Detail publikace

Variation of Spin-Transition Temperature in the Iron(III) Complex Induced by Different Compositions of the Crystallization Solvent

NEMEC, I. KOTÁSKOVÁ, L. HERCHEL, R.

Originální název

Variation of Spin-Transition Temperature in the Iron(III) Complex Induced by Different Compositions of the Crystallization Solvent

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

We crystallized the Schiff-base iron(III) spin-crossover complex [Fe(3,5Cl-L5)(NCSe)] from different two-component solvent mixtures containing methanol and chloroform (phi = V(CH3OH)/V(solvent) = 0.05, 0.25, 0.50, 0.83, and 1.00). The obtained crystalline products were characterized by X-ray diffraction, and it was confirmed that they are all composed of the same crystalline phase, and they do not contain any crystal solvent. However, significant differences in magnetic properties were observed, and thermal hysteresis changed from (in K) 121T down arrow and 134T up arrow for phi = 0.05 and 0.25, down to 72T down arrow and 96T up arrow for phi = 1.00. The crystal structures of the low-spin and high-spin phases were studied theoretically and experimentally.

Klíčová slova

Crystal structure; Crystallization; Crystals; Diffraction; Solvents

Autoři

NEMEC, I.; KOTÁSKOVÁ, L.; HERCHEL, R.

Vydáno

1. 3. 2023

Nakladatel

American Chemical Society

Místo

WASHINGTON

ISSN

1528-7505

Periodikum

Crystal Growth and Design

Ročník

23

Číslo

3

Stát

Spojené státy americké

Strany od

1323

Strany do

1329

Strany počet

7

URL

Plný text v Digitální knihovně

BibTex

@article{BUT184146,
  author="Ivan {Nemec} and Lucie {Kotásková} and Radovan {Herchel}",
  title="Variation of Spin-Transition Temperature in the Iron(III) Complex Induced by Different Compositions of the Crystallization Solvent",
  journal="Crystal Growth and Design",
  year="2023",
  volume="23",
  number="3",
  pages="1323--1329",
  doi="10.1021/acs.cgd.2c01411",
  issn="1528-7505",
  url="https://pubs.acs.org/doi/10.1021/acs.cgd.2c01411"
}