Journal
JOURNAL OF MOLECULAR STRUCTURE
Volume 788, Issue 1-3, Pages 218-223Publisher
ELSEVIER
DOI: 10.1016/j.molstruc.2005.12.004
Keywords
metal phosphonates; hydrothermal syntheses; open-frameworks; crystal structures; second ligand
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Hydrothermal reactions of lead(II) acetate with N,N'-piperazinebis(methylenephosphonic acid) (H2O3PCH2N(C2H4)(2)NCH2PO3H2, H4L1) and 5-sulfoisophalic acid monosodium salt (NaH2SIP) or lead(II) acetate with isopropytimino-bis-(methylenephosphonic acid) ((CH3)(2)CHN (CH2PO3H2)(2), H4L2) and succinic acid afforded two new lead(II) phosphonate hybrids, namely, Pb-4(H2L1)(SIP)(2)(H2O)(4)(.)2H(2)O 1 and Pb-4(L-2)(2)(.)(HO2CH2CH2CO2H) 2. The structure of compound 1 features a 3D network formed by Pb(II) ions interconnected by H2L1 and the carboxylate-sulfonate SIP anions. The 3D network can be viewed as the neighboring layers of Pb-4(SIP)(2) being interconnected by H2L1 ligands to form a pillared layered architecture. The phosphonate groups of the diphosohonate ligands bridge the Pb(II) ions of the Pb-4(SIP)(2) layer to form a lead(II) phosphonate-sulfonate hybrid layer and the organic group of phosphonate ligand as pillars. In compound 2, the interconnection of the lead(II) ions via diphosphonate ligands lead to a < 400 > lead(II) diphosphonate layer. The succinic acid remains protonated and is located at interlayer space. The second ligand in compound 1 acts as a multidentate metal linker, whereas the succinic acid in compound 2 functions as an intercalated species in between the 2D layers. (c) 2005 Elsevier B.V. All rights reserved.
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