1996
DOI: 10.1107/s010827019601133x
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Piperazine–4,4'-Sulfonyldiphenol (1/2): a Self-Assembled Channel Structure

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Cited by 32 publications
(44 citation statements)
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“…Amine cations. The C--N distances in the piperazine cation in (2) are closer to those observed in the salt-forming 1:2 adduct of piperazine with 4,4'sulfonyldiphenol, 1.477 (3),& (Coupar et al, 1996a), than to those in the neutral 1:1 adduct of piperazine with 4,4'-thiodiphenol, 1.460 (3) and 1.462 (3) A (Coupar et al, 1996b); as usual, protonation at nitrogen leads to an increase in the C--N bond lengths.…”
Section: Molecular Dimensions and Conformationssupporting
confidence: 51%
“…Amine cations. The C--N distances in the piperazine cation in (2) are closer to those observed in the salt-forming 1:2 adduct of piperazine with 4,4'sulfonyldiphenol, 1.477 (3),& (Coupar et al, 1996a), than to those in the neutral 1:1 adduct of piperazine with 4,4'-thiodiphenol, 1.460 (3) and 1.462 (3) A (Coupar et al, 1996b); as usual, protonation at nitrogen leads to an increase in the C--N bond lengths.…”
Section: Molecular Dimensions and Conformationssupporting
confidence: 51%
“…Since the independent rotations of the two aryl rings relative to the central C 2 SO 2 core of this molecular building block do not alter the positions of the hydroxyl O atoms relative to this central core, then all points in the resulting two-dimensional conformational space should be accessible without affecting the intermolecular hydrogen bonding. However, the structures of compounds (5), (6) and (7) reported here, along with those of pure O 2 S(C 6 H 4 OH) 2 (Glidewell & Ferguson, 1996), as well as the adducts of this bisphenol with HMTA and its salts with piperazine (Coupar et al, 1996b) and cyclam (Ferguson et al, 1998a), show very clear conformational preferences. So, far from the conformations being randomly distributed, there is a clear preference for conformations in which one or both of the aryl rings are virtually coplanar with a neighbouring CÐS O fragment, with the formation of nearly planar S(5) HÐCÐCÐS O ring motifs.…”
Section: Molecular Dimensions and Conformationsmentioning
confidence: 68%
“…In the presence of more basic amines, proton transfer from the bisphenol to the amine is possible (Coupar et al, 1996b;Ferguson et al, 1998b). The resulting formation of the phenolate anion HOC 6 H 4 SO 2 C 6 H 4 O À leads to a radically different mode of supramolecular aggregation: instead of chains built of alternating bisphenol and amine molecules, linked by neutral OÐHÁ Á ÁN hydrogen bonds, the dominant mode of aggregation is that of phenolate anions linked together by means of the much stronger ionic (Aakero È y & Seddon, 1993;Gilli et al, 1994) OÐHÁ Á ÁO À hydrogen bonds.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Where both the bis-phenol and the diamine have some degree of conformational flexibility, the chains can coil, sometimes giving multiple helices, while in other examples the overall structure is controlled by soft hydrogen bonds : the suggestion has been made (Ferguson, Bell et al, 1997) that soft hydrogen bonds will be of little significance when the conformational flexibility of the chain components is reduced to a minimum, leading to a prediction of quasi-linear chains of extreme simplicity in such cases. In adducts of poly-phenols with secondary amines the N--H bonds can themselves also act as hydrogen-bond donors, as in the piperazine adducts with 4,4'-thiodiphenol, where there are hydrogen bonds of N H---yr(arene) type (Coupar et al, 1996b) and with 4,4'-sulfonyldiphenol and 1,1,1-tris(4-hydroxyphenyl)ethane, in both of which there are N--H..-O hydrogen bonds (Coupar et al, 1996c;Ferguson, Bell et aL, 1997). Similarly, in the adducts of piperazine and of 2,5-dimethylpiperazine with phenol itself (Loehlin et al, 1994) When NH2 groups are present, considerable structural complexity can result: in the adduct of the bisprimary amine 1,2-diaminoethane with phenol, of composition (C6H5OH)E.HENCH2CH2NH2 and containing equal numbers of NH 2 and OH groups, each NH2 and each OH group act as both a single donor and a single acceptor of hydrogen bonds, and the resulting structure is built from two-dimensional hydrogenbonded sheets (Loehlin et al, 1994).…”
Section: Introductionmentioning
confidence: 99%