Investigations on 1,2σ3λ3-Oxaphosphetanes
Investigations on 1,2σ3λ3-Oxaphosphetanes
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DissertationPrüfungsdatum
15.05.2025Datum der Veröffentlichung
10.07.2025Erstgutachter
Streubel, RainerZweitgutachter
Glaum, RobertMetadaten
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Inhalt
In this thesis, new 1,2σ3λ3-oxaphosphetanes were synthesis and the reactivity of this former elusive compound class was investigated. This work describes the synthesis of 1,2σ3λ3-oxaphosphetanes by reacting their corresponding pentacarbonyl molybdenum complexes with a chelating ligand. A breakthrough was the synthesis of a C-unsubstituted 1,2-oxaphosphetane. The investigated reactions of 1,2σ3λ3-oxaphosphetanes can be divided in three main topics: In the first part, the synthesis of 1,2-oxaphosphetane chalcogenides was achieved by reaction with an oxygen transfer reagent or by reaction with the elements sulfur and selenium. Also, the synthesis of the first borane·1,2-oxaphosphetane complexes. In the second part, a series of Arbuzov reactions was performed, yielding selectively the expected β-haloethylphosphane oxide compounds. The reaction with less nucleophile methyl triflate led to the formation of oligomers. To broaden the scope of the reaction, the 1,2-oxaphosphetanes was reacted with halogens. The reactions with bromine and iodine were highly selective and formed the corresponding halo(2-haloethyl)phosphane oxides in an Arbuzov-like mechanism. The third part of this work is concerned with the reaction of 1,2-oxaphosphetanes with acetic and hydrochloric acid. The reactions were unselective and four main products were observed in each case. Through a combination of NMR spectroscopic data and quantum chemical computations a structure proposals were made for all products and a feasible reaction pathway constructed.
Schlagwörter
Oxaphosphetane, Heterocyclen, Phosphororganik, Oxaphosphetanes, Heterocycles, Phospha-organic Chemistry
Klassifikation (DDC)
540 ChemieZugehörige Publikation(en)
https://doi.org/10.3390/molecules27103345https://doi.org/10.1039/D4CC00254G
Gleim, Florian: Investigations on 1,2σ3λ3-Oxaphosphetanes. - Bonn, 2025. - Dissertation, Rheinische Friedrich-Wilhelms-Universität Bonn.
Online-Ausgabe in bonndoc: https://nbn-resolving.org/urn:nbn:de:hbz:5-82892
Online-Ausgabe in bonndoc: https://nbn-resolving.org/urn:nbn:de:hbz:5-82892
@phdthesis{handle:20.500.11811/13210,
urn: https://nbn-resolving.org/urn:nbn:de:hbz:5-82892,
author = {{Florian Gleim}},
title = {Investigations on 1,2σ3λ3-Oxaphosphetanes},
school = {Rheinische Friedrich-Wilhelms-Universität Bonn},
year = 2025,
month = jul,
note = {In this thesis, new 1,2σ3λ3-oxaphosphetanes were synthesis and the reactivity of this former elusive compound class was investigated. This work describes the synthesis of 1,2σ3λ3-oxaphosphetanes by reacting their corresponding pentacarbonyl molybdenum complexes with a chelating ligand. A breakthrough was the synthesis of a C-unsubstituted 1,2-oxaphosphetane. The investigated reactions of 1,2σ3λ3-oxaphosphetanes can be divided in three main topics: In the first part, the synthesis of 1,2-oxaphosphetane chalcogenides was achieved by reaction with an oxygen transfer reagent or by reaction with the elements sulfur and selenium. Also, the synthesis of the first borane·1,2-oxaphosphetane complexes. In the second part, a series of Arbuzov reactions was performed, yielding selectively the expected β-haloethylphosphane oxide compounds. The reaction with less nucleophile methyl triflate led to the formation of oligomers. To broaden the scope of the reaction, the 1,2-oxaphosphetanes was reacted with halogens. The reactions with bromine and iodine were highly selective and formed the corresponding halo(2-haloethyl)phosphane oxides in an Arbuzov-like mechanism. The third part of this work is concerned with the reaction of 1,2-oxaphosphetanes with acetic and hydrochloric acid. The reactions were unselective and four main products were observed in each case. Through a combination of NMR spectroscopic data and quantum chemical computations a structure proposals were made for all products and a feasible reaction pathway constructed.},
url = {https://hdl.handle.net/20.500.11811/13210}
}
urn: https://nbn-resolving.org/urn:nbn:de:hbz:5-82892,
author = {{Florian Gleim}},
title = {Investigations on 1,2σ3λ3-Oxaphosphetanes},
school = {Rheinische Friedrich-Wilhelms-Universität Bonn},
year = 2025,
month = jul,
note = {In this thesis, new 1,2σ3λ3-oxaphosphetanes were synthesis and the reactivity of this former elusive compound class was investigated. This work describes the synthesis of 1,2σ3λ3-oxaphosphetanes by reacting their corresponding pentacarbonyl molybdenum complexes with a chelating ligand. A breakthrough was the synthesis of a C-unsubstituted 1,2-oxaphosphetane. The investigated reactions of 1,2σ3λ3-oxaphosphetanes can be divided in three main topics: In the first part, the synthesis of 1,2-oxaphosphetane chalcogenides was achieved by reaction with an oxygen transfer reagent or by reaction with the elements sulfur and selenium. Also, the synthesis of the first borane·1,2-oxaphosphetane complexes. In the second part, a series of Arbuzov reactions was performed, yielding selectively the expected β-haloethylphosphane oxide compounds. The reaction with less nucleophile methyl triflate led to the formation of oligomers. To broaden the scope of the reaction, the 1,2-oxaphosphetanes was reacted with halogens. The reactions with bromine and iodine were highly selective and formed the corresponding halo(2-haloethyl)phosphane oxides in an Arbuzov-like mechanism. The third part of this work is concerned with the reaction of 1,2-oxaphosphetanes with acetic and hydrochloric acid. The reactions were unselective and four main products were observed in each case. Through a combination of NMR spectroscopic data and quantum chemical computations a structure proposals were made for all products and a feasible reaction pathway constructed.},
url = {https://hdl.handle.net/20.500.11811/13210}
}
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