A undergoes a thermal low‐spin (LS) → high‐spin (HS) transition with T 1/2 I, = 105 K. whereas that on site B remains in the high‐spin state down to cryogenic temperatures. Application of external pressure of up to 1200 bar between 200 and 60 K does not cause formation of the low‐spin state on site B. On site A the high‐spin state can be populated as a metastable state at 20 K by irradiating the sample with λ = 514.5 nm; on site B a light‐induced population of the low‐spin state can be achieved with λ = 820 nm.