Your search keyword '"Baines, Kim M."' showing total 173 results

151. NH bond activation of ammonia and amines by ditetrelenes: key insights into the stereochemistry of nucleophilic addition.

Author

McOnie, Sarah L., Özpınar, Gül Altınbaş, Bourque, Jeremy L., Müller, Thomas, and Baines, Kim M.

Subjects

*STEREOCHEMISTRY, *AMINES, *SECONDARY amines, *PROTONS

Abstract

The NH bond activation of ammonia, primary and secondary amines by tetramesityldisilene and -digermene was investigated. In each case, a disilyl- or digermylamine was formed as the only product of amine addition. The mechanism of the addition of ammonia to tetramesityldisilene was computed and revealed a three-step reaction pathway: formation of the anti-ammonia-disilene adduct, inversion at the β-silicon, and syn-transfer of the proton to give the syn-product, where each step follows a distinct stereochemical course. Examination of the reaction landscape also revealed several additional insights: (a) that, in the initial step, the formation of the anti-oriented zwitterionic intermediate is kinetically more preferable than formation of the syn-oriented zwitterionic intermediate, (b) that intermolecular transfer of a proton is not energetically feasible in non-polar solvents, and (c) that the bulk of the substituents can have a profound effect on the stereochemical course of the reaction. With this detailed understanding, nucleophilic additions to ditetrelenes can be exploited in the future. [ABSTRACT FROM AUTHOR]

Published

2021

152. Selective dimerization of α-methylstyrene by tunable bis(catecholato)germane Lewis acid catalysts.

Author

Henry, Andrew T., Cosby, Taylor P. L., Boyle, Paul D., and Baines, Kim M.

Subjects

*LEWIS acids, *TRANSITION metal catalysts, *DIMERIZATION, *LEWIS acidity, *CATALYSTS, *OLIGOMERIZATION

Abstract

The synthesis of a variety of bis(catecholato)germanes is reported. The Lewis acidity of the bis(catecholato)germanes was assessed using the experimental Gutmann–Beckett method and computational FIA and GEI methods. The oligomerization of alkenes using bis(catecholato)germanes demonstrates the use of these complexes in catalysis. The use of donor additives in the dimerization of α-methylstyrene resulted in selectivity control comparable to transition metal catalyst systems. [ABSTRACT FROM AUTHOR]

Published

2021

153. A Cryptand-Encapsulated Germanium(ll) Dication.

Author

Rupar, Paul A., Staroverov, Viktor N., and Baines, Kim M.

Subjects

*GERMANIUM, *CATIONS, *SILICON research, *LIGANDS (Chemistry), *SALT, *CARBENES, *HETEROCYCLIC compounds

Abstract

Unlike cations of metals such as sodium or calcium, oxidized silicon and germanium centers generally require strongly bound covalent ligands. We report the synthesis and characterization of a germanium(II) dication in the form of the salt (Ge.cryptand[2.2.2])(O3SCF3)2. The salt is isolated in 88% yield from the reaction of cryptand [2.2.2] and an N-heterocyclic carbene complex of GeCl(O3SCF3) as an air-sensitive, white solid. The crystal structure of the salt shows minimal interaction between the cryptand-encapsulated germanium(II) ion and the two -O3SCF3 counterions. These results suggest a widely expanded role of cryptands and related molecules in stabilizing nonmetallic cations. [ABSTRACT FROM AUTHOR]

Published

2008

154. Identification of intermediate compounds and photodegradation mechanisms of omeprazole under the system UV/O2.

Author

Leyva, Elisa, Moctezuma, Edgar, Baines, Kim M., Noriega, Saúl, Pérez Flores, Francisco, and Lara‐Pérez, Carmen

Subjects

*OMEPRAZOLE, *PHOTODEGRADATION, *PROTON pump inhibitors, *SULFONIC acids, *HYDROXYL group, *SCISSION (Chemistry)

Abstract

The photodegradation of the proton pump inhibitor omeprazole (OME) in aqueous media with the system UV/O2 is presented. The photodegradation rate was assessed by HPLC and UV‐vis spectroscopy, while the mineralization rate was obtained by TOC measurements. Degradation products were investigated by IR spectroscopy and GC‐MS analysis. UV‐vis absorbance and HPLC results indicated that OME is completely degraded within 3 minutes of irradiation. TOC analysis indicated that intermediates compounds are relatively easy to mineralize since 80% mineralization is achieved within 2 hours. IR studies demonstrated a rapid oxidation of OME leading to the formation of amines and both sulfonic and carboxylic acids. GC‐MS data indicated that the initial photoproducts are derivatives of both benzimidazole and pyridine produced after the photochemical cleavage of the C–S bond. Plausible mechanisms for the direct and indirect degradation of OME are given. In the photochemical degradation of OME, many intermediate compounds are actually generated. Several of them were generated from hydroxyl radical reactions, but some of them resulted from rearrangements, reductive reactions, and through the formation of highly reactive intermediates such as pseudo carbene, thiooxirane, and sulfenamide. [ABSTRACT FROM AUTHOR]

Published

2020

155. The Diverse Reactivity of Disilenes Toward Isocyanides.

Author

Tashkandi, Nada Y., McOnie, Sarah L., Bourque, Jeremy L., Reinhold, Crispin R. W., and Baines, Kim M.

Subjects

*ISOCYANIDES, *CHEMICAL reactions, *RING formation (Chemistry), *DENSITY functional theory, *SILICON

Abstract

The addition of 2,6‐dimethylphenyl isocyanide and t‐butyl isocyanide to tetramesityldisilene was examined. In both cases, the initially formed product is an iminodisilirane; however, the iminodisiliranes are unstable under the reaction conditions and react with a second equivalent of the isocyanide to give either a 3‐silaazetidine or a novel bicyclic double enamine, respectively. Taken together with the previous examples in the literature, the results demonstrate that subtle differences in the steric bulk of the disilene or the electronic effects of the isocyanide can lead to dramatic differences in the reaction pathway. [ABSTRACT FROM AUTHOR]

Published

2019

156. Mechanism of the addition of alkynes to silenes and germenes: A density functional study.

Author

Pavelka, Laura C., Hanson, Margaret A., Staroverov, Viktor N., and Baines, Kim M.

Subjects

*DENSITY functional theory, *ALKYNES, *RING formation (Chemistry), *SILICON compounds, *ZWITTERIONS, *COMPUTATIONAL chemistry

Abstract

Density functional theory (DFT) and the coupled cluster method have been used to study the mechanism of the cycloaddition of acetylene to silene, H2Si=CH2, and germene, H2Ge=CH2, at the B3LYP/6-311++G(d,p) and CCSD/6-311++G(d,p) levels of theory. Diradical, zwitterionic, and concerted pathways were located for both metallenes. The computational results were compared to experimental data to propose the most likely reaction pathway for each metallene. [ABSTRACT FROM AUTHOR]

Published

2015

157. The addition of terminal alkynes to dimesitylfluorenylidenegermane.

Author

Tashkandi, Nada Y., Pavelka, Laura C., Hanson, Margaret A., and Baines, Kim M.

Subjects

*ALKYNES, *RING formation (Chemistry), *TETRAHYDROFURAN, *X-ray crystallography, *NUCLEAR magnetic resonance spectroscopy, *X-ray diffraction

Abstract

A variety of terminal alkynes were added to dimesitylfluorenylidenegermane, Mes2Ge=CR2 (where CR2 = fluorenylidene). The addition of phenylacetylene and 1-hexyne to Mes2Ge=CR2 gave a germacyclohexene via a cycloaddition where the germene acts as the 4π component and the alkyne as the 2π component. Through the use of a mechanistic probe, trans-(2-phenylcyclopropyl)-acetylene, the reaction was postulated to proceed through a concerted [2+4] cycloaddition. The addition of ethoxyacetylene to the germene produced both a [2+2] cycloadduct, a germacyclobutene, and a [2+4] cycloadduct, a germacyclohexene. The results of this study are compared to the results of the addition of alkynes to Mes2Ge=CHCH2- t-Bu. [ABSTRACT FROM AUTHOR]

Published

2014

158. Cyclopropyl Alkynes as Mechanistic Probes To Distinguish between Vinyl Radical and Ionic Intermediates.

Author

Gottschling, Stephen E., Grant, Tina N., Milnes, Kaarina K., Jennings, Michael C., and Baines, Kim M.

Subjects

*ALKYNES, *CHEMICAL reactions, *SULFURIC acid, *RADICALS (Chemistry), *PHENYL compounds, *ORGANIC compounds, *ORGANIC chemistry

Abstract

The reactions of (trans-2-phenylcyclopropyl)ethyne 1a, (trans,trans-2-methoxy-3-phenylcyclopropyl)-ethyne, 1b, and (trans,trans-2-methoxy- 1-methyl-3-phenylcyclopropyl)ethyne, 1c, with either aqueous sulfuric acid or tris(trimethylsilyl)silane (or tributyltin hydride) and AIBN have been investigated. Protonation and addition of the silyl (or stannyl) radical occurred at the terminal position of the alkyne giving an α-cyclopropyl-substituted vinyl cation or radical, respectively. Under both reaction conditions, la yielded products derived from ring opening toward the phenyl substituent. Alkynes 1b and 1c, however, gave different products depending on whether radical or cationic conditions were used. When radical conditions were employed, products derived from regioselective ring opening toward the phenyl substituent were obtained. In contrast, when cationic conditions were employed, products derived from selective ring opening toward the methoxy substituent were isolated. The corresponding α-cyclopropyl-substituted vinyllithium derivatives were also synthesized and were found to be stable toward rearrangement. An estimate of the rate constants for ring opening of the α-cyclopropylvinyl cations was also made: values of 1010-1012 s-1 were found for the vinyl cations derived from protonation of the terminal carbon of alkynes 1a-c. Based on these results, cyclopropyl alkynes 1a-c can be classified as hypersensitive mechanistic probes for the detection of vinyl radical or cationic intermediates generated adjacent to the cyclopropyl ring and, in the case of 1b and 1c, the distinction between a radical or cationic intermediate is possible. [ABSTRACT FROM AUTHOR]

Published

2005

159. The addition of organometallic reagents to tetramesityldigermene.

Author

Fujdala, Kyle L, Gracey, David W.K, Wong, Erica F, and Baines, Kim M

Subjects

*GRIGNARD reagents, *CHEMICAL reagents, *MAGNESIUM compounds, *LITHIUM compounds, *CHEMICALS

Abstract

The thermolysis and photolysis of hexamesitylcyclotrigermane in the presence of ethylmagnesium bromide has been investigated. Under photochemical conditions, ethyldimesitylgermane, 1,2-diethyl-1,1,2-trimesityldigermane and ethyl-1,1,2,2-tetramesityldigermane were isolated and, under thermal conditions, 1,2,2-triethyl-1,1-dimesityl digermane and 2,2-diethyl-1,1,1-trimesityldigermane were isolated. The photolysis of hexamesitylcyclotrigermane in the presence of methyllithium has also been investigated. In both cases, the organometallic reagent adds to tetramesityl digermene and dimesitylgermylene formed by photochemical or thermal cleavage of the cyclotrigermane. In the case of the addition of the Grignard reagent, the resulting germyl Grignard reagent undergoes a facile ligand exchange reaction.Key words: digermene, germylene, Grignard reagents, alkyllithium reagents, germylmagnesium compounds, germyllithium compounds.On a étudié la thermolyse et la photolyse de l'hexamésitylcyclotrigermane en présence de bromure d'éthylmagnésium. Dans les conditions photochimiques, on a isolé de l'éthyldimésitylgermane, du 1,2-diéthyl-1,1,2-trimésityldigermane et du éthyl-1,1,2,2-tétramésityldigermane alors, que dans des conditions thermiques, on a isolé du 1,2,2-triéthyl-1,1-dimésityldigermane et du 2,2-diéthyl-1,1,1-trimésityldigermane. On a aussi examiné la photolyse de l'hexamésitylcyclotrigermane en présence de méthyllithium. Dans les deux cas, le réactif organométallique s'additionne au tétraméthyldigermène et au dimésitylgermylène qui se forment par clivage photochimique ou thermique du cyclotrigermane. Dans le cas de l'addition du réactif de Grignard, le réactif germylmagnésien qui en résulte subit une réaction facile d'échange de ligands.Mots clés : digermène, germylène, réactifs de Grignard, réactifs alkyllithium, composés germylmagnésium, composés germyllithium.[Traduit par la Rédaction] [ABSTRACT FROM AUTHOR]

Published

2002

160. A Germanium(II)-Centered Dication.

Author

Rupar, Paul A., Staroverov, Viktor N., Ragogna, Paul J., and Baines, Kim M.

Subjects

*GERMANIUM, *GERMANIUM compounds, *CHEMICAL elements, *CHEMICAL reactions, *CARBENES

Abstract

The article focuses on the interpretation of straightforward synthesis of 42, a germanium-centered dication. It states that the structure diiodide salt of 42 in which three crystallographically identical carbenes are bonded to the germanium center forming a pyramidal C3 propeller. Moreover, the synthesis of 42 is useful reagent for the synthesis of many germanium-containing compounds.

Published

2007

161. An Alternative Method for the Selective Synthesis of Ortho-nitro Anilines Using Bismuth Nitrate Pentahydrate.

Author

Loera-García BV, Leyva-Ramos S, Cardoso-Ortiz J, Noriega S, Romo-Mancillas A, Baines KM, and McOnei SL

Abstract

Background: Nitroaromatic compounds are important scaffolds used for the syn-thesis of a variety of compounds, such as explosives, herbicides, dyes, perfumes and phar-maceuticals. Bismuth nitrate pentahydrate is a widely used reagent in organic synthesis; how-ever, its utility as a nitrating agent for anilines is underexplored., Objective: The aim of this work is to propose and find the proper reaction conditions of an alternative nitrating agent constituted by a mixture of bismuth nitrate / acetic anhydride in DCM with a series of substituted anilines under mild reflux., Methods: Several anilines having both activating and deactivating substituents in the ortho, meta and para positions were the substrate for the nitration reaction. Experimental conditions were performed in "one-pot" conditions before product purification., Results: Bi(NO3)3•5H2O demonstrated to be effective and somehow regioselective when it came to the nitration of anilines in the ortho position. Although other products were also identified under these conditions, in most cases, the ortho derivative was the major or even the only product obtained with moderate to high yields in the range of 50% - 96%., Conclusion: Bi(NO3)3•5H2O is an efficient and safe nitrating agent since the use of concen-trated and corrosive acids like sulfuric and nitric is avoided; furthermore, bismuth nitrate is low-priced and no special care nor equipment is required., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

162. Expanding the scope of bis(catecholato)germane catalysis: hydrosilylation, hydroboration, Friedel-Crafts alkylation and oligomerization.

Author

Henry AT, Nanan DAR, and Baines KM

Abstract

Various applications of bis(catecholato)germanes in catalysis were examined. The hydrosilylation of benzaldehydes, hydroboration of phenylacetylene derivatives, and Friedel-Crafts alkylation using arylalkenes and either diphenylamine or anisole was achieved. Furthermore, the recently reported oligomerization of α-methylstyrene catalyzed by bis(catecholato)germanes with weak donor ligands was examined further. The formation of a trimer species was observed in DCM. VTNA and Hammett analyses of the oligomerization reaction were conducted and an updated mechanism for bis(catecholato)germane catalysis is proposed.

Published

2023

163. On the Stereochemistry of the NH Bond Activation of Ammonia or Amines by Disilenes: Predictability.

Author

Sharif ZM, Özpınar GA, McOnie SL, Boyle PD, Müller T, and Baines KM

Abstract

The stereochemistry of the addition of NH 3 to the stereoisomers of 1,2-di-tert-butyl-1,2-bis(2,4,6-triisopropylphenyl)disilene (Z-5 or E-5) is 100 % stereospecific giving two isomeric disilylamines 6 and 7, respectively, derived from syn-addition to the stereoisomeric disilenes. Variable time normalization analysis studies of the reaction of tetramesityldisilene (3) with isopropylamine ( i PrNH 2 ) revealed that the order in both amine and disilene is 1. The kinetic isotope effect for the addition of i PrNH 2 / i PrND 2 to tetramesityldisilene was determined to be 3.04±0.06 at 298 K, a primary KIE, indicating that the proton is transferred in the rate determining step. Competition studies between the addition of PrNH 2 and i PrNH 2 to tetramesityldisilene resulted in the exclusive formation of the PrNH 2 adduct consistent with a nucleophilic addition. Computational studies of the mechanism of the addition of ammonia to E-5 revealed the lowest energy pathway involves the formation of the donor adduct derived from syn-addition, followed by intramolecular syn-transfer of the proton. The formation of the donor adduct is the rate determining step. The results of this study, together with previous studies on the addition of ammonia and amines to disilenes, allow for a refinement of our understanding of the mechanism of this important fundamental reaction in disilene chemistry, and allow us to understand our ability to reliably predict the stereochemical outcomes of future NH σ-bond activation reactions., (© 2023 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2023

164. Novel ciprofloxacin and norfloxacin-tetrazole hybrids as potential antibacterial and antiviral agents: Targeting S. aureus topoisomerase and SARS-CoV-2-MPro.

Author

Cardoso-Ortiz J, Leyva-Ramos S, Baines KM, Gómez-Durán CFA, Hernández-López H, Palacios-Can FJ, Valcarcel-Gamiño JA, Leyva-Peralta MA, and Razo-Hernández RS

Abstract

This study was designed to synthesize hybridizing molecules from ciprofloxacin and norfloxacin by enhancing their biological activity with tetrazoles. The synthesized compounds were investigated in the interaction with the target enzyme of fluoroquinolones (DNA gyrase) and COVID-19 main protease using molecular similarity, molecular docking, and QSAR studies. A QSAR study was carried out to explore the antibacterial activity of our compounds over Staphylococcus aureus a QSAR study, using descriptors obtained from the docking with DNA gyrase, in combination with steric type descriptors, was done obtaining suitable statistical parameters ( R 2 = 87.00 , Q L M O 2 = 71.67 , and Q E X T 2 = 73.49 ) to support our results. The binding interaction of our compounds with CoV-2-Mpro was done by molecular docking and were compared with different covalent and non-covalent inhibitors of this enzyme. For the docking studies we used several crystallographic structures of the CoV-2-Mpro. The interaction energy values and binding mode with several key residues, by our compounds, support the capability of them to be CoV-2-Mpro inhibitors. The characterization of the compounds was completed using FT-IR, 1 H-NMR, 13 C-NMR, 19 F-NMR and HRMS spectroscopic methods. The results showed that compounds 1, 4, 5, 10 and 12 had the potential to be further studied as new antibacterial and antiviral compounds., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 Elsevier B.V. All rights reserved.)

Published

2023

165. Synthesis and Reactivity of Cationic Gallium(I) [12]Crown-4 Complexes.

Author

Bourque JL, Nanni RA, Biesinger MC, and Baines KM

Abstract

The synthesis and reactivity of a gallium(I) cationic complex using [12]crown-4 as a stabilizing ligand were explored. The synthesis of [Ga([12]crown-4)][GaCl 4 ] was achieved in one step from commercially available starting materials. Anion exchange was utilized to replace the reactive tetrachlorogallate anion for the perfluorophenylborate anion. [Ga([12]crown-4)][B(C 6 F 5 ) 4 ] was analyzed using XPS, which allowed for the classification of the gallium(I)-crown ether complex as electron-deficient. Reactions of the gallium(I)-crown ether complex with Cp*K and cryptand[2.2.2] demonstrated the facile synthesis of a known gallium(I) compound as well as the generation of new gallium(I) complexes, highlighting the use of the gallium(I)-crown ether complex as an effective starting material for new gallium(I) complexes.

Published

2021

166. Chlorine-35 Solid-State Nuclear Magnetic Resonance Spectroscopy as an Indirect Probe of the Oxidation Number of Tin in Tin Chlorides.

Author

Lucier BEG, Terskikh VV, Guo J, Bourque JL, McOnie SL, Ripmeester JA, Huang Y, and Baines KM

Abstract

Ultrawideline 35 Cl solid-state nuclear magnetic resonance (SSNMR) spectra of a series of 12 tin chlorides were recorded. The magnitude of the 35 Cl quadrupolar coupling constant ( C Q ) was shown to consistently indicate the chemical state (oxidation number) of the bound Sn center. The chemical state of the Sn center was independently verified by tin Mössbauer spectroscopy. C Q ( 35 Cl) values of >30 MHz correspond to Sn(IV), while C Q ( 35 Cl) readings of <30 MHz indicate that Sn(II) is present. Tin-119 SSNMR experiments would seem to be the most direct and effective route to interrogating tin in these systems, yet we show that ambiguous results can emerge from this method, which may lead to an incorrect interpretation of the Sn oxidation number. The accumulated 35 Cl NMR data are used as a guide to assign the Sn oxidation number in the mixed-valent metal complex Ph 3 PPd Im SnCl 2 . The synthesis and crystal structure of the related Ph 3 PPt Im SnCl 2 are reported, and 195 Pt and 35 Cl SSNMR experiments were also used to investigate its Pt-Sn bonding. Plane-wave DFT calculations of 35 Cl, 119 Sn, and 195 Pt NMR parameters are used to model and interpret experimental data, supported by computed 119 Sn and 195 Pt chemical shift tensor orientations. Given the ubiquity of directly bound Cl centers in organometallic and inorganic systems, there is tremendous potential for widespread usage of 35 Cl SSNMR parameters to provide a reliable indication of the chemical state in metal chlorides.

Published

2020

167. A chlorine-free protocol for processing germanium.

Author

Glavinović M, Krause M, Yang L, McLeod JA, Liu L, Baines KM, Friščić T, and Lumb JP

Abstract

Replacing molecular chlorine and hydrochloric acid with less energy- and risk-intensive reagents would markedly improve the environmental impact of metal manufacturing at a time when demand for metals is rapidly increasing. We describe a recyclable quinone/catechol redox platform that provides an innovative replacement for elemental chlorine and hydrochloric acid in the conversion of either germanium metal or germanium dioxide to a germanium tetrachloride substitute. Germanium is classified as a "critical" element based on its high dispersion in the environment, growing demand, and lack of suitable substitutes. Our approach replaces the oxidizing capacity of chlorine with molecular oxygen and replaces germanium tetrachloride with an air- and moisture-stable Ge(IV)-catecholate that is kinetically competent for conversion to high-purity germanes.

Published

2017

168. Chemical state determination of molecular gallium compounds using XPS.

Author

Bourque JL, Biesinger MC, and Baines KM

Abstract

A series of molecular gallium compounds were analyzed using X-ray photoelectron spectroscopy (XPS). Specifically, the Ga 2p3/2 and Ga 3d5/2 photoelectron binding energies and the Ga L3M45M45 Auger electron kinetic energies of compounds with gallium in a range of assigned oxidation numbers and with different stabilizing ligands were measured. Auger parameters were calculated and used to generate multiple chemical speciation (or Wagner) plots that were subsequently used to characterize the novel gallium-cryptand[2.2.2] complexes that possess ambiguous oxidation numbers for gallium. The results presented demonstrate the ability of widely accessible XPS instruments to experimentally determine the chemical state of gallium centers and, as a consequence, provide deeper insights into reactivity compared to assigned oxidation and valence numbers.

Published

2016

169. The addition of nitriles to a molecular digermene: reversible addition and comparison to surface reactivity.

Author

Hardwick JA and Baines KM

Abstract

The addition of acetonitrile, propionitrile, and acrylonitrile to tetramesityldigermene was investigated and compared to the addition of acetonitrile and acrylonitrile to germanium dimers on the Ge(100)-2×1 surface. In each case, a 1,2,3-azadigermetine was formed as the major product. As on the surface, the addition of nitriles to digermenes was found to be reversible, providing the first example of a reversible cycloaddition of a ditetrelene. No evidence for a six-membered cyclic ketenimine was observed as noted in the surface chemistry, suggesting that the surface ketenimine might only form between two adjacent dimers rather than on a single dimer. The comparative chemistry provides important insights that are not possible by the independent study of each system., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

170. Solid-state 73Ge NMR spectroscopy of simple organogermanes.

Author

Hanson MA, Sutrisno A, Terskikh VV, Baines KM, and Huang Y

Abstract

Germanium-73 is an extremely challenging nucleus to examine by NMR spectroscopy due to its unfavorable NMR properties. Through the use of an ultrahigh (21.1 T) magnetic field, a systematic study of a series of simple organogermanes was carried out. In those cases for which X-ray structural data were available, correlations were drawn between the NMR parameters and structural metrics. These data were combined with DFT calculations to obtain insight into the structures of several compounds with unknown crystal structures., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

171. Cationic crown ether complexes of germanium(II).

Author

Rupar PA, Bandyopadhyay R, Cooper BF, Stinchcombe MR, Ragogna PJ, Macdonald CL, and Baines KM

Abstract

Fit for a king: Cationic complexes of Ge(II) can be prepared by using crown ethers to stabilize and protect the germanium center. Three different crown ethers were employed: [12]crown-4 (see structure, Ge teal, O red, C gray), [15]crown-5, and [18]crown-6. The structures of the cationic complexes depend on the cavity size of the crown ether and on the substituent on germanium.

Published

2009

172. Addition polymerization of 1,1-dimesitylneopentylgermene: synthesis of a polygermene.

Author

Pavelka LC, Holder SJ, and Baines KM

Abstract

A new polymer with an alternating germanium-carbon backbone has been synthesized from 1,1-dimesitylneopentylgermene via addition polymerization using an anionic initiator.

Published

2008

173. Determination of the rate constant for ring opening of an alpha-cyclopropylvinyl radical.

Author

Milnes KK, Gottschling SE, and Baines KM

Abstract

The rate constant for ring opening of the 1-(trans-2-phenylcyclopropyl)ethen-1-yl radical, 4, generated by photolysis of the corresponding vinyl iodide 2, is reported. The value of the rate constant was determined by the tin hydride method and was found to be (1.6+/-0.2)x10(10) s-1, one order of magnitude smaller than the rate constant for rearrangement of the trans-2-phenylcyclopropylcarbinyl radical.

Published

2004