Facile adaptation of 1D Mn(ii) chain motifs to form 3D azo-pyridine-based coordination polymers

Ako, Ayuk M.; Hawes, Chris S.; Twamley, Brendan; Schmitt, Wolfgang

doi:10.1039/c6ce02493a

Facile adaptation of 1D Mn(ii) chain motifs to form 3D azo-pyridine-based coordination polymers

Ako, Ayuk M.; Hawes, Chris S.; Twamley, Brendan; Schmitt, Wolfgang

Authors

Ayuk M. Ako

Chris Hawes c.s.hawes@keele.ac.uk

Brendan Twamley

Wolfgang Schmitt

Abstract

We report the synthesis of a simple 1D Mn-azopyridine-based coordination polymer, poly-[MnII(NO3)2(OH2)2(azopy)2]·2MeCN (1) (azopy = 4,4′-azobis(pyridine)) and its use as a convenient feedstock to afford two 3D coordination polymers, namely: poly-[MnII(azopy)2(CNAgCN)4] (2), and poly-[MnII2(pda)(Hpda)2(azopy)2(OH2)2]·2MeCN (3), (pdaH2 = 1,4-phenylenediacetic acid). The compounds have been characterised by elemental analysis, IR, PXRD, TGA and single crystal X-ray diffraction. Compound 1 is a 1D coordination polymer while 2 represents a 3-dimensional coordination polymer adopting 2-fold interpenetrated rutile (rtl) topology and 3 is a 5-connected 3-dimensional coordination polymer with boron nitride (bnn) topology.

Citation

Ako, A. M., Hawes, C. S., Twamley, B., & Schmitt, W. (in press). Facile adaptation of 1D Mn(ii) chain motifs to form 3D azo-pyridine-based coordination polymers. CrystEngComm, 19(6), 994-1000. https://doi.org/10.1039/c6ce02493a

Journal Article Type	Article
Acceptance Date	Jan 14, 2017
Online Publication Date	Jan 16, 2017
Deposit Date	Jun 15, 2023
Journal	CrystEngComm
Publisher	Royal Society of Chemistry
Peer Reviewed	Peer Reviewed
Volume	19
Issue	6
Pages	994-1000
DOI	https://doi.org/10.1039/c6ce02493a
Keywords	Condensed Matter Physics; General Materials Science; General Chemistry
Additional Information	: This document is CrossCheck deposited; : Supplementary Information; : Crystal Structure Data; : Chris S. Hawes (ORCID); : Wolfgang Schmitt (ORCID); : The Royal Society of Chemistry has an exclusive publication licence for this journal; : Received 2 December 2016; Accepted 14 January 2017; Accepted Manuscript published 16 January 2017; Advance Article published 24 January 2017; Version of Record published 6 February 2017

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