Guest Modulation of Spin-Crossover Transition Temperature in a Porous Iron(II) Metal-Organic Framework: Experimental and Periodic DFT Studies

Guest Modulation of Spin-Crossover Transition Temperature in a Porous Iron(II) Metal-Organic Framework: Experimental and Periodic DFT Studies

The synthesis, structure, and magnetic properties of three clathrate derivatives of the spin‐crossover porous coordination polymer {Fe(pyrazine)[Pt(CN)4]} (1) with five‐membered aromatic molecules furan, pyrrole, and thiophene is reported. The three derivatives have a cooperative spin‐crossover tran...

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Veröffentlicht in:Chemistry : a European journal 2014-09, Vol.20 (40), p.12864-12873
Hauptverfasser: Aravena, Daniel, Castillo, Zulema Arcís, Muñoz, M. Carmen, Gaspar, Ana B., Yoneda, Ko, Ohtani, Ryo, Mishima, Akio, Kitagawa, Susumu, Ohba, Masaaki, Real, José Antonio, Ruiz, Eliseo
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Chemistry
Clathrates
Critical temperature
Density
density functional calculations
Derivatives
Diffraction
Hofmann clathrates
Magnetic properties
Mathematical analysis
Metal-organic frameworks
Phase transitions
Phases
spin-crossover compounds
Transformations
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container_end_page 12873
container_issue 40
container_start_page 12864
container_title Chemistry : a European journal
container_volume 20
creator Aravena, Daniel
Castillo, Zulema Arcís
Muñoz, M. Carmen
Gaspar, Ana B.
Yoneda, Ko
Ohtani, Ryo
Mishima, Akio
Kitagawa, Susumu
Ohba, Masaaki
Real, José Antonio
Ruiz, Eliseo
description The synthesis, structure, and magnetic properties of three clathrate derivatives of the spin‐crossover porous coordination polymer {Fe(pyrazine)[Pt(CN)4]} (1) with five‐membered aromatic molecules furan, pyrrole, and thiophene is reported. The three derivatives have a cooperative spin‐crossover transition with hysteresis loops 14–29 K wide and average critical temperatures Tc=201 K (1⋅fur), 167 K (1⋅pyr), and 114.6 K (1⋅thio) well below that of the parent compound 1 (Tc=295 K), confirming stabilization of the HS state. The transition is complete and takes place in two steps for 1⋅fur, while 1⋅pyr and 1⋅thio show 50 % spin transition. For 1⋅fur the transformation between the HS and IS (middle of the plateau) phases occurs concomitantly with a crystallographic phase transition between the tetragonal space groups P4/mmm and I4/mmm, respectively. The latter space group is retained in the subsequent transformation involving the IS and the LS phases. 1⋅pyr and 1⋅thio display the tetragonal P4/mmm and orthorhombic Fmmm space groups, respectively, in both HS and IM phases. Periodic calculations using density functional methods for 1⋅fur, 1⋅pyr, 1⋅thio, and previously reported derivatives 1⋅CS2, 1⋅I, 1⋅bz(benzene), and 1⋅pz(pyrazine) have been carried out to investigate the electronic structure and nature of the host–guest interactions as well as their relationship with the changes in the LS–HS transition temperatures of 1⋅Guest. Geometry‐optimized lattice parameters and bond distances in the empty host 1 and 1⋅Guest clathrates are in general agreement with the X‐ray diffraction data. The concordance between the theoretical results and the experimental data also comprises the guest molecule orientation inside the host and intermolecular distances. Furthermore, a general correlation between experimental Tc and calculated LS–HS electronic energy gap was observed. Finally, specific host–guest interactions were studied through interaction energy calculations and crystal orbital displacement (COD) curve analysis. The synthesis, structure, and magnetic properties of three new clathrate compounds of the spin‐crossover porous coordination polymer {Fe(pyrazine)[Pt(CN)4]} are presented (see example). A DFT analysis of the host–guest interactions and rationalization of the experimental critical temperatures observed for this family of compounds were carried out.
doi_str_mv 10.1002/chem.201402292
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The transition is complete and takes place in two steps for 1⋅fur, while 1⋅pyr and 1⋅thio show 50 % spin transition. For 1⋅fur the transformation between the HS and IS (middle of the plateau) phases occurs concomitantly with a crystallographic phase transition between the tetragonal space groups P4/mmm and I4/mmm, respectively. The latter space group is retained in the subsequent transformation involving the IS and the LS phases. 1⋅pyr and 1⋅thio display the tetragonal P4/mmm and orthorhombic Fmmm space groups, respectively, in both HS and IM phases. Periodic calculations using density functional methods for 1⋅fur, 1⋅pyr, 1⋅thio, and previously reported derivatives 1⋅CS2, 1⋅I, 1⋅bz(benzene), and 1⋅pz(pyrazine) have been carried out to investigate the electronic structure and nature of the host–guest interactions as well as their relationship with the changes in the LS–HS transition temperatures of 1⋅Guest. 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The three derivatives have a cooperative spin‐crossover transition with hysteresis loops 14–29 K wide and average critical temperatures Tc=201 K (1⋅fur), 167 K (1⋅pyr), and 114.6 K (1⋅thio) well below that of the parent compound 1 (Tc=295 K), confirming stabilization of the HS state. The transition is complete and takes place in two steps for 1⋅fur, while 1⋅pyr and 1⋅thio show 50 % spin transition. For 1⋅fur the transformation between the HS and IS (middle of the plateau) phases occurs concomitantly with a crystallographic phase transition between the tetragonal space groups P4/mmm and I4/mmm, respectively. The latter space group is retained in the subsequent transformation involving the IS and the LS phases. 1⋅pyr and 1⋅thio display the tetragonal P4/mmm and orthorhombic Fmmm space groups, respectively, in both HS and IM phases. Periodic calculations using density functional methods for 1⋅fur, 1⋅pyr, 1⋅thio, and previously reported derivatives 1⋅CS2, 1⋅I, 1⋅bz(benzene), and 1⋅pz(pyrazine) have been carried out to investigate the electronic structure and nature of the host–guest interactions as well as their relationship with the changes in the LS–HS transition temperatures of 1⋅Guest. Geometry‐optimized lattice parameters and bond distances in the empty host 1 and 1⋅Guest clathrates are in general agreement with the X‐ray diffraction data. The concordance between the theoretical results and the experimental data also comprises the guest molecule orientation inside the host and intermolecular distances. Furthermore, a general correlation between experimental Tc and calculated LS–HS electronic energy gap was observed. Finally, specific host–guest interactions were studied through interaction energy calculations and crystal orbital displacement (COD) curve analysis. The synthesis, structure, and magnetic properties of three new clathrate compounds of the spin‐crossover porous coordination polymer {Fe(pyrazine)[Pt(CN)4]} are presented (see example). A DFT analysis of the host–guest interactions and rationalization of the experimental critical temperatures observed for this family of compounds were carried out.</description><subject>Chemistry</subject><subject>Clathrates</subject><subject>Critical temperature</subject><subject>Density</subject><subject>density functional calculations</subject><subject>Derivatives</subject><subject>Diffraction</subject><subject>Hofmann clathrates</subject><subject>Magnetic properties</subject><subject>Mathematical analysis</subject><subject>Metal-organic frameworks</subject><subject>Phase transitions</subject><subject>Phases</subject><subject>spin-crossover compounds</subject><subject>Transformations</subject><issn>0947-6539</issn><issn>1521-3765</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><recordid>eNqFkU9v0zAYhyMEYmVw5YgscRmHFP-JY5vbKG1X1LJJK-xoOckb8JbExU7Y9iH4zrjtqBCXnSzrfX6P9L6_JHlN8JhgTN-XP6AdU0wyTKmiT5IR4ZSkTOT8aTLCKhNpzpk6Sl6EcI0xVjljz5MjyknGqeKj5Pd8gNCjlauGxvTWdcjV6HJju3TiXQjuF3i09qYLdjdcQ7sBb_rBA7IdMujCeTcEtPCuO1ks3qEV9KZJz_1309kSzbxp4db5mw9oeheDtoUuzpHpKnQRv66K0KfZGl32Q2UhvEye1aYJ8OrhPU6-zqbryVm6PJ8vJqfLtMyJoKlUGGQhi6zANQNppFAlY6YuKpVDppjkNQjgeSZKUkAmSGGqrFSFhIJJyXJ2nJzsvRvvfm4PoFsbSmga00FcRxMhJI6anD6O8pwpRdjO-vY_9NoNvouL7CjMmMIyUuM9VW4P7KHWm3gX4-81wXrbqd52qg-dxsCbB-1QtFAd8L8lRkDtgVvbwP0jOj05m67-laf7rA093B2yxt_oXDDB9dWXuf74WYhv_ErqJfsDoHK88g</recordid><startdate>20140926</startdate><enddate>20140926</enddate><creator>Aravena, Daniel</creator><creator>Castillo, Zulema Arcís</creator><creator>Muñoz, M. 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The three derivatives have a cooperative spin‐crossover transition with hysteresis loops 14–29 K wide and average critical temperatures Tc=201 K (1⋅fur), 167 K (1⋅pyr), and 114.6 K (1⋅thio) well below that of the parent compound 1 (Tc=295 K), confirming stabilization of the HS state. The transition is complete and takes place in two steps for 1⋅fur, while 1⋅pyr and 1⋅thio show 50 % spin transition. For 1⋅fur the transformation between the HS and IS (middle of the plateau) phases occurs concomitantly with a crystallographic phase transition between the tetragonal space groups P4/mmm and I4/mmm, respectively. The latter space group is retained in the subsequent transformation involving the IS and the LS phases. 1⋅pyr and 1⋅thio display the tetragonal P4/mmm and orthorhombic Fmmm space groups, respectively, in both HS and IM phases. Periodic calculations using density functional methods for 1⋅fur, 1⋅pyr, 1⋅thio, and previously reported derivatives 1⋅CS2, 1⋅I, 1⋅bz(benzene), and 1⋅pz(pyrazine) have been carried out to investigate the electronic structure and nature of the host–guest interactions as well as their relationship with the changes in the LS–HS transition temperatures of 1⋅Guest. Geometry‐optimized lattice parameters and bond distances in the empty host 1 and 1⋅Guest clathrates are in general agreement with the X‐ray diffraction data. The concordance between the theoretical results and the experimental data also comprises the guest molecule orientation inside the host and intermolecular distances. Furthermore, a general correlation between experimental Tc and calculated LS–HS electronic energy gap was observed. Finally, specific host–guest interactions were studied through interaction energy calculations and crystal orbital displacement (COD) curve analysis. The synthesis, structure, and magnetic properties of three new clathrate compounds of the spin‐crossover porous coordination polymer {Fe(pyrazine)[Pt(CN)4]} are presented (see example). A DFT analysis of the host–guest interactions and rationalization of the experimental critical temperatures observed for this family of compounds were carried out.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><pmid>25145295</pmid><doi>10.1002/chem.201402292</doi><tpages>10</tpages></addata></record>
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subjects Chemistry
Clathrates
Critical temperature
Density
density functional calculations
Derivatives
Diffraction
Hofmann clathrates
Magnetic properties
Mathematical analysis
Metal-organic frameworks
Phase transitions
Phases
spin-crossover compounds
Transformations
title Guest Modulation of Spin-Crossover Transition Temperature in a Porous Iron(II) Metal-Organic Framework: Experimental and Periodic DFT Studies
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