Samarium Polystibides Derived from Highly Activated Nanoscale Antimony

Christoph Schoo; Sebastian Bestgen; Alexander Egeberg; Svetlana Klementyeva; Claus Feldmann; Sergey N Konchenko; Peter W Roesky

doi:10.1002/anie.201802250

Samarium Polystibides Derived from Highly Activated Nanoscale Antimony

Christoph Schoo, Sebastian Bestgen, Alexander Egeberg, Svetlana Klementyeva, Claus Feldmann, Sergey N Konchenko, Peter W Roesky

46 Citationer (Scopus)

Abstract

Zintl ions in molecular compounds are of fundamental interest for basic research and application. Two reactive antimony sources are presented that allow direct access to molecular polystibide compounds. These are Sb amalgam (Sb/Hg) and ultrasmall Sb0 nanoparticles (d=6.6±0.8 nm), which were used independently as precursors for the synthesis of the largest f-element polystibide, [(Cp*2 Sm)4 Sb8 ]. Whereas the reaction of the nanoparticles with [Cp*2 Sm] directly led to [(Cp*2 Sm)4 Sb8 ], Sm/Sb/Hg intermediates were isolated when using Sb/Hg as the precursor. These Sm/Sb/Hg intermediates [{(Cp*2 Sm)2 Sb}2 (μ-Hg)] and [{(Cp*2 Sm)3 (μ4 ,η1:2:2:2 -Sb4 )}2 Hg] were synthetically trapped and structurally characterized, giving insight in the formation mechanism of polystibide compounds.

Originalsprog	Engelsk
Tidsskrift	Angewandte Chemie (International ed. in English)
Vol/bind	57
Udgave nummer	20
Sider (fra-til)	5912-5916
Antal sider	5
ISSN	1433-7851
DOI	https://doi.org/10.1002/anie.201802250
Status	Udgivet - 14 maj 2018
Udgivet eksternt	Ja

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10.1002/anie.201802250

Citationsformater

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title = "Samarium Polystibides Derived from Highly Activated Nanoscale Antimony",

abstract = "Zintl ions in molecular compounds are of fundamental interest for basic research and application. Two reactive antimony sources are presented that allow direct access to molecular polystibide compounds. These are Sb amalgam (Sb/Hg) and ultrasmall Sb0 nanoparticles (d=6.6±0.8 nm), which were used independently as precursors for the synthesis of the largest f-element polystibide, [(Cp*2 Sm)4 Sb8 ]. Whereas the reaction of the nanoparticles with [Cp*2 Sm] directly led to [(Cp*2 Sm)4 Sb8 ], Sm/Sb/Hg intermediates were isolated when using Sb/Hg as the precursor. These Sm/Sb/Hg intermediates [{(Cp*2 Sm)2 Sb}2 (μ-Hg)] and [{(Cp*2 Sm)3 (μ4 ,η1:2:2:2 -Sb4 )}2 Hg] were synthetically trapped and structurally characterized, giving insight in the formation mechanism of polystibide compounds.",

author = "Christoph Schoo and Sebastian Bestgen and Alexander Egeberg and Svetlana Klementyeva and Claus Feldmann and Konchenko, {Sergey N} and Roesky, {Peter W}",

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T1 - Samarium Polystibides Derived from Highly Activated Nanoscale Antimony

AU - Schoo, Christoph

AU - Bestgen, Sebastian

AU - Egeberg, Alexander

AU - Klementyeva, Svetlana

AU - Feldmann, Claus

AU - Konchenko, Sergey N

AU - Roesky, Peter W

PY - 2018/5/14

Y1 - 2018/5/14

N2 - Zintl ions in molecular compounds are of fundamental interest for basic research and application. Two reactive antimony sources are presented that allow direct access to molecular polystibide compounds. These are Sb amalgam (Sb/Hg) and ultrasmall Sb0 nanoparticles (d=6.6±0.8 nm), which were used independently as precursors for the synthesis of the largest f-element polystibide, [(Cp*2 Sm)4 Sb8 ]. Whereas the reaction of the nanoparticles with [Cp*2 Sm] directly led to [(Cp*2 Sm)4 Sb8 ], Sm/Sb/Hg intermediates were isolated when using Sb/Hg as the precursor. These Sm/Sb/Hg intermediates [{(Cp*2 Sm)2 Sb}2 (μ-Hg)] and [{(Cp*2 Sm)3 (μ4 ,η1:2:2:2 -Sb4 )}2 Hg] were synthetically trapped and structurally characterized, giving insight in the formation mechanism of polystibide compounds.

AB - Zintl ions in molecular compounds are of fundamental interest for basic research and application. Two reactive antimony sources are presented that allow direct access to molecular polystibide compounds. These are Sb amalgam (Sb/Hg) and ultrasmall Sb0 nanoparticles (d=6.6±0.8 nm), which were used independently as precursors for the synthesis of the largest f-element polystibide, [(Cp*2 Sm)4 Sb8 ]. Whereas the reaction of the nanoparticles with [Cp*2 Sm] directly led to [(Cp*2 Sm)4 Sb8 ], Sm/Sb/Hg intermediates were isolated when using Sb/Hg as the precursor. These Sm/Sb/Hg intermediates [{(Cp*2 Sm)2 Sb}2 (μ-Hg)] and [{(Cp*2 Sm)3 (μ4 ,η1:2:2:2 -Sb4 )}2 Hg] were synthetically trapped and structurally characterized, giving insight in the formation mechanism of polystibide compounds.

U2 - 10.1002/anie.201802250

DO - 10.1002/anie.201802250

M3 - Journal article

C2 - 29528543

SN - 1433-7851

VL - 57

SP - 5912

EP - 5916

JO - Angewandte Chemie (International ed. in English)

JF - Angewandte Chemie (International ed. in English)

IS - 20

ER -

Samarium Polystibides Derived from Highly Activated Nanoscale Antimony

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