Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity
Three new coordination polymers, [NaI(H2L)(H2O)3]n (1), {[KI(H2L)(H2O)]8·13H2O}n (2), and {[NiIINaI2(HL)2(H2O)8]·6H2O}n (3), were assembled from 1,3-dimethyl-5-(p-sulfonic-phenylazo)-6-aminouracil (H3L) as a versatile building block. Although azo-coupling reactions generally result in simple azo-com...
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sg-ntu-dr.10356-1544682021-12-23T04:28:06Z Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity Purkayastha, Atanu Dhar, Sourab Mondal, Suvra Prakash Franconetti, Antonio Frontera, Antonio Ganguly, Rakesh Kirillov, Alexander M. Misra, Tarun Kumar School of Physical and Mathematical Sciences Science::Chemistry Sulfonated Monoazo Dyes Coordination Polymers Three new coordination polymers, [NaI(H2L)(H2O)3]n (1), {[KI(H2L)(H2O)]8·13H2O}n (2), and {[NiIINaI2(HL)2(H2O)8]·6H2O}n (3), were assembled from 1,3-dimethyl-5-(p-sulfonic-phenylazo)-6-aminouracil (H3L) as a versatile building block. Although azo-coupling reactions generally result in simple azo-compounds, the presence of the sulfonate (–SO3−) group at the ligand frame led to the formation of the NaI-1D (1) or KI-3D (2) homometallic coordination polymer with different ligand coordination modes. Moreover, the heterometallic NiII/NaI-1D (3) coordination polymer was obtained while carrying the reaction of 2 with NiCl2·6H2O. The structures of the obtained products were fully established by single crystal X-ray diffraction and confirmed by standard methods. Compounds 1 and 3 possess 1D metal–organic chains with the 2C1 topology, whereas 2 features a very complex 3D metal–organic architecture with an unprecedented topology. The computational study for molecular electrostatic potential (MEP) surface energies revealed an important finding, namely a decrease of the π-acidity of the uracil ring upon coordination and a consequent increase of the π-basicity of the phenyl-sulfonate ring, resulting in effective anti-parallel π–π stacking interactions in 1 and 2. Finally, a semi-conductive behavior of the obtained compounds was explored using impedance spectroscopy, revealing the very remarkable conductive properties of 1 (2.2 × 10−4 S cm−1), which is a far better conductive material than 2 (7.2 × 10−6 S cm−1) and 3 (4.8 × 10−7 S cm−1). The obtained products represent the first coordination compounds derived from H3L. This study contributes to the design of functional coordination polymers driven by still poorly explored 6-aminouracil building blocks. The authors are thankful to the Department of Chemistry, NIT Agartala, India for providing financial support and research facilities, the MINECO of Spain (project CTQ2014- 57393-C2-1-P FEDER funds) for financial support, the CTI for computational facilities, and FCT and Portugal 2020 (LISBOA01-0145-FEDER-029697, UID/QUI/00100/2013) for financial support. The publication was also prepared with the support of the RUDN University Program 5-100. A. P. greatly acknowledges NIT, Agartala for financial support. 2021-12-23T04:28:06Z 2021-12-23T04:28:06Z 2020 Journal Article Purkayastha, A., Dhar, S., Mondal, S. P., Franconetti, A., Frontera, A., Ganguly, R., Kirillov, A. M. & Misra, T. K. (2020). Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity. CrystEngComm, 22(4), 829-840. https://dx.doi.org/10.1039/C9CE01437C 1466-8033 https://hdl.handle.net/10356/154468 10.1039/C9CE01437C 4 22 829 840 en CrystEngComm © 2020 The Royal Society of Chemistry. All rights reserved. |
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Science::Chemistry Sulfonated Monoazo Dyes Coordination Polymers |
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Science::Chemistry Sulfonated Monoazo Dyes Coordination Polymers Purkayastha, Atanu Dhar, Sourab Mondal, Suvra Prakash Franconetti, Antonio Frontera, Antonio Ganguly, Rakesh Kirillov, Alexander M. Misra, Tarun Kumar Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity |
| description |
Three new coordination polymers, [NaI(H2L)(H2O)3]n (1), {[KI(H2L)(H2O)]8·13H2O}n (2), and {[NiIINaI2(HL)2(H2O)8]·6H2O}n (3), were assembled from 1,3-dimethyl-5-(p-sulfonic-phenylazo)-6-aminouracil (H3L) as a versatile building block. Although azo-coupling reactions generally result in simple azo-compounds, the presence of the sulfonate (–SO3−) group at the ligand frame led to the formation of the NaI-1D (1) or KI-3D (2) homometallic coordination polymer with different ligand coordination modes. Moreover, the heterometallic NiII/NaI-1D (3) coordination polymer was obtained while carrying the reaction of 2 with NiCl2·6H2O. The structures of the obtained products were fully established by single crystal X-ray diffraction and confirmed by standard methods. Compounds 1 and 3 possess 1D metal–organic chains with the 2C1 topology, whereas 2 features a very complex 3D metal–organic architecture with an unprecedented topology. The computational study for molecular electrostatic potential (MEP) surface energies revealed an important finding, namely a decrease of the π-acidity of the uracil ring upon coordination and a consequent increase of the π-basicity of the phenyl-sulfonate ring, resulting in effective anti-parallel π–π stacking interactions in 1 and 2. Finally, a semi-conductive behavior of the obtained compounds was explored using impedance spectroscopy, revealing the very remarkable conductive properties of 1 (2.2 × 10−4 S cm−1), which is a far better conductive material than 2 (7.2 × 10−6 S cm−1) and 3 (4.8 × 10−7 S cm−1). The obtained products represent the first coordination compounds derived from H3L. This study contributes to the design of functional coordination polymers driven by still poorly explored 6-aminouracil building blocks. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Purkayastha, Atanu Dhar, Sourab Mondal, Suvra Prakash Franconetti, Antonio Frontera, Antonio Ganguly, Rakesh Kirillov, Alexander M. Misra, Tarun Kumar |
| format |
Article |
| author |
Purkayastha, Atanu Dhar, Sourab Mondal, Suvra Prakash Franconetti, Antonio Frontera, Antonio Ganguly, Rakesh Kirillov, Alexander M. Misra, Tarun Kumar |
| author_sort |
Purkayastha, Atanu |
| title |
Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity |
| title_short |
Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity |
| title_full |
Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity |
| title_fullStr |
Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity |
| title_full_unstemmed |
Metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity |
| title_sort |
metal-organic architectures driven by a multifunctional 6-aminouracil spacer : structures, noncovalent interactions, and conductivity |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/154468 |
| _version_ |
1720447204448010240 |