TY  - JOUR
A1  - Tacke, Reinhold
A1  - Lopez-Mras, A.
A1  - Sperlich, J.
A1  - Strohmann, C.
A1  - Kuhs, W. F.
A1  - Mattern, G.
A1  - Sebald, A.
T1  - Neue zwitterionische \(\lambda_5\)-Spirosilicate: Synthesen, Einkristall-Röntgenstrukturanalysen und Festkörper-NMR-Untersuchungen
T1  - New Zwitterionic \(\lambda_5\)-Spirosilicates: Syntheses, Single-Crystal X-Ray Strudure Analyses, and Solid-State NMR Studies
N2  - The zwitterionic spirocyclic \(\lambda_5\) -Silicates bis(3,4,5,6-tetrabromo- 1,2-benzenediolato(2- ))[2-(pyrrolidinio)ethyl]silicate (5; and its monohydrate 5 · H\(_2\)O) and bis[1,2-benzenediolato(2- )][( dimethylammonio)methyl]silicate (6) were synthesized by various methods including Si-C bond cleavage reactions. The crystal structures of 5, 5 · H\(_2\)O, and 6 were investigated by Xray düfraction. Furthermore, 5, 5 · H\(_2\)O, 6, and the related zwitterionic \(\lambda_5\)-spirosilicates 1 · 1/4 CH\(_3\)CN, 2 · CH\(_3\)CN, 3 · CH\(_3\)CN, and 4 were characterized by solid-state NMR spectroscopy (\(^{29}\)Si and \(^{15}\)N CP/MAS). The pentacoordinate silicon atoms of 5, 5 · H\(_2\)O (two crystallographically independent ZWitterions and two crystallographically independent water molecules), and 6 (two crystallographically independent zwitterions) are surrounded by four oxygen atoms and one carbon atom. The coordination polyhedrons around the silicon atoms of 5 and 6 can be described as distorted (5) or nearly ideal (6) trigonal bipyramids, the carbon atoms being in equatorial positions. 5 forms intramolecular and 6 intermolecular (--+ formation of dimeric units) N- H···O hydrogen bonds. The coordination polyhedrons around the two crystallographically independent silicon atoms of 5 · H\(_2\)O can be described as a nearly ideal and slightly distorted square pyramid, respectively, the carbon atoms being in the apical positions. In the crystal lattice of 5 · H\(_2\)O, intermolecular N-H···O and 0-H···O hydrogen bonds between the zwitterions and water molecules are observed. The results obtained by X-ray diffraction and solid-state NMR spectroscopy are consistent for each compound studied.
KW  - Anorganische Chemie
KW  - Spirosilicates
KW  - zwitterionic
KW  - Silicon
KW  - pentacoordinate
KW  - Bond cleavage
KW  - Si-C I Solid-state NMR
KW  - 29Si and 15N
Y1  - 1993
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-64251
ER  - 
TY  - JOUR
A1  - Mühleisen, M.
A1  - Tacke, Reinhold
T1  - Twofold deprotonated citric acid as a bidentate ligand of pentacoordinate silicon: synthesis and structural characterization of the zwitterionic \(\lambda_5\)Si-spirosilicate bis[citrato(2-)-O\(^3\),O\(^4\)][(dimethylammonio)methyl]silicate hydrate
N2  - The zwitterionic \(\lambda_5\) Si-spirosilicate bis[ citrato(2-)-0\(^3\) ,0\(^4\) )[ ( dimethylammonio) methyl]silicate (4) was synthesized by reaction of (MeO)\(_3\)SiCH\(_2\)NMe\(_2\) (3) with citric acid (molar ratio 1 :2) in acetonitrile at room temperature and isolated, after crystallization from water, as the hydrate 4 · H\(_2\)O (yield 81 %). The crystal structure of 4 · H\(_2\)O was studied by single-crystal X-ray diffraction. The alcoxide oxygen atoms and central carboxylate oxygen atoms of two citrato(2-) ligands and one carbon atom coordinate to the silicon atom of 4 · H\(_2\)O. The coordination polyhedron around the pentacoordinate silicon atom (SiO\(_4\)C framework) can be described as a distorted trigonal bipyramid, the two carboxylate oxygen atoms occupying the axial sites. The \(\lambda_5\) Si~silicon(IV) complex 4 also exists in solution (DMSO, H\(_2\)O).
KW  - Anorganische Chemie
KW  - Silicon
KW  - pentacoordinate
KW  - Lambda5Si-Spirosilicate
KW  - zwitterionic
KW  - Citrato(2-)-03
KW  - 04ligand
Y1  - 1994
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-64388
ER  - 
TY  - JOUR
A1  - Tacke, Reinhold
A1  - Sperlich, J.
A1  - Becker, B.
T1  - Bis[2,3-naphthalenediolato(2-)](pyrrolidinio-methyl)germanate-tetartoacetonitrile, the first zwitterionic \(\lambda_5\)-germanate: synthesis and crystal structure analysis
N2  - The zwitterionic spirocyclic \(\lambda_5\)-germanate bis(2,3-naphthalenediolato( 2-)](pyrrolidiniomethyl)germanate (8) was synthesized and the crystal structure of its tetartoacetonitrile solvate 8 · 1/4 CH\(_3\)CN studied by single-crystal X-ray diffraction. Compound 8 was prepared by reaction of (MeO)\(_3\)GeCH\(_2\)NC\(_4\)H\(_8\) (11; NC\(_4\)H\(_8\) = pyrrolidino) with two equivalents of 2,3-naphthalenediol (isolated as 8 · 1/4 CH\(_3\)CN; yield 92%). The coordination polyhedron around the pentacoordi- naphthalenediolatonate germanium atom of 8 · 1/4 CH\(_3\)CN can be described as a strongly distorted trigonal bipyramid (the structure is displaced by 38.9% from the ideal trigonal bipyrarnid towards the ideal square pyramid), the carbon atom occupying an equatorial position. In the crystal lattice of 8 · 1/4 CH\(_3\)CN, the zwitterions form intermolecular N-H ... o hydrogen bonds leading to the formation of dimers. 1H- and \(^{13}\C-NMR studies revealed that 8 also exists in solution ([D\(_6\)]DMSO).
KW  - Anorganische Chemie
KW  - Lambda5-Germanate
KW  - zwitterionic
KW  - Germanium
KW  - pentacoordinate
Y1  - 1994
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-64329
ER  - 
TY  - THES
A1  - Dragota, Simona Olimpia
T1  - Contributions to the chemistry of higher-coordinate Silicon : synthesis, structure, and stereodynamics of new Silicon(IV) complexes with SiO2N2C, SiO4C, or SiO6 skeletons
T1  - Beiträge zur Chemie des Höherkoordinierten Siliciums: Synthese, Struktur und Stereodynamik Neuer Silicium(IV)-Komplexe mit SiO2N2C-, SiO4C, oder SiO6- Gerüste
N2  - This thesis contributes to the field of silicon chemistry, with a special emphasis on the chemistry of penta- and hexacoordinate silicon.The spirocyclic zwitterionic Lambda5Si-silicates 1–6 with a (2,2,6,6-tetramethylpiperidinio)- methyl group and two identical bidentate chelate ligands derived from glycine, (S)-alanine, (S)-phenylalanine, (S)-valine, (S)-tert-leucine, or (S)-proline bound to the silicon(IV) coordination center were synthesized and structurally characterized for the first time.The hitherto unknown spirocyclic zwitterionic Lambda5Si-silicates 7–12 with an (ammonio)- methyl group and two identical bidentate chelate ligands derived from (S)-lactic acid, (S)-3- phenyllactic acid, or (S)-mandelic acid were synthesized and structurally characterized in the solid state (elemental analyses (C, H, N), crystal structure analyses, 15N and 29Si VACP/MAS solid-state NMR experiments) and in solution (except 10; 1H, 13C, and 29Si NMR experiments)The spirocyclic zwitterionic Lambda5Si-silicates 13, 15, and 16 with an (ammonio)methyl group and two bidentate meso-oxolane-3,4-diolato(2–) ligands bound to the silicon(IV) coordination center were synthesized for the first time. The already existent compound 14 was resynthesized in order to perform a crystal structure analysis. All compounds were characterized by elemental analyses (C, H, N), 29Si VACP/MAS solid-state NMR experiments, and solution NMR studies (1H, 13C, 15N, and 29Si NMR experiments), and compounds 14–16 were additionally studied by single-crystal X-ray diffraction.The already existent zwitterionic Lambda5Si-silicate 17 was synthesized by new methods, including a remarkable Si–C cleavage reaction with benzoin. To investigate the dynamic behavior of the known zwitterionic Lambda5Si-silicate 18 in solution, VT 1H NMR experiments in CD2Cl2 were performed in the temperature range –100 °C to 23 °C.The hexacoordinate silicon compounds 19–22 containing multidentate ligands derived from citric acid or (S)-malic acid were synthesized for the first time. The anionic Lambda6Si-silicates 19–22 were structurally characterized in the solid state by single-crystal X-ray diffraction and VACP/MAS NMR spectroscopy (13C, 15N, 29Si). Upon dissolution in water at 20 °C, spontaneous hydrolysis of the Lambda6Si-silicate anions was observed.
N2  - Die vorliegende Arbeit stellt einen Beitrag zur Chemie des penta- und hexakoordinierten Siliciums dar.Erstmalig wurden die spirocyclischen zwitterionischen Lambda5Si-Silicate 1–6 synthetisiert und strukturell charakterisiert. In diesen Verbindungen des pentakoordinierten Siliciums sind eine (2,2,6,6-Tetramethylpiperidinio)methyl-Gruppe und zwei identische zweizähnige Chelat- Liganden, die sich von den α-Aminosäuren Glycin, (S)-Alanin, (S)-Phenylalanin, (S)-Valin, (S)-tert-Leucin oder (S)-Prolin ableiten, an das Si(IV)-Koordinationszentrum gebunden.Die spirocyclischen zwitterionischen Lambda5Si-Silicate 7–12 mit einer (Ammonio)methyl- Gruppe und zwei identischen Chelat-Liganden, die sich von (S)-Milchsäure, (S)-3- Phenylmilchsäure oder (S)-Mandelsäure ableiten, wurden erstmals synthetisiert. Die strukturelle Charakterisierung erfolgte durch Elementaranalysen (C, H, N), Festkörper-NMRSpektroskopie (15N- und 29Si-VACP/MAS-NMR) und durch 1H-, 13C-, 15N- und 29Si-NMRExperimente in Lösung. Die Existenz dieser Verbindungen wurde zusätzlich mittels Röntgenbeugung an Einkristallen bestätigt.Die bisher unbekannten spirocyclischen zwitterionischen Lambda6Si-Silicate 13, 15 und 16 mit einer (Ammonio)methyl-Gruppe und zwei identischen zweizähnigen meso-Oxolan-3,4- diolato(2–)-Liganden wurden synthetisiert. Die bereits bekannte Verbindung 14 wurde zur Anfertigung einer Kristallstrukturanalyse resynthetisiert. Die λ5Si-Silicate 13–16 wurden mit Hilfe elementaranalytischer (C, H, N), NMR-spektroskopischer Methoden (29Si-VACP/MASNMR; 1H-, 13C-, 15N- bzw. 29Si-NMR) charakterisiert. Die Verbindungen 14–16 wurden zusätzlich durch Einkristall-Röntgenstrukturanalysen charakterisiert.Das bereits bekannte zwitterionische Lambda5Si-Silicat 17 war über neue Syntheserouten zugänglich, die neben Si–O- auch eine bemerkenswerte Si–C-Bindungspaltungsreaktion unter milden Bedingungen beinhalten. Um mehr über das dynamische Verhalten des bereits bekannten zwitterionischen Lambda5Si-Silicats 18 in Lösung zu erfahren, wurden 1H-VT-NMRExperimente in dem Temperaturbereich zwischen –100 °C und 23 °C durchgeführt.Die hexakoordinierten Verbindungen 19–22 mit mehrzähnigen Liganden, die sich von Zitronensäure oder (S)-Äpfelsäure ableiten, wurden erstmalig synthetisiert. Die anionischen Lambda6Si-Silicate 19–22 wurden durch Einkristall-Röntgenstrukturanalysen und Festkörper-NMRspektroskopische Untersuchungen (13C-, 15N- bzw. 29Si- VACP/MAS-NMR) strukturell charakterisiert. Beim Auflösen der Verbindungen 19–22 in Wasser bei 20 °C wurde jeweils eine spontane Hydrolyse der Lambda6Si-Silicat-Anionen beobachtet.
KW  - Silicate
KW  - Hypervalentes Molekül
KW  - Zwitterion
KW  - pentakoordinierte
KW  - hexakoordinierte
KW  - Silicate
KW  - zwitterionische
KW  - pentacoordinate
KW  - hexacoordinate
KW  - silicates
KW  - zwitterionic
Y1  - 2005
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-15304
ER  -