0000000000117854
AUTHOR
Carsten Strohmann
Cytotoxic bufadienolides from the leaves of a medicinal plant Melianthus comosus collected in South Africa.
Abstract From the leaves of South African medicinal plant Melianthus comosus, four previously undescribed bufadienolides, 16β-formyloxymelianthugenin (1), 2β-acetoxymelianthusigenin (2), 2β-hydroxy-3β,5β-di-O-acetylhellebrigenin (3), and 2β-acetoxy-5β-O-acetylhellebrigenin (4) were isolated together with two known bufadienolides. The structural elucidation of the compounds was based on 1D and 2D NMR spectroscopy, high-resolution mass spectrometry, and other spectroscopic methods. The relative configurations were determined by single-crystal X-ray crystallography analysis and NOESY correlations. The isolated compounds displayed strong cytotoxicity against MCF-7 breast cancer cells, sensitive…
Reactivity of CuI and CuBr toward Et2S: a reinvestigation on the self-assembly of luminescent copper(I) coordination polymers.
CuI reacts with SEt(2) in hexane to afford the known strongly luminescent 1D coordination polymer [(Et(2)S)(3){Cu(4)(mu(3)-I)(4)}](n) (1). Its X-ray structure has been redetermined at 115, 235, and 275 K in order to address the behavior of the cluster-centered emission and is built upon Cu(4)(mu(3)-I)(4) cubane-like clusters as secondary building units (SBUs), which are interconnected via bridging SEt(2) ligands. However, we could not reproduce the preparation of a coordination polymer with composition [(Et(2)S)(3){Cu(4)(mu(3)-Br)(4)}](n) as reported in Inorg. Chem. 1975, 14, 1667. In contrast, the autoassembly reaction of SEt(2) with CuBr results in the formation of a novel 1D coordination…
Copper(I) Halides (X = Br, I) Coordinated to Bis(arylthio)methane Ligands: Aryl Substitution and Halide Effects on the Dimensionality, Cluster Size and Luminescence Properties of the Coordination Polymers
Bis(phenylthio)methane (L1) reacts with CuI to yield the 1D-coordination polymer [{Cu4(μ3-I)4}(μ-L1)2]n (1) bearing cubane Cu4I4 clusters as connecting nodes. The crystal structures at 115, 155, 195, and 235 K provided evidence for a phase transition changing from the monoclinic space group C2/c to P21/c. The self-assembly process of CuI with bis(p-tolylthio)methane (L2), bis(4-methoxyphenylthio)methane (L3), and bis(4-bromo-phenylthio)methane (L4) affords the 1D-coordination polymers [{Cu4(μ3-I)4}(μ-Lx)2]n (x = 2, 3, or 4). Compounds 2 and 4 are isostructural with C2/c low temperature polymorph of 1, whereas the inversion centers and 2-fold axes are lost in 3 (space group Cc). The use of b…
Reinvestigation of the Pd-catalysed bis(silylation) of alkynes with 1,1,2,2-tetramethyl-1,2-bis(phenylthiomethyl)disilane: Unexpected formation of the eight-membered siloxane-chelate complex cis-[PdCl2{(PhSCH2SiMe2)2O}].
International audience; The bis(silylated) alkenes Z-(PhSCH2)Me2SiC(H)=C(Fc)SiMe2(CH2SPh) (2) and Z-(PhSCH2)Me2SiC(H)=C(bipheny)SiMe2(CH2SPh) (3) have been prepared by Pd-catalysed double silylation of ethynylferrocene and 4-ethynyl-1,1'-biphenyl in the presence of 1,1,2,2-tetramethyl-1,2-bis(phenylthiomethyl)disilane (1). A reinvestigation on the interaction of 1 with [PdCl2(PhCN)2] in technical-grade CH2Cl2 as solvent revealed competition between reduction to elemental palladium (due to oxidative addition of the Si-Si bond across Pd(II) and subsequent reductive elimination) and formation of an unusual eight-membered chelate complex cis-[PdCl2{(PhSCH2SiMe2)2O}] (4), which is fluxional in s…
Synthesis, crystallographic and electrochemical study of ethynyl[2.2]paracyclophane derived cobalt metallatetrahedranes
Abstract A series of alkynyl cobalt complexes [Co2(μ-η2-HCC–PCP)(CO)6−nLn] [n = 0 (2); n = 2, L2 = dppa (3), dppm (4), dcpm (6), 2 P(OPh)3 (7)] and [Co2(CO)4L2]2(μ-η2:μ-η2-HCC–PCP–CCH)] (L2 = dppm (8), dcpm (9); (PCP = [2.2]paracyclophane) has been prepared and characterized. The molecular structures of 3 and 4, as well as that of [Co2(CO)4(μ-CO)2(μ2-dcpm)] (5), have been determined by X-ray diffraction. Electrochemical studies (Cyclic Voltammetry, Rotating Disk Electrode) and luminescence spectroscopy have been used to evaluate the extent of the electronic communication through the PCP motif using the “Co2C2” centres as a probe. No electronic coupling between the Co2(CO)n centres via the b…
Regio- and Stereoselective Synthesis of Spiropyrrolizidines and Piperazines through Azomethine Ylide Cycloaddition Reaction.
A series of original spiropyrrolizidine derivatives has been prepared by a one-pot three-component [3 + 2] cycloaddition reaction of (E)-3-arylidene-1-phenyl-pyrrolidine-2,5-diones, l-proline, and the cyclic ketones 1H-indole-2,3-dione (isatin), indenoquinoxaline-11-one and acenaphthenequinone. We disclose an unprecedented isomerization of some spiroadducts leading to a new family of spirooxindolepyrrolizidines. Furthermore, these cycloadducts underwent retro-1,3-dipolar cycloaddition yielding unexpected regioisomers. Upon treatment of the dipolarophiles with in situ generated azomethine ylides from l-proline or acenaphthenequinone, formation of spiroadducts and unusual polycyclic fused pip…
Reactivity of CuI and CuBr toward Dialkyl Sulfides RSR: From Discrete Molecular Cu I S and Cu I S Clusters to Luminescent Copper(I) Coordination Polymers
The 1D coordination polymer (CP) [(Me2S)3{Cu2(μ-I)2}]n (1) is formed when CuI reacts with SMe2 in n-heptane, whereas in acetonitrile (MeCN), the reaction forms exclusively the 2D CP [(Me2S)3{Cu4(μ-I)4}]n (2) containing “flower-basket” Cu4I4 units. The reaction product of CuI with MeSEt is also solvent-dependent, where the 1D polymer [(MeSEt)2{Cu4(μ3-I)2(μ2-I)2}(MeCN)2]n (3) containing “stepped-cubane” Cu4I4 units is isolated in MeCN. In contrast, the reaction in n-heptane affords the 1D CP [(MeSEt)3{Cu4(μ3-I)4}]n (4) containing “closed-cubane” Cu4I4 clusters. The reaction of MeSPr with CuI provides the structurally related 1D CP [(MeSPr)3{Cu4(μ3-I)4}]n (5), for which the X-ray structure has…
ChemInform Abstract: Regio- and Stereoselective Synthesis of Spiropyrrolizidines and Piperazines Through Azomethine Ylide Cycloaddition Reaction.
A series of original spiropyrrolizidine derivatives has been prepared by a one-pot three-component [3 + 2] cycloaddition reaction of (E)-3-arylidene-1-phenyl-pyrrolidine-2,5-diones, l-proline, and the cyclic ketones 1H-indole-2,3-dione (isatin), indenoquinoxaline-11-one and acenaphthenequinone. We disclose an unprecedented isomerization of some spiroadducts leading to a new family of spirooxindolepyrrolizidines. Furthermore, these cycloadducts underwent retro-1,3-dipolar cycloaddition yielding unexpected regioisomers. Upon treatment of the dipolarophiles with in situ generated azomethine ylides from l-proline or acenaphthenequinone, formation of spiroadducts and unusual polycyclic fused pip…
Cytotoxic Bufadienolides from the Leaves of Melianthus major
Melianthus major is a medicinal plant endemic to South Africa. Its leaf extract led to the isolation of five new bufadienolides, 2β-acetoxy-3,5-di-O-acetylhellebrigenin (1), 2β-acetoxy-3-O-acetylhellebrigenin (2), 2β-acetoxy-14-deoxy-15β,16β-epoxymelianthugenin (4), 2β-acetoxy-14-deoxy-15β,16β-epoxymelianthusigenin (5), and 2β-hydroxymelianthusigenin (6), and four known analogues. The structures of the compounds were elucidated using NMR and HRESIMS data analyses. The relative configurations were defined by single-crystal X-ray crystallography and NOESY correlations. The isolated compounds exhibited strong cytotoxicity against MCF-7 breast cancer cells and sensitive CCRF-CEM and multidrug-r…
(2,2‐Dibromovinyl)ferrocene as a Building Block for the Assembly of Heterodinuclear Complexes – Preparation of an σ‐Alkenylpalladium Complex and Dimetallic Dithioether Complexes
The oxidative addition of (2,2-dibromovinyl)ferrocene [Br2C=C(H)–Fc] (1) to [Pd(PPh3)4] yields the heterodinuclear σ-alkenyl complex trans-[{Pd(Br)(PPh3)2}–C(Br)=C(H)–Fc] (2). Nucleophilic attack of sodium thiolates on 1 unexpectedly affords the vinyl thioether derivatives (Z)-[(RS)(H)C=C(H)–Fc] (4a: R = Ph; 4b: R = tBu; 4c: R = Et). Complexes 4a and 4c can also be prepared by addition of NaSR across the triple bond of Fc–C≡C–H (3). Addition of an excess of NaSR to 1 affords the dithioether derivatives (Z)-[(RS)(H)C=C(SR)–Fc] (5a: R = Ph; 5b: R = p-tolyl; 5c: R = Et). An addition/elimination sequence is suggested to account for this surprising result. The yield of 5c is very low due to a co…
1,3-Dipolar Cycloaddition Reactions of Indan-1-one Enamines across Arylnitrile Oxides Leading to Novel Cyclic Isoxazoline Derivatives
Synthesis of a series of cyclic fused-isoxazolines has been accomplished by regioselective and diastereoselective 1,3-dipolar cycloaddition of 3-methylindan-1-one enamines (1a, 1b, 1c) and 3-phenylindan-1-one enamines (2a, 2b, 2c) to arylnitrile oxides (3d, 3e, 3f, 3g, 3h). The structure of the cycloadducts was elucidated by 1H and 13C NMR spectroscopy. The proposed regio- and stereochemistry of fused-compounds (4) and (5) has also been corroborated by two single-crystal X-ray diffraction studies carried out on 4-methyl-8b-morpholinyl-3-(p-tolyl)-4H-3a,8b-dihydroindeno[2,3-d]isoxazoline (4be) and 3-(p-anisyl)-4-phenyl-8b-pyrrolidinyl-4H-3a,8b-dihydroindeno[2,3-d]isoxazoline (5af) and by mea…
1,4-Bis(arylthio)but-2-enes as Assembling Ligands for (Cu2X2)n (X = I, Br; n = 1, 2) Coordination Polymers: Aryl Substitution, Olefin Configuration, and Halide Effects on the Dimensionality, Cluster Size, and Luminescence Properties
CuI reacts with E-PhS(CH2CH═CHCH2)SPh, L1, to afford the coordination polymer (CP) [Cu2I2{μ-E-PhS(CH2CH═CHCH2)SPh}2]n (1a). The unprecedented square-grid network of 1 is built upon alternating two-dimensional (2D) layers with an ABAB sequence and contains rhomboid Cu2(μ2-I)2 clusters as secondary building units (SBUs). Notably, layer A, interconnected by bridging L1 ligands, contains exclusively dinuclear units with short Cu···Cu separations [2.6485(7) A; 115 K]. In contrast, layer B exhibits Cu···Cu distances of 2.8133(8) A. The same network is observed when CuBr reacts with L1. In the 2D network of [Cu2Br2{μ-E-PhS(CH2CH═CHCH2)SPh}2]n (1b), isotype to 1a, one square-grid-type layer contain…
CCDC 1405446: Experimental Crystal Structure Determination
Related Article: Saoussen Haddad, Sarra Boudriga, François Porzio, Armand Soldera, Moheddine Askri, Michael Knorr, Yoann Rousselin, Marek M. Kubicki, Christopher Golz, and Carsten Strohmann|2015|J.Org.Chem.|80|9064|doi:10.1021/acs.joc.5b01399
CCDC 1405448: Experimental Crystal Structure Determination
Related Article: Saoussen Haddad, Sarra Boudriga, François Porzio, Armand Soldera, Moheddine Askri, Michael Knorr, Yoann Rousselin, Marek M. Kubicki, Christopher Golz, and Carsten Strohmann|2015|J.Org.Chem.|80|9064|doi:10.1021/acs.joc.5b01399
CCDC 1047405: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1418779: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1047403: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1047398: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 974338: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1047410: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 974340: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1418785: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1047408: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1418780: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 974327: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1047402: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1418767: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1418763: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1047394: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1418781: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1418772: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 974334: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1405449: Experimental Crystal Structure Determination
Related Article: Saoussen Haddad, Sarra Boudriga, François Porzio, Armand Soldera, Moheddine Askri, Michael Knorr, Yoann Rousselin, Marek M. Kubicki, Christopher Golz, and Carsten Strohmann|2015|J.Org.Chem.|80|9064|doi:10.1021/acs.joc.5b01399
CCDC 830704: Experimental Crystal Structure Determination
Related Article: Hanene Jelizi, Nadia Wannassi, Mohamed El Baker Rammah, Kabula Ciamala, Michael Knorr, Yoann Rousselin, Marek M. Kubicki, Carsten Strohmann and Mironel Enescu|2014|J.Heterocycl.Chem.|51|383|doi:10.1002/jhet.1588
CCDC 1418782: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1418770: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1418765: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 974333: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1047411: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1047401: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1981430: Experimental Crystal Structure Determination
Related Article: Kibrom Gebreheiwot Bedane, Lukas Brieger, Carsten Strohmann, Ean-Jeong Seo, Thomas Efferth, Michael Spiteller|2020|Bioorg.Chem.|102|104102|doi:10.1016/j.bioorg.2020.104102
CCDC 1418776: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1418784: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1047396: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1405447: Experimental Crystal Structure Determination
Related Article: Saoussen Haddad, Sarra Boudriga, François Porzio, Armand Soldera, Moheddine Askri, Michael Knorr, Yoann Rousselin, Marek M. Kubicki, Christopher Golz, and Carsten Strohmann|2015|J.Org.Chem.|80|9064|doi:10.1021/acs.joc.5b01399
CCDC 831070: Experimental Crystal Structure Determination
Related Article: Hanene Jelizi, Nadia Wannassi, Mohamed El Baker Rammah, Kabula Ciamala, Michael Knorr, Yoann Rousselin, Marek M. Kubicki, Carsten Strohmann and Mironel Enescu|2014|J.Heterocycl.Chem.|51|383|doi:10.1002/jhet.1588
CCDC 974326: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 974341: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 974324: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1047399: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1418769: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 974325: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1418774: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1418783: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1418771: Experimental Crystal Structure Determination
Related Article: Antoine Bonnot, Michael Knorr, Fabrice Guyon, Marek M. Kubicki, Yoann Rousselin, Carsten Strohmann, Daniel Fortin, Pierre D. Harvey|2016|Cryst.Growth Des.|16|774|doi:10.1021/acs.cgd.5b01360
CCDC 1047412: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1047404: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 974328: Experimental Crystal Structure Determination
Related Article: Michael Knorr,Abderrahim Khatyr,Ahmed Dini Aleo,Anass El Yaagoubi,Carsten Strohmann,Marek M. Kubicki,Yoann Rousselin,Shawkat M. Aly,Antony Lapprand,Daniel Fortin, Pierre D. Harvey|2014|Cryst.Growth Des.|14|5373|doi:10.1021/cg500905z
CCDC 1961566: Experimental Crystal Structure Determination
Related Article: Kibrom Gebreheiwot Bedane, Lukas Brieger, Carsten Strohmann, Ean-Jeong Seo, Thomas Efferth, Michael Spiteller|2020|J.Nat.Prod.|83|2122|doi:10.1021/acs.jnatprod.0c00060
CCDC 1047409: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1047406: Experimental Crystal Structure Determination
Related Article: Michael Knorr, Abderrahim Khatyr, Antony Lapprand, Antoine Bonnot, Carsten Strohmann, Marek M. Kubicki, Yoann Rousselin, Pierre D. Harvey|2015|Inorg.Chem.|54|4076|doi:10.1021/acs.inorgchem.5b00327
CCDC 1047407: Experimental Crystal Structure Determination
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CCDC 1418766: Experimental Crystal Structure Determination
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CCDC 974335: Experimental Crystal Structure Determination
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CCDC 1418764: Experimental Crystal Structure Determination
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CCDC 1418775: Experimental Crystal Structure Determination
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CCDC 1047400: Experimental Crystal Structure Determination
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