Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation

Standard

Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation. / Litvinova, Yulia M.; Stass, Dmitri V.; Metlin, Mikhail T. и др.

в: Inorganic Chemistry Frontiers, 15.09.2025.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Litvinova, YM, Stass, DV, Metlin, MT, Korshunov, VM, Ryzhikov, MR, Yarovoy, SS, Sukhikh, TS, Mironov, YV, Taydakov, IV, Belikova, DE, Tarasov, AB, Brylev, KA & Gaifulin, YM 2025, 'Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation', Inorganic Chemistry Frontiers. https://doi.org/10.1039/d5qi01532d

APA

Litvinova, Y. M., Stass, D. V., Metlin, M. T., Korshunov, V. M., Ryzhikov, M. R., Yarovoy, S. S., Sukhikh, T. S., Mironov, Y. V., Taydakov, I. V., Belikova, D. E., Tarasov, A. B., Brylev, K. A., & Gaifulin, Y. M. (2025). Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation. Inorganic Chemistry Frontiers. https://doi.org/10.1039/d5qi01532d

Vancouver

Litvinova YM, Stass DV, Metlin MT, Korshunov VM, Ryzhikov MR, Yarovoy SS и др. Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation. Inorganic Chemistry Frontiers. 2025 сент. 15. doi: 10.1039/d5qi01532d

Author

Litvinova, Yulia M. ; Stass, Dmitri V. ; Metlin, Mikhail T. и др. / Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation. в: Inorganic Chemistry Frontiers. 2025.

BibTeX

@article{ac1ebe4064144a9ab49eaba1d6842dab,

title = "Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation",

abstract = "A new heterometallic cyanide coordination polymer exhibits bright photoinduced and X-ray-induced NIR phosphorescence, as well as resistance to radiation-induced degradation, making it promising material for use in scintillation detectors. First metal–organic coordination polymer based on the [{Mo 6 I 8 }(CN) 6 ] 2− cluster anion was obtained using the salts Cs 1.3 Na 0.7 [{Mo 6 I 8 }(CN) 6 ]·2H 2 O (1) and K[Ag(CN) 2 ], as well as bis(diphenylphosphino)methane (dppm), as precursors. In contrast to the previously reported coordination polymers based on octahedral cyanide cluster complexes, the 1D polymer [{Ag 2 (dppm) 2 }{Mo 6 I 8 }(CN) 6 ] (2) demonstrated an order of magnitude increase in the cluster-centred photoluminescence quantum yield ( Φ em ) in the solid state at 300 K in comparison with the ionic salt 1. Moreover, 2 exhibits bright X-ray-induced emission, which is two orders of magnitude more intense than that of 1 and is characterized by a light yield of 10 800 photons per MeV. Therefore, 2 represents the first effective scintillating compound based on octahedral molybdenum clusters. The polymer has exceptional thermal, photo- and hydrolytic stability and exhibits minimal degradation upon X-ray irradiation, retaining its emission intensity following exposure to the dose of 2.2 × 10 5 rad. It should be noted that this level of radiation resistance is superb even for inorganic scintillation materials. The high light yield and exceptional stability of the compound enabled us to use it to manufacture scintillation screens for X-ray visualisation. These screens provide a spatial resolution of up to 9 line pairs per mm, representing the first example of a scintillation device based on molybdenum clusters. ",

author = "Litvinova, {Yulia M.} and Stass, {Dmitri V.} and Metlin, {Mikhail T.} and Korshunov, {Vladislav M.} and Ryzhikov, {Maxim R.} and Yarovoy, {Spartak S.} and Sukhikh, {Taisiya S.} and Mironov, {Yuri V.} and Taydakov, {Ilya V.} and Belikova, {Daria E.} and Tarasov, {Alexey B.} and Brylev, {Konstantin A.} and Gaifulin, {Yakov M.}",

note = "Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation / Y. M. Litvinova, D. V. Stass, M. T. Metlin, V. M. Korshunov, M. R. Ryzhikov, S. S. Yarovoy, T. S. Sukhikh, Y. V. Mironov, I. V. Taydakov, D. E. Belikova, A. B. Tarasov, K. A. Brylev, Y. M. Gaifulin // Inorganic Chemistry Frontiers. - 2025. DOI 10.1039/d5qi01532d ",

year = "2025",

month = sep,

day = "15",

doi = "10.1039/d5qi01532d",

language = "English",

journal = "Inorganic Chemistry Frontiers",

issn = "2052-1545",

publisher = "Royal Society of Chemistry",

}

RIS

TY - JOUR

T1 - Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation

AU - Litvinova, Yulia M.

AU - Stass, Dmitri V.

AU - Metlin, Mikhail T.

AU - Korshunov, Vladislav M.

AU - Ryzhikov, Maxim R.

AU - Yarovoy, Spartak S.

AU - Sukhikh, Taisiya S.

AU - Mironov, Yuri V.

AU - Taydakov, Ilya V.

AU - Belikova, Daria E.

AU - Tarasov, Alexey B.

AU - Brylev, Konstantin A.

AU - Gaifulin, Yakov M.

N1 - Luminescent cyanide coordination polymer based on {Mo 6 I 8 } and {Ag 2 (dppm) 2 } clusters: exceptional stability and efficient scintillation / Y. M. Litvinova, D. V. Stass, M. T. Metlin, V. M. Korshunov, M. R. Ryzhikov, S. S. Yarovoy, T. S. Sukhikh, Y. V. Mironov, I. V. Taydakov, D. E. Belikova, A. B. Tarasov, K. A. Brylev, Y. M. Gaifulin // Inorganic Chemistry Frontiers. - 2025. DOI 10.1039/d5qi01532d

PY - 2025/9/15

Y1 - 2025/9/15

N2 - A new heterometallic cyanide coordination polymer exhibits bright photoinduced and X-ray-induced NIR phosphorescence, as well as resistance to radiation-induced degradation, making it promising material for use in scintillation detectors. First metal–organic coordination polymer based on the [{Mo 6 I 8 }(CN) 6 ] 2− cluster anion was obtained using the salts Cs 1.3 Na 0.7 [{Mo 6 I 8 }(CN) 6 ]·2H 2 O (1) and K[Ag(CN) 2 ], as well as bis(diphenylphosphino)methane (dppm), as precursors. In contrast to the previously reported coordination polymers based on octahedral cyanide cluster complexes, the 1D polymer [{Ag 2 (dppm) 2 }{Mo 6 I 8 }(CN) 6 ] (2) demonstrated an order of magnitude increase in the cluster-centred photoluminescence quantum yield ( Φ em ) in the solid state at 300 K in comparison with the ionic salt 1. Moreover, 2 exhibits bright X-ray-induced emission, which is two orders of magnitude more intense than that of 1 and is characterized by a light yield of 10 800 photons per MeV. Therefore, 2 represents the first effective scintillating compound based on octahedral molybdenum clusters. The polymer has exceptional thermal, photo- and hydrolytic stability and exhibits minimal degradation upon X-ray irradiation, retaining its emission intensity following exposure to the dose of 2.2 × 10 5 rad. It should be noted that this level of radiation resistance is superb even for inorganic scintillation materials. The high light yield and exceptional stability of the compound enabled us to use it to manufacture scintillation screens for X-ray visualisation. These screens provide a spatial resolution of up to 9 line pairs per mm, representing the first example of a scintillation device based on molybdenum clusters.

AB - A new heterometallic cyanide coordination polymer exhibits bright photoinduced and X-ray-induced NIR phosphorescence, as well as resistance to radiation-induced degradation, making it promising material for use in scintillation detectors. First metal–organic coordination polymer based on the [{Mo 6 I 8 }(CN) 6 ] 2− cluster anion was obtained using the salts Cs 1.3 Na 0.7 [{Mo 6 I 8 }(CN) 6 ]·2H 2 O (1) and K[Ag(CN) 2 ], as well as bis(diphenylphosphino)methane (dppm), as precursors. In contrast to the previously reported coordination polymers based on octahedral cyanide cluster complexes, the 1D polymer [{Ag 2 (dppm) 2 }{Mo 6 I 8 }(CN) 6 ] (2) demonstrated an order of magnitude increase in the cluster-centred photoluminescence quantum yield ( Φ em ) in the solid state at 300 K in comparison with the ionic salt 1. Moreover, 2 exhibits bright X-ray-induced emission, which is two orders of magnitude more intense than that of 1 and is characterized by a light yield of 10 800 photons per MeV. Therefore, 2 represents the first effective scintillating compound based on octahedral molybdenum clusters. The polymer has exceptional thermal, photo- and hydrolytic stability and exhibits minimal degradation upon X-ray irradiation, retaining its emission intensity following exposure to the dose of 2.2 × 10 5 rad. It should be noted that this level of radiation resistance is superb even for inorganic scintillation materials. The high light yield and exceptional stability of the compound enabled us to use it to manufacture scintillation screens for X-ray visualisation. These screens provide a spatial resolution of up to 9 line pairs per mm, representing the first example of a scintillation device based on molybdenum clusters.

UR - https://www.mendeley.com/catalogue/8bd3cdf2-3814-34a2-b36b-4f07f38ddec4/

UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=105018344000&origin=inward

U2 - 10.1039/d5qi01532d

DO - 10.1039/d5qi01532d

M3 - Article

JO - Inorganic Chemistry Frontiers

JF - Inorganic Chemistry Frontiers

SN - 2052-1545

ER -

ID: 70824659