Octacyanidotungstate(IV) Coordination Chains Demonstrate a Light‐Induced Excited Spin State Trapping Behavior and Magnetic Exchange Photoswitching

Octacyanidotungstate(IV) Coordination Chains Demonstrate a Light‐Induced Excited Spin State Trapping Behavior and Magnetic Exchange Photoswitching

A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV) is observed on irradiation with 436 nm light, while no such behavior is observed for the NbIV analogue. A photomagnetic response based solely on [WIV(CN)8]4− is demonstrated for t...

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Published in:Angewandte Chemie International Edition Vol. 56; no. 43; pp. 13283 - 13287
Main Authors: Magott, Michał, Stefańczyk, Olaf, Sieklucka, Barbara, Pinkowicz, Dawid
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 16-10-2017
Edition:International ed. in English
Subjects:
Chains
Irradiation
LIESST
molecular magnets
octacyanidometalates
photomagnetism
photoswitching
Radiation
Trapping
octacyanidometalates
LIESST
molecular magnets
photomagnetism
photoswitching
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Abstract A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV) is observed on irradiation with 436 nm light, while no such behavior is observed for the NbIV analogue. A photomagnetic response based solely on [WIV(CN)8]4− is demonstrated for the first time. The observed behavior is attributed to the light‐induced excited spin state trapping (LIESST) effect at the octacyanidometalate, and to the resulting magnetic exchange ON/OFF photoswitching between the MnII center and the photoinduced high‐spin (S=1) WIV or MoIV centers. Let it shine! Octacyanidotungstate(IV) demonstrates a light‐induced excited spin state trapping photomagnetic effect that can be used to produce very strong magnetic exchange photoswitching functionality in various bimetallic coordination polymers.
AbstractList A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV ) is observed on irradiation with 436 nm light, while no such behavior is observed for the NbIV analogue. A photomagnetic response based solely on [WIV (CN)8 ]4- is demonstrated for the first time. The observed behavior is attributed to the light-induced excited spin state trapping (LIESST) effect at the octacyanidometalate, and to the resulting magnetic exchange ON/OFF photoswitching between the MnII center and the photoinduced high-spin (S=1) WIV or MoIV centers.
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV) is observed on irradiation with 436 nm light, while no such behavior is observed for the NbIV analogue. A photomagnetic response based solely on [WIV(CN)8]4− is demonstrated for the first time. The observed behavior is attributed to the light‐induced excited spin state trapping (LIESST) effect at the octacyanidometalate, and to the resulting magnetic exchange ON/OFF photoswitching between the MnII center and the photoinduced high‐spin (S=1) WIV or MoIV centers. Let it shine! Octacyanidotungstate(IV) demonstrates a light‐induced excited spin state trapping photomagnetic effect that can be used to produce very strong magnetic exchange photoswitching functionality in various bimetallic coordination polymers.
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (W IV and Mo IV ) is observed on irradiation with 436 nm light, while no such behavior is observed for the Nb IV analogue. A photomagnetic response based solely on [W IV (CN) 8 ] 4− is demonstrated for the first time. The observed behavior is attributed to the light‐induced excited spin state trapping (LIESST) effect at the octacyanidometalate, and to the resulting magnetic exchange ON/OFF photoswitching between the Mn II center and the photoinduced high‐spin ( S =1) W IV or Mo IV centers.
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (W and Mo ) is observed on irradiation with 436 nm light, while no such behavior is observed for the Nb analogue. A photomagnetic response based solely on [W (CN) ] is demonstrated for the first time. The observed behavior is attributed to the light-induced excited spin state trapping (LIESST) effect at the octacyanidometalate, and to the resulting magnetic exchange ON/OFF photoswitching between the Mn center and the photoinduced high-spin (S=1) W or Mo centers.
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV) is observed on irradiation with 436nm light, while no such behavior is observed for the NbIV analogue. A photomagnetic response based solely on [WIV(CN)8]4- is demonstrated for the first time. The observed behavior is attributed to the light-induced excited spin state trapping (LIESST) effect at the octacyanidometalate, and to the resulting magnetic exchange ON/OFF photoswitching between the MnII center and the photoinduced high-spin (S=1) WIV or MoIV centers.
Author Sieklucka, Barbara
Magott, Michał
Stefańczyk, Olaf
Pinkowicz, Dawid
Author_xml – sequence: 1
  givenname: Michał
  surname: Magott
  fullname: Magott, Michał
  organization: Jagiellonian University
– sequence: 2
  givenname: Olaf
  surname: Stefańczyk
  fullname: Stefańczyk, Olaf
  organization: The University of Tokyo
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  givenname: Barbara
  surname: Sieklucka
  fullname: Sieklucka, Barbara
  organization: Jagiellonian University
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  givenname: Dawid
  orcidid: 0000-0002-9958-3116
  surname: Pinkowicz
  fullname: Pinkowicz, Dawid
  email: dawid.pinkowicz@uj.edu.pl
  organization: Jagiellonian University
BackLink https://www.ncbi.nlm.nih.gov/pubmed/28770580$$D View this record in MEDLINE/PubMed
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Issue 43
Keywords octacyanidometalates
LIESST
molecular magnets
photomagnetism
photoswitching
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Snippet A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV) is observed on irradiation with 436 nm...
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (W and Mo ) is observed on irradiation with 436 nm...
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (W IV and Mo IV ) is observed on irradiation with 436...
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV) is observed on irradiation with 436nm...
A huge increase in the magnetization of two coordination chains based on tetravalent octacyanidometalates (WIV and MoIV ) is observed on irradiation with 436...
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SubjectTerms Chains
Irradiation
LIESST
molecular magnets
octacyanidometalates
photomagnetism
photoswitching
Radiation
Trapping
Title Octacyanidotungstate(IV) Coordination Chains Demonstrate a Light‐Induced Excited Spin State Trapping Behavior and Magnetic Exchange Photoswitching
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fanie.201703934
https://www.ncbi.nlm.nih.gov/pubmed/28770580
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