ZIB

1

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The phenomenon of conglomerate crystallization. 24. Spontaneous resolution in coordination compounds. Classical and spontaneous resolution of the amminebromobis(ethylenediamine)cobalt(2+) cation. Crystal structures and absolute configurations of resolved (+)589-[cis-.LAMBDA.(.delta..lambda.)-Co(en)2(NH3)Br]S4O6 (I) and of conglomerate crystals of [cis-.LAMBDA.(.delta..lambda.)-Co(en)2(NH3)Br]S4O6 (II) (1993)

Bernal, Ivan ; Cetrullo, James ; Jackson, W. Gregory

s.l. : American Chemical Society

Inorganic chemistry 32 (1993), S. 4098-4101

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ISSN: 1520-510X

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/ic00071a022

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2

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The stereochemistry of the aryl phosphate/aryl phosphonate rearrangement in 1,3,2-oxazaphospholidine 2-oxides (1990)

Welch, Steven C. ; Levine, Jeffrey A. ; Bernal, Ivan ; [et al.]

s.l. : American Chemical Society

The @journal of organic chemistry 55 (1990), S. 5991-5995

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ISSN: 1520-6904

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/jo00311a017

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3

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An investigation of the crystalline structure of the quasi-two-dimensional metamagnet of composition [C6H22N4]4+[CuCl4]Cl2 (I), with [C6H22N4]4+=[1,4,7,10-tetraazadecane]·4HC1 (1993)

Bernal, Ivan ; Cetrullo, James ; DeFotis, Gary C. ; [et al.]

Springer

Structural chemistry 4 (1993), S. 33-40

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ISSN: 1572-9001

Keywords: Quasi-two-dimensional metamagnet ; differential scanning calorimetry

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract [C6H22N4]4+[CuCl4 2−]Cl2 (I) crystallizes in the monoclinic space groupP21/c with cell constantsa=15.573(2) Å,b=7.281(2),c=7.092(2),β=91.496(14)°,V= 803.874 Å3, andd(z= 2 mol/cell)=1.762 gm cm−3. Data were collected in the range 4° ≤ 2θ ≤ 50°, for a total of 2662 reflections, of which 2201 were independent and hadI ≽ 3σ(I). These were used in the solution and refinement of the structure. TheF(hkl) obs were corrected for absorption (μ=23.558 cm−1) using Psi scan curves of eight suitable reflections, leading to relative transmission coefficient adjustments ranging from 0.9999 to 0.5722. Structural refinement converged atR(F)= 0.023 and R W (F)=0.026. The coordination around the metal consists of polymeric, axially elongated, six-bonded, trigonal antiprismatic CuCl6 species, not the hoped for, discrete, molecular CuCl6 4− species implied by their chemical formulation. The crystalline lattice contains three different types of ions: the (C6H22N4)4+ cation, a pair of Cl− anions which are hydrogen bonded to the secondary ammonium (-NH2 +-) hydrogens of the cation, and a CuCl4 2− anion. The latter is polymerized into two-dimensional sheets linked to each other by the agency of the cations, in which the two sets of terminal (-NH3 +) hydrogen bond to the axial Cl− ligands. The Cu-Cl distances are 2.279, 2.315, and 2.847 Å. The distance between nearest coppers in adjacent sheets is 15.573(2)Å, the length of thea-axis. The magnetic behavior of the compound is that of a metamagnet, which requires a somewhat unusual set of conditions and is very rare in Cu2+ compounds. Comparison of the magnetic behavior of (I) with that of related compounds is made. The thermal behavior of (I) was studied using differential scanning calorimetric measurements in the range of 120 K to its melting(dec) point (463 K). It undergoes a phase transition from green (low temperature phase) to golden yellow (room temperature phase) at 168 K, another phase transition (golden yellow to red) at 340.6 K, and another at 383.2 K during which there is not evident color change. Finally, it melts with decomposition at ca. 463 K.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00672097

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4

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Overlooked opportunities in stereochemistry. Part III: Alfred Werner's awareness of spontaneous resolutions and of the meaning of hemihedral faces in optically active crystals (1993)

Bernal, Ivan ; Kauffman, George B.

Springer

Structural chemistry 4 (1993), S. 131-138

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ISSN: 1572-9001

Keywords: Hemihedrism ; spontaneous resolution ; optically active crystal

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00677373

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5

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The phenomenon of conglomerate crystallization. XIX. Clavic dissymmetry in coordination compounds. XVII (1990)

Bernal, Ivan ; Cetrullo, James

Springer

Structural chemistry 1 (1990), S. 235-243

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ISSN: 1572-9001

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract [Co(NH3)4(oxalato)]NO3·H2O (1) crystallizes as a conglomerate in space groupP212121 with unit cell constants ofa=7.944(3),b=9.904(11), andc=12.700(2) Å;V=999.15 Å3;d(calc.;z=4)=1.968 g cm−3. [Co(NH3)4(oxalato)]¦·H2O (2) crystallizes in space groupP22/n with cell constants ofa=7.285(1),b=9.959(3),c=15.410(5) Å;β=102.63(2)° andV=1090.98 Å3; d(calc;z=4) = 2.192 g cm−3. Data were collected over the ranges of 4°≤2Θ≤70° and 4°≤2Θ≤55°, respectively for compounds1 and2. This resulted in a total of 2515 and 2823 data for the solution and refinement of the structures of compounds1 and2, respectively. When the refinements converged, the finalR(F) andR w (F) values were, respectively, 0.073 and 0.080 for1 and 0.0378 and 0.0353 for2. Since neither data set was sufficiently good to give a sensible set of positions for all of the hydrogens, the stereochemistry of the two cations could only be defined by the positions of the heavy atoms. In the absence of reliable amine hydrogen positions, N(amine)-O(nitrate and oxalate) distances were examined. Close N(amine)-O(nitrate and oxalate) contacts indicate the presence of a network of significant hydrogen bonds in1. The N-O distances for compound2 also show the presence of hydrogen bonding between the amines and the oxalate ligand and water; however, the bonds are not of the same magnitude as the interactions involving the nitrate oxygens in1. Despite the similarity between the cations of1 and2, the Co-N distances in the two do not exhibit the same pattern. In1, the Co-N distances for amines trans to one another are shorter than the Co-N distances for amines trans to oxalate oxygens; this effect is reversed in2.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00674267

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6

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The phenomenon of conglomerate crystallization. XXXV. The crystallization behaviour of {cis-α-Co(trien)ox]Cl}2·9H2O (1), cis-β-Co(3,2,3-tet)ox]Cl·4H2O(2), {cis-α-Co(trien)ox]NO3}2· H2O (3), and [mer-Co(dien)ox (NO2)] (4) (1994)

Bernal, Ivan ; Cetrullo, James ; Cai, Jiwen

Springer

Transition metal chemistry 19 (1994), S. 221-229

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ISSN: 1572-901X

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary As expected from previous studies, the four title compounds crystallize as racemates from H2O solutions allowed to evaporate at room temperature (ca. 18° C). All four complexes have been characterized by X-ray crystallography. The outer, six-membered rings in (2) are in the chair conformation; and, in the first three species, the secondary nitrogens are chiral centres. In (1) the five-membered rings of the two cations in the asymmetric unit are characterized: Co(1), δ, δ and λ, with the chiralities of the secondary nitrogens (S) and (S); Co(2), λ, λ and δ, with secondary nitrogens (R) and (R). In (3), the five-membered rings of the two cations in the asymmetric unit are: Co(1), δ, δ and λ, with secondary nitrogens (S) and (S); Co(2), δ, λ and δ, with secondary nitrogens (S) and (S). In (2), the five-membered ring is δ and the chiralities of the secondary nitrogens are (R) and (R). In (4), the unique five-membered ring is λ and the central —NH— fragment lies at a mirror plane. Comparison of the crystallization pathways of these complexes with those of related substances are made, and suggestions as to why (1)–(4) select the racemic crystallization pathway are offered.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00161895

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7

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The phenomenon of conglomerate crystallization in coordination compounds. XXIII: The crystallization behavior of [cis-Co(en)2(N3)(SO3)] · 2H2O (I) and of [cis-Co(en)2(NO2)(SO3)] · H2O (II) (1993)

Bernal, Ivan ; Cetrullo, James ; Jackson, W. G.

Springer

Structural chemistry 4 (1993), S. 235-245

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ISSN: 1572-9001

Keywords: Conglomerate crystallization ; cobalt complexes ; X-ray crystallography

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract A room temperature water solution of (I) crystallizes as a racemate, space groupP2 1/n with lattice constantsa=7.737(6),b=10.694(5),c=15.097(6) Å, andβ=102.83(5)°;V=1218.05 Å3 andd (calc; M.W.=337.24, Z=4) = 1.642 g cm−3. A total of 2381 data were collected over the range 4° ≤ 2θ 〈 50°; of these, 1452 (independent and withI ≥ 3σ(I)) were used in the structural analysis. Data were corrected for absorption (μ = 15.76 cm−1), and the relative transmission coefficients ranged from 0.8976 to 0.9984. Refinement led to the finalR(F) andR w(F) residuals of 0.0858 and 0.1116. A room temperature water solution of (II) crystallizes as a racemate in space group P21/c with lattice constantsa=6.638(3),b=11.425(8),c=15.147(16) Å, andβ=93.27(6)°; F=1146.8 Å andd (calc; M.W.=323.2,Z=4) = 1.872 g cm−3. A total of 2200 data were collected over the range 4° ≤ 2θ 〈 50°; of these, 1918 (independent and withI ≥ 3σ(I)) were used in the structural analysis. Data were corrected for absorption (μ=16.94 cm−1), and the relative transmission coefficients ranged from 0.9049 to 0.9967. Refinement led to the finalR(F) andR w(F) residuals of 0.0231 and 0.0279. The chirality symbol for the particular enantiomer of (I) refined here is ∧ (δδ), while for (II) the chirality symbol is ∧(δλ), which means that in the latter compound one of the en rings is in a higher energy conformation. We attribute this result to competitive intramolecular hydrogen-bonded interactions between the — NH2 hydrogens of the en ligands and the oxygens of the -NO2 and -SO3 ligands, strengths which are enhanced by coercing a change in sign of the torsional angle of one en ringa motion which permits both oxo ligands to form stronger hydrogen bonds while retaining proper O ⋯ O contacts. This phenomenon is not observed in (I) since the azide ligand does not compete with -SO3 for such hydrogen-bonded interactions, and nonbonded pair repulsions can be minimized without affecting the ability of — SO3 oxygens to form strong intramolecular hydrogen bonds.

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URL: http://dx.doi.org/10.1007/BF00673698

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8

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The phenomenon of conglomerate crystallization. XVIII. Clavic dissymmetry in coordination compounds. XVI (1990)

Bernal, Ivan ; Cetrullo, James

Springer

Structural chemistry 1 (1990), S. 227-234

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ISSN: 1572-9001

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The x-ray crystal structure of {[Co(NH3)4(CO3)]NO3}2 · H2O has been determined as part of a study of the intra- and interionic interactions present in crystals of several transition-metal-amine complexes chosen to examine the occurrence and causes of conglomerate crystallization. {[Co(NH3)4(CO3)]NO3}2 · H2O crystallizes in the monoclinic space group P21/n with cell constantsa=7.4960(9)Å,b=22.673(6),c=10.513(1), andβ=91.41(1)°;V=1786.12 Å3, andd(calc;Z=4)=1.915 g cm−3. In all, 5333 data were collected over the range of 4°≤ 2θ≤ 60°; of these, 3395 [independent and with /≥3σ(1)] were used in the structural analysis. Data were corrected for absorption (μ=19.361 cm−1) and the relative transmission coefficients ranged from 0.9987 to 0.8013. The data were of a quality such that both ammonia and water hydrogens were found in difference Fourier maps. The finalR(F) andR w(F) residuals were, respectively, 0.0333 and 0.0332. A trans effect is observed for both cations of {[Co(NH3 (CO3)]NO3}2 · H2O. The equatorial nitrogens, trans to the carbonato oxygens, have shorter Co-N distances than the axial nitrogens, trans to one another. The carbonato ligands are not symmetrically bonded to their respective metal centers. The Co-O distances for cation 1 are 1.913(1) and 1.903(1) Å and those for cation 2 are 1.916(1) and 1.896(1) Å. The structure reveals the existence of an intricate array of hydrogen bonds, involving both the chelating and nonchelating oxygens of the carbonato ligands as hydrogen bond acceptors of the amine hydrogens. The amine hydrogens are also involved in significant hydrogen-bonding interactions with the nitrate oxygens and water of crystallization, although they are generally weaker than those of the carbonato oxygens.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00674266

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9

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Conglomerate crystallization in organic compounds II. The conformation, configuration, and spontaneous resolution of 1-phenyl-2-cyano-cyclopropane (1991)

Draux, Madelein ; Bernal, Ivan ; Fuchs, Richard

Springer

Structural chemistry 2 (1991), S. 127-131

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ISSN: 1572-9001

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The crystal structure of 1 -phenyi-2-cyano-cyclopropane was investigated to probe the stereochemical effects of placing different groups at the 2-position of the phenylcyclopropane moiety. The substance crystallized in space group P212121 with cell constants a=16.921(3), b=7.699(2), and c=6.251(2) Å; V=814.33 Å3 and D (calc; z=4) =1.168 g·cm−3. Final R(F)=0.04, using unit weights. The phenyl substituent is almost exactly in the bi-secting conformation with respect to the C-C-C angle at the point of attachment to cyclopropane. The average value of the C-C distances in the three-membered ring is 1.501 Å, which is on the low side of the ranges cited in previous studies. When we apply the “additivity principle” to our measured geometrical data and calculate the “asymmetry parameters, ” the value ofδ cns [0.012(3)] is a little low, but within experimental error it is in accord with the value (0.017) given by Allen. However, our value of δcns (0.006(3)] is substantially lower than Allen's, which is surprising, since the bisecting phenyl ring can exert its maximum effect on the asymmetry of cyclopropane. The substance undergoes spontaneous resolution into a conglomerate of chiral crystals. Unfortunately, in the absence of anomalous scatterers, the absolute configuration could not be determined; nonetheless, the space group in which the compound crystallizes is P212121, which leaves no ambiguity to the fact that the crystals are a conglomerate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00676623

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The phenomenon of conglomerate crystallization. XX. Spontaneous resolution in coordination compounds. XVIII. (1990)

Bernal, Ivan ; Cetrullo, James ; Berhane, Samson

Springer

Structural chemistry 1 (1990), S. 361-366

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ISSN: 1572-9001

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The title compound, [cis-Co(en)2(NO2)2](NO2) (1), crystallizes in the polar, nonenantiomorphic, monoclinic space group, Cc, with lattice constants:a=9.198(2) Å,b=12.444(2),c=9.963(3), andβ=96.76(2)°;V=1132.39 Å3 andd(calc;Z=4) =1.860 g cm−3. Thus, with NO2− as the counteranion, [cis-Co(en)2(NO2)2] crystallizes in a heterochiral lattice containing racemic pairs of cations. A total of 2699 data were collected over the range of 4°≤2θ≤70°; of these, 1859 (independent and withI≥3σ(I)) were used in the structural analysis. Data were corrected for absorption (μ=15.465 cm−1) and the relative transmission coefficients ranged from 0.9934 to 0.7112. Refinement was carried out for both lattice polarities and the finalR(F) andR w (F) residuals were, respectively, 0.0242 and 0.0202 for (−−−) and 0.0264 and 0.0243 for (+++). Thus, the former was selected as correct for our specimen. Unlike all previous X-ray diffraction studies of the structural properties of the cation [cis-Co(en)2(NO2)2]+, which are found to have a pair of oppositely configured en rings [i.e., Δ(λδ) or Λ(λδ)], we find that in1 the cations are in the lowest energy conformation and configuration; i.e., Δ(λλ) or Λ(δδ). We attribute this change in configuration to the formation of strong interionic hydrogen bonds between nitrite anion oxygens and the axial—NH2 hydrogens, which markedly weaken the intermolecular and intramolecular hydrogen bonds between ligand—NO2 oxygens and the hydrogens of those same amine moieties. Thus, the nitrite anions behave exactly as nitrate anions, except that the hydrogen bonds found here are stronger than those formed by the latter. This is as expected since the negative charge is delocalized over two, instead of three, oxygens.

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URL: http://dx.doi.org/10.1007/BF01374483

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