Mn12-Acetate Complexes Studied as Single Molecules

Matthias Tombers; Jennifer Meyer; Jonathan Meyer; Arkadiusz Lawicki; Vicente Zamudio-Bayer; Konstantin Hirsch; J. Tobias Lau; Bernd von Issendorff; Akira Terasaki; Thomas A. Schlathölter; Ronnie A. Hoekstra; Sebastian Schmidt; Annie K. Powell; Eva Kessler; Marc H. Prosenc; Christoph van Wüllen; Gereon Niedner-Schatteburg

doi:10.1002/chem.202102592

Mn₁₂-Acetate Complexes Studied as Single Molecules

Matthias Tombers, Jennifer Meyer, Jonathan Meyer, Arkadiusz Lawicki, Vicente Zamudio-Bayer, Konstantin Hirsch, J. Tobias Lau, Bernd von Issendorff, Akira Terasaki, Thomas A. Schlathölter, Ronnie A. Hoekstra, Sebastian Schmidt, Annie K. Powell, Eva Kessler, Marc H. Prosenc, Christoph van Wüllen, Gereon Niedner-Schatteburg

物理化学

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

1 被引用数 (Scopus)

抄録

The phenomenon of single molecule magnet (SMM) behavior of mixed valent Mn₁₂ coordination clusters of general formula [Mn^III₈Mn^IV₄O₁₂(RCOO)₁₆(H₂O)₄] had been exemplified by bulk samples of the archetypal [Mn^III₈Mn^IV₄O₁₂(CH₃COO)₁₆(H₂O)₄] (4) molecule, and the molecular origin of the observed magnetic behavior has found support from extensive studies on the Mn₁₂ system within crystalline material or on molecules attached to a variety of surfaces. Here we report the magnetic signature of the isolated cationic species [Mn₁₂O₁₂(CH₃COO)₁₅(CH₃CN)]⁺ (1) by gas phase X-ray Magnetic Circular Dichroism (XMCD) spectroscopy, and we find it closely resembling that of the corresponding bulk samples. Furthermore, we report broken symmetry DFT calculations of spin densities and single ion tensors of the isolated, optimized complexes [Mn₁₂O₁₂(CH₃COO)₁₅(CH₃CN)]⁺ (1), [Mn₁₂O₁₂(CH₃COO)₁₆] (2), [Mn₁₂O₁₂(CH₃COO)₁₆(H₂O)₄] (3), and the complex in bulk geometry [Mn^III₈Mn^IV₄O₁₂(CH₃COO)₁₆(H₂O)₄] (5). The found magnetic fingerprints – experiment and theory alike – are of a remarkable robustness: The Mn^IV₄ core bears almost no magnetic anisotropy while the surrounding Mn^III₈ ring is highly anisotropic. These signatures are truly intrinsic properties of the Mn₁₂ core scaffold within all of these complexes and largely void of the environment. This likely holds irrespective of bulk packing effects.

本文言語	英語
論文番号	e202102592
ジャーナル	Chemistry - A European Journal
巻	28
号	2
DOI	https://doi.org/10.1002/chem.202102592
出版ステータス	出版済み - 1月 10 2022

!!!All Science Journal Classification (ASJC) codes

触媒
有機化学

文献へのアクセス

10.1002/chem.202102592

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引用スタイル

Tombers, M., Meyer, J., Meyer, J., Lawicki, A., Zamudio-Bayer, V., Hirsch, K., Lau, J. T., von Issendorff, B., Terasaki, A., Schlathölter, T. A., Hoekstra, R. A., Schmidt, S., Powell, A. K., Kessler, E., Prosenc, M. H., van Wüllen, C., & Niedner-Schatteburg, G. (2022). Mn₁₂-Acetate Complexes Studied as Single Molecules. Chemistry - A European Journal, 28(2), [e202102592]. https://doi.org/10.1002/chem.202102592

Tombers, M, Meyer, J, Meyer, J, Lawicki, A, Zamudio-Bayer, V, Hirsch, K, Lau, JT, von Issendorff, B, Terasaki, A, Schlathölter, TA, Hoekstra, RA, Schmidt, S, Powell, AK, Kessler, E, Prosenc, MH, van Wüllen, C & Niedner-Schatteburg, G 2022, 'Mn₁₂-Acetate Complexes Studied as Single Molecules', Chemistry - A European Journal, vol. 28, no. 2, e202102592. https://doi.org/10.1002/chem.202102592

@article{fae75b81a6084b4bb69dcca8aee44470,

title = "Mn12-Acetate Complexes Studied as Single Molecules",

abstract = "The phenomenon of single molecule magnet (SMM) behavior of mixed valent Mn12 coordination clusters of general formula [MnIII8MnIV4O12(RCOO)16(H2O)4] had been exemplified by bulk samples of the archetypal [MnIII8MnIV4O12(CH3COO)16(H2O)4] (4) molecule, and the molecular origin of the observed magnetic behavior has found support from extensive studies on the Mn12 system within crystalline material or on molecules attached to a variety of surfaces. Here we report the magnetic signature of the isolated cationic species [Mn12O12(CH3COO)15(CH3CN)]+ (1) by gas phase X-ray Magnetic Circular Dichroism (XMCD) spectroscopy, and we find it closely resembling that of the corresponding bulk samples. Furthermore, we report broken symmetry DFT calculations of spin densities and single ion tensors of the isolated, optimized complexes [Mn12O12(CH3COO)15(CH3CN)]+ (1), [Mn12O12(CH3COO)16] (2), [Mn12O12(CH3COO)16(H2O)4] (3), and the complex in bulk geometry [MnIII8MnIV4O12(CH3COO)16(H2O)4] (5). The found magnetic fingerprints – experiment and theory alike – are of a remarkable robustness: The MnIV4 core bears almost no magnetic anisotropy while the surrounding MnIII8 ring is highly anisotropic. These signatures are truly intrinsic properties of the Mn12 core scaffold within all of these complexes and largely void of the environment. This likely holds irrespective of bulk packing effects.",

author = "Matthias Tombers and Jennifer Meyer and Jonathan Meyer and Arkadiusz Lawicki and Vicente Zamudio-Bayer and Konstantin Hirsch and Lau, {J. Tobias} and {von Issendorff}, Bernd and Akira Terasaki and Schlath{\"o}lter, {Thomas A.} and Hoekstra, {Ronnie A.} and Sebastian Schmidt and Powell, {Annie K.} and Eva Kessler and Prosenc, {Marc H.} and {van W{\"u}llen}, Christoph and Gereon Niedner-Schatteburg",

note = "Funding Information: This work was supported through the DFG funded transregional collaborative research center SFB TRR 88 “3MET.de” and the BMBF grant BMBF-05K13Vf2. We gratefully acknowledge the financial support and allocation of X-ray beam time at the UE52 – PGM beamline from HZB at the BESSY II synchrotron radiation facility. We thank the Toyota Technological Institute for providing the superconducting magnet for the conducted experiments. We thank R. Sessoli for providing the bulk phase data shown in Figures 1b and 2, and we thank Joachim Hewer for valuable discussions. Finally, we want to thank the reviewers for valuable comments. Open Access funding enabled and organized by Projekt DEAL. Funding Information: This work was supported through the DFG funded transregional collaborative research center SFB TRR 88 “3MET.de” and the BMBF grant BMBF‐05K13Vf2. We gratefully acknowledge the financial support and allocation of X‐ray beam time at the UE52 – PGM beamline from HZB at the BESSY II synchrotron radiation facility. We thank the Toyota Technological Institute for providing the superconducting magnet for the conducted experiments. We thank R. Sessoli for providing the bulk phase data shown in Figures 1 b and 2, and we thank Joachim Hewer for valuable discussions. Finally, we want to thank the reviewers for valuable comments. Open Access funding enabled and organized by Projekt DEAL. Publisher Copyright: {\textcopyright} 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH",

year = "2022",

month = jan,

day = "10",

doi = "10.1002/chem.202102592",

language = "English",

volume = "28",

journal = "Chemistry - A European Journal",

issn = "0947-6539",

publisher = "Wiley-VCH Verlag",

number = "2",

}

TY - JOUR

T1 - Mn12-Acetate Complexes Studied as Single Molecules

AU - Tombers, Matthias

AU - Meyer, Jennifer

AU - Meyer, Jonathan

AU - Lawicki, Arkadiusz

AU - Zamudio-Bayer, Vicente

AU - Hirsch, Konstantin

AU - Lau, J. Tobias

AU - von Issendorff, Bernd

AU - Terasaki, Akira

AU - Schlathölter, Thomas A.

AU - Hoekstra, Ronnie A.

AU - Schmidt, Sebastian

AU - Powell, Annie K.

AU - Kessler, Eva

AU - Prosenc, Marc H.

AU - van Wüllen, Christoph

AU - Niedner-Schatteburg, Gereon

N1 - Funding Information: This work was supported through the DFG funded transregional collaborative research center SFB TRR 88 “3MET.de” and the BMBF grant BMBF-05K13Vf2. We gratefully acknowledge the financial support and allocation of X-ray beam time at the UE52 – PGM beamline from HZB at the BESSY II synchrotron radiation facility. We thank the Toyota Technological Institute for providing the superconducting magnet for the conducted experiments. We thank R. Sessoli for providing the bulk phase data shown in Figures 1b and 2, and we thank Joachim Hewer for valuable discussions. Finally, we want to thank the reviewers for valuable comments. Open Access funding enabled and organized by Projekt DEAL. Funding Information: This work was supported through the DFG funded transregional collaborative research center SFB TRR 88 “3MET.de” and the BMBF grant BMBF‐05K13Vf2. We gratefully acknowledge the financial support and allocation of X‐ray beam time at the UE52 – PGM beamline from HZB at the BESSY II synchrotron radiation facility. We thank the Toyota Technological Institute for providing the superconducting magnet for the conducted experiments. We thank R. Sessoli for providing the bulk phase data shown in Figures 1 b and 2, and we thank Joachim Hewer for valuable discussions. Finally, we want to thank the reviewers for valuable comments. Open Access funding enabled and organized by Projekt DEAL. Publisher Copyright: © 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH

PY - 2022/1/10

Y1 - 2022/1/10

N2 - The phenomenon of single molecule magnet (SMM) behavior of mixed valent Mn12 coordination clusters of general formula [MnIII8MnIV4O12(RCOO)16(H2O)4] had been exemplified by bulk samples of the archetypal [MnIII8MnIV4O12(CH3COO)16(H2O)4] (4) molecule, and the molecular origin of the observed magnetic behavior has found support from extensive studies on the Mn12 system within crystalline material or on molecules attached to a variety of surfaces. Here we report the magnetic signature of the isolated cationic species [Mn12O12(CH3COO)15(CH3CN)]+ (1) by gas phase X-ray Magnetic Circular Dichroism (XMCD) spectroscopy, and we find it closely resembling that of the corresponding bulk samples. Furthermore, we report broken symmetry DFT calculations of spin densities and single ion tensors of the isolated, optimized complexes [Mn12O12(CH3COO)15(CH3CN)]+ (1), [Mn12O12(CH3COO)16] (2), [Mn12O12(CH3COO)16(H2O)4] (3), and the complex in bulk geometry [MnIII8MnIV4O12(CH3COO)16(H2O)4] (5). The found magnetic fingerprints – experiment and theory alike – are of a remarkable robustness: The MnIV4 core bears almost no magnetic anisotropy while the surrounding MnIII8 ring is highly anisotropic. These signatures are truly intrinsic properties of the Mn12 core scaffold within all of these complexes and largely void of the environment. This likely holds irrespective of bulk packing effects.

AB - The phenomenon of single molecule magnet (SMM) behavior of mixed valent Mn12 coordination clusters of general formula [MnIII8MnIV4O12(RCOO)16(H2O)4] had been exemplified by bulk samples of the archetypal [MnIII8MnIV4O12(CH3COO)16(H2O)4] (4) molecule, and the molecular origin of the observed magnetic behavior has found support from extensive studies on the Mn12 system within crystalline material or on molecules attached to a variety of surfaces. Here we report the magnetic signature of the isolated cationic species [Mn12O12(CH3COO)15(CH3CN)]+ (1) by gas phase X-ray Magnetic Circular Dichroism (XMCD) spectroscopy, and we find it closely resembling that of the corresponding bulk samples. Furthermore, we report broken symmetry DFT calculations of spin densities and single ion tensors of the isolated, optimized complexes [Mn12O12(CH3COO)15(CH3CN)]+ (1), [Mn12O12(CH3COO)16] (2), [Mn12O12(CH3COO)16(H2O)4] (3), and the complex in bulk geometry [MnIII8MnIV4O12(CH3COO)16(H2O)4] (5). The found magnetic fingerprints – experiment and theory alike – are of a remarkable robustness: The MnIV4 core bears almost no magnetic anisotropy while the surrounding MnIII8 ring is highly anisotropic. These signatures are truly intrinsic properties of the Mn12 core scaffold within all of these complexes and largely void of the environment. This likely holds irrespective of bulk packing effects.

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