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Tetrachloroplatinate(II) as a promising square-planar halogen binding tecton for crystal engineering. / Suslonov , Vitalii.

Science and progress 2020: Conference abstracts. СПб., 2020. стр. 96.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийтезисы в сборнике материалов конференции

Harvard

Suslonov , V 2020, Tetrachloroplatinate(II) as a promising square-planar halogen binding tecton for crystal engineering. в Science and progress 2020: Conference abstracts. СПб., стр. 96, International Student Conference Science and Progress 2020, Saint-Petersburg, Peterhof, Российская Федерация, 10/11/20.

APA

Suslonov , V. (2020). Tetrachloroplatinate(II) as a promising square-planar halogen binding tecton for crystal engineering. в Science and progress 2020: Conference abstracts (стр. 96).

Vancouver

Suslonov V. Tetrachloroplatinate(II) as a promising square-planar halogen binding tecton for crystal engineering. в Science and progress 2020: Conference abstracts. СПб. 2020. стр. 96

Author

Suslonov , Vitalii. / Tetrachloroplatinate(II) as a promising square-planar halogen binding tecton for crystal engineering. Science and progress 2020: Conference abstracts. СПб., 2020. стр. 96

BibTeX

@inbook{984be9f957554493ad5f8e439a101b26,
title = "Tetrachloroplatinate(II) as a promising square-planar halogen binding tecton for crystal engineering",
abstract = "The construction of supramolecular aggregates based on halogen bonding (XB) are of considerable interest due to the fact that the synthesized systems exhibit a number of useful properties. A number of supramolecular XB tectons for the crystal engineering based on organic species and metal complexes were described earlier, however, squared-planar platinum(II) complexes are poorly studied in this way.In our work, we showed that the [PtCl4]2– anion is able to act as an XB-acceptor with a neutral XB donor in the (PPN)2[PtCl4]•(1,4-C6F4I2) (PPN+ is Ph3P=N=PPh3+; 1,4-C6F4I2 is FIB) adduct, and in the salt (Ph3PCH2I)2[PtCl4] with a cation, which also incorporates an XB donor center. X-ray diffraction (SC-XRD) data were obtained and analyzed for these substances. XB of C-I∙∙∙I-Pt type was found in both structures base on the geometrical criteria. The existence of this bond was confirmed by appropriate theoretical calculations.",
author = "Vitalii Suslonov",
year = "2020",
language = "English",
pages = "96",
booktitle = "Science and progress 2020",
note = "International Student Conference Science and Progress 2020 ; Conference date: 10-11-2020 Through 12-11-2020",
url = "https://events.spbu.ru/events/science-and-progress?lang=Eng, https://events.spbu.ru/events/science-and-progress",

}

RIS

TY - CHAP

T1 - Tetrachloroplatinate(II) as a promising square-planar halogen binding tecton for crystal engineering

AU - Suslonov , Vitalii

PY - 2020

Y1 - 2020

N2 - The construction of supramolecular aggregates based on halogen bonding (XB) are of considerable interest due to the fact that the synthesized systems exhibit a number of useful properties. A number of supramolecular XB tectons for the crystal engineering based on organic species and metal complexes were described earlier, however, squared-planar platinum(II) complexes are poorly studied in this way.In our work, we showed that the [PtCl4]2– anion is able to act as an XB-acceptor with a neutral XB donor in the (PPN)2[PtCl4]•(1,4-C6F4I2) (PPN+ is Ph3P=N=PPh3+; 1,4-C6F4I2 is FIB) adduct, and in the salt (Ph3PCH2I)2[PtCl4] with a cation, which also incorporates an XB donor center. X-ray diffraction (SC-XRD) data were obtained and analyzed for these substances. XB of C-I∙∙∙I-Pt type was found in both structures base on the geometrical criteria. The existence of this bond was confirmed by appropriate theoretical calculations.

AB - The construction of supramolecular aggregates based on halogen bonding (XB) are of considerable interest due to the fact that the synthesized systems exhibit a number of useful properties. A number of supramolecular XB tectons for the crystal engineering based on organic species and metal complexes were described earlier, however, squared-planar platinum(II) complexes are poorly studied in this way.In our work, we showed that the [PtCl4]2– anion is able to act as an XB-acceptor with a neutral XB donor in the (PPN)2[PtCl4]•(1,4-C6F4I2) (PPN+ is Ph3P=N=PPh3+; 1,4-C6F4I2 is FIB) adduct, and in the salt (Ph3PCH2I)2[PtCl4] with a cation, which also incorporates an XB donor center. X-ray diffraction (SC-XRD) data were obtained and analyzed for these substances. XB of C-I∙∙∙I-Pt type was found in both structures base on the geometrical criteria. The existence of this bond was confirmed by appropriate theoretical calculations.

UR - https://events.spbu.ru/eventsContent/events/2020/S&P2020.pdf

M3 - Conference abstracts

SP - 96

BT - Science and progress 2020

CY - СПб.

T2 - International Student Conference Science and Progress 2020

Y2 - 10 November 2020 through 12 November 2020

ER -

ID: 85727039