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Journal of Enzyme Inhibition and Medicinal Chemistry Volume 24, 2009 - Issue 3
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Research Article

Biologically active macrocyclic complexes derived from diaminonaphthalene and glyoxal: Template synthesis and spectroscopic approach

D. P. SinghDepartment of Chemistry, National Institute of Technology, Kurukshetra, 136 119, Haryana, IndiaCorrespondence[email protected]
,
Krishan KumarDepartment of Chemistry, National Institute of Technology, Kurukshetra, 136 119, Haryana, India
,
Saurabh Sudha DhimanDepartment of Biotechnology, Kurukshetra University, Kurukshetra, 136 119, Haryana, India
&
Jitender SharmaDepartment of Biotechnology, Kurukshetra University, Kurukshetra, 136 119, Haryana, India
Pages 795-803 | Received 15 Mar 2008, Accepted 03 Jun 2008, Published online: 01 Jun 2009

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Read on this site (5)

J. P. Remiya, T. S. Sikha & B. Shyni. (2021) One-pot synthesis and characterization of Schiff base macrocyclic complexes as a potential bioactive core – a review. Journal of Coordination Chemistry 74:21-24, pages 3081-3108.
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D.P. Singh, Monika Kamboj, Krishan Kumar, Kiran Jain & Chetan Sharma. (2011) Divalent metal macrocyclic complexes derived from acetonylacetone and carbohydrazide with their spectroscopic and antibacterial studies. Journal of Coordination Chemistry 64:3, pages 502-510.
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D.P. Singh & Krishan Kumar. (2010) Synthesis, spectroscopic studies, and antibacterial activities of 14-membered tetraazamacrocyclic complexes of divalent transition metal ions. Journal of Coordination Chemistry 63:22, pages 4007-4016.
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D. P. Singh, Krishan Kumar, Chetan Sharma & K. R. Aneja. (2010) Template synthesis, spectroscopic, antibacterial, and antifungal studies of trivalent transition metal ion macrocyclic complexes. Journal of Enzyme Inhibition and Medicinal Chemistry 25:4, pages 544-550.
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D.P. Singh, Krishan Kumar & Chetan Sharma. (2010) Synthesis, Characterization, and Antimicrobial Activities of Macrocyclic Complexes of Divalent Transition Metal Ions. Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry 40:6, pages 378-385.
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Articles from other publishers (14)

V. K. Vashistha, V. Sharma, A. Kumar & D. K. Das. (2023) Synthesis and Characterization of MIIN4-Macrocyclic Complexes of Iron and Cobalt and Their Electrochemical Studies. Russian Journal of Electrochemistry 59:7, pages 538-545.
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Monika Yadav, Deepak Yadav, Dharam Pal Singh & Jitander Kumar Kapoor. (2023) Pharmaceutical properties of macrocyclic schiff base transition metal complexes: Urgent need in Today’s World. Inorganica Chimica Acta 546, pages 121300.
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R. Nalini, S.M. Basavarajaiah, N.G. Yernale & K. Ramakrishna Reddy. (2022) Synthesis, Characterization and Biological Activity of ONO Donor Schiff Base and its Metal Complexes. Asian Journal of Chemistry 34:2, pages 389-394.
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Tonmoy Chakraborty, Somali Mukherjee, Rumana Parveen, Arpita Chandra, Debabrata Samanta & Debasis Das. (2021) A combined experimental and theoretical rationalization of an unusual zinc( ii )-mediated conversion of 18-membered Schiff-base macrocycles to 18-membered imine–amine macrocycles with imidazolidine side rings: an investigation of their bio-relevant catalytic activities . New Journal of Chemistry 45:5, pages 2550-2562.
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Reza Golbedaghi, Andreia M. Tabanez, Somayeh Esmaeili & Rui Fausto. (2020) Biological Applications of Macrocyclic Schiff Base Ligands and Their Metal Complexes: A Survey of the Literature (2005–2019). Applied Organometallic Chemistry 34:10.
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Anshul Singh & Ashu Chaudhary. (2019) Microwave-assisted synthesis, structural elucidation, antimicrobial and pesticidal activity of heterobimetallic complexes of Copper(II). Journal of the Iranian Chemical Society 17:4, pages 973-983.
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O.A. El‐Gammal, S.A. El‐Brashy & G.M. Abu El‐Reash. (2020) Macrocyclic Cr 3+ , Mn 2+ and Fe 3+ complexes of a mimic SOD moiety: Design, structural aspects, DFT, XRD, optical properties and biological activity . Applied Organometallic Chemistry 34:4.
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Vikas Sangwan & D.P. Singh. (2019) Macrocyclic Schiff base complexes as potent antimicrobial agents: Synthesis, characterization and biological studies. Materials Science and Engineering: C 105, pages 110119.
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Guocang Wang & H. V. Rasika Dias. (2017) 1,8‐Bis(borylamido)naphthalene Complexes of Lithium and Zinc(II) Including a Zinc(II) Isocyanide Adduct. European Journal of Inorganic Chemistry 2017:46, pages 5507-5514.
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Parveen Rathi & D.P. Singh. (2015) Antimicrobial and antioxidant activity evaluation of Co(II), Ni(II), Cu(II) and Zn(II) complexes with 15-thia-3,4,9,10-tetraazabicyclo[10.2.1]pentadeca-1(14),2,10,12-tetraene-5,8-dione. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 136, pages 381-387.
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O.A. El-Gammal, M.M. Bekheit & S.A. El-Brashy. (2015) Synthesis, characterization and in vitro antimicrobial studies of Co(II), Ni(II) and Cu(II) complexes derived from macrocyclic compartmental ligand. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 137, pages 207-219.
Crossref
D. P. Singh, Parveen, Ramesh Kumar, P. Surain & K. R. Aneja. (2013) Spectroscopic and antimicrobial studies of macrocyclic metal complexes derived from 1,8-diaminonaphthalene and dimedone. Journal of Inclusion Phenomena and Macrocyclic Chemistry 78:1-4, pages 363-369.
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D. P. Singh, Monika Kamboj, Krishan Kumar, Kiran Jain, Chetan Sharma & K. R. Aneja. (2011) Synthesis, spectroscopic studies and biological screening of 18-membered octaazamacrocyclic complexes derived from acetonylacetone and thiocarbohydrazide. Russian Journal of Inorganic Chemistry 56:9, pages 1396-1401.
Crossref
Dharam SinghPalPal, Vandna Malik, Ramesh Kumar & Krishan Kumar. (2010) Template synthesis of macrocyclic complexes of Co(II), Ni(II), Cu(II), Zn(II) and Cd(II): Spectroscopic, antibacterial and antifungal studies. Journal of the Serbian Chemical Society 75:6, pages 763-772.
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