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Journal articles on the topic 'Ethanolamine Complexes'

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Published: 5 June 2025
Last updated: 15 July 2025

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1

Sridaeng, Duangruthai, Wannisa Jitaree, Preecha Thiampanya, and Nuanphun Chantarasiri. "Preparation of rigid polyurethane foams using low-emission catalysts derived from metal acetates and ethanolamine." e-Polymers 16, no. 4 (2016): 265–75. http://dx.doi.org/10.1515/epoly-2016-0021.

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AbstractTwo metal acetate-ethanolamine complexes, namely Cu(OAc)2(EA) and Zn(OAc)2(EA), were synthesized from metal acetates [M(OAc)2, where M=Cu and Zn] and ethanolamine (EA). These metal acetate-ethanolamine complexes can be used as catalysts in the preparation of rigid polyurethane (RPUR) foams. Both Cu(OAc)2(EA) and Zn(OAc)2(EA) were obtained as viscous liquids, which have very weak odor and could be easily dissolved in the starting materials of RPUR foam formulation. The results were compared with RPUR foam prepared from dimethylcyclohexylamine (DMCHA), which is a commercial catalyst with
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2

Temizer, Aytekin, and Nuran Özaltin. "Polarographic Determination of Antihistamines by Complexation with Cd(II)." Journal of AOAC INTERNATIONAL 69, no. 2 (1986): 192–95. http://dx.doi.org/10.1093/jaoac/69.2.192.

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Abstract The polarographic behavior of the complexes formed by Cd(II) ion with ethanolamine derivative antihistamines such as diphenhydramine hydrochloride, dimenhydrinate, and chlorphenoxamine hydrochloride was studied. Antihistamines form spontaneous complexes with Cd(II) ion in the presence of KNO3. In addition, pH 8.00 borate buffer was added to increase the differential pulse polarogram peak height, and tetraalkyl ammonium salts were added to increase the linear range. The method of determination developed has been applied to commercial tablet, capsule, elixir, and injection forms of etha
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3

Toncelli, C., R. Innocenti Malini, D. Jankowska, et al. "Optical glucose sensing using ethanolamine–polyborate complexes." Journal of Materials Chemistry B 6, no. 5 (2018): 816–23. http://dx.doi.org/10.1039/c7tb01790a.

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4

Ruddick, J. N. R., C. Xie, and F. G. Herring. "Fixation of Amine Copper Preservatives. Part 1. Reaction of Vanillin, a Lignin Model Compound with Monoethanolamine Copper Sulphate Solution." Holzforschung 55, no. 6 (2001): 585–89. http://dx.doi.org/10.1515/hf.2001.095.

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Summary The fixation reaction of copper-ethanolamine preservatives in wood was studied using the reaction between vanillin, a lignin model compound, and ethanolamine-copper sulphate solution. The green compound precipitated after the reaction has been characterized spectroscopically as di(ethanolamine)-bis (vanillinato)dicopper(II); [Cu(vanillin) (ethanolamine)]2. Single crystal X-ray crystallographic studies showed that the crystals of [Cu(vanillin)(ethanolamine)]2 are triclinic with the space group P1 with a = 9.1271(7), b = 10.8723(9), c = 6.360(1) Å, α = 97.08(1), β = 100.63(1), and γ = 11
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5

Humar, M., F. Pohleven, M. Šentjurc, et al. "Performance of Waterborne Cu(II) Octanoate/Ethanolamine Wood Preservatives." Holzforschung 57, no. 2 (2003): 127–34. http://dx.doi.org/10.1515/hf.2003.020.

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Summary Various aqueous wood preservative solutions containing Cu(II) in the form of copper(II) sulphate or copper(II) octanoate, ethanolamine and in one case octanoic acid were investigated by spectrophotometry, polarography and Electron Paramagnetic Resonance (EPR) spectroscopy. Results have shown the same coordination environment around Cu(II) in all solutions with ethanolamine. Computer simulation of the EPR spectra also revealed that the coordination in the first coordination sphere of copper is the same at low concentration of ethanolamine. At 20% ethanolamine concentration, a mixture of
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6

Khan, Rais Ahmad, Shipra Yadav, Zahid Hussain, Farukh Arjmand та Sartaj Tabassum. "Carbohydrate linked organotin(iv) complexes as human topoisomerase Iα inhibitor and their antiproliferative effects against the human carcinoma cell line". Dalton Trans. 43, № 6 (2014): 2534–48. http://dx.doi.org/10.1039/c3dt51973b.

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7

Kozlevčar, Bojan, Polonca Baškovič, Aleksej Arko, Amalija Golobič, Nives Kitanovski, and Primož Šegedin. "Copper Fixation to Guaiacyl Lignin Units by Nitrogen Donor Ligands." Zeitschrift für Naturforschung B 63, no. 5 (2008): 481–88. http://dx.doi.org/10.1515/znb-2008-0501.

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Several new copper(II) complexes with guaiacyl lignin models vanillin (HL1) [Cu(L1)2(nia)2] (1) (nia = nicotinamide) or vanillic acid (HL2) [Cu(L2)2(nia)2] (2) [Cu2(μ-L2)4(nia)2] (3), and [Cu(L2)2(Hetam)2] (4) (Hetam = ethanolamine) were isolated and characterized. The molecular structure of complex 1 reveals bidentate vanillin (HL1) coordination via the methoxy and the deprotonated hydroxy groups. On the other hand, the vanillic acid (HL2) complexes 2 - 4 show a deprotonated carboxylate group with chelating coordination mode in 2, bridging in 3 and monodentate coordination in 4. The mononucle
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8

Gómez-Núñez, Alonso-Gil, López, Roura-Grabulosa, and Vilà. "From Ethanolamine Precursor Towards ZnO—How N is Released from the Experimental and Theoretical Points of View." Nanomaterials 9, no. 10 (2019): 1415. http://dx.doi.org/10.3390/nano9101415.

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This work presents experimental and computational studies on ZnO formation after decomposition of a sol-gel precursor containing ethanolamine and Zn(II) acetate. The structural modifications suffered during decomposition of the monomeric and dimeric Zn(II) complexes formed, containing bidentate deprotonated ethanolamine and acetato ligands, have been described experimentally and explained via Car-Parrinello Molecular Dynamics. Additional metadynamics simulations provide an overview of the dimer evolution by the cleavage of the Zn–N bond, the structural changes produced and their effects on the
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9

Alaa, E. Ali, S. Elasala Gehan, and Ramadan Yasser. "Synthesis and Characterization of Mixed-Ligand Complexes Containing Isonid and Ethanolamine." Chemistry Research Journal 6, no. 3 (2021): 132–38. https://doi.org/10.5281/zenodo.11665323.

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<strong>Abstract </strong>Synthesis, spectral characterization and thermal analysis of mixed ligand&nbsp; complexes with transition metals (Cr(III), Mn(II), Fe(III), Co(II), Ni(II), Cu(II), Zn(II), Cd(II) and Hg(II)) were discussed. Mixed ligands act as bidentate ligands with formation of 1:1:1 (M: L:L). Measurement of magnetism and spectral data shows octahedral structures for all complexes. Hyper chemistry program confirmed the binding sites of mixed ligand. Complexes show higher activity than commercial one for some strains.
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10

Vargas Rueda, Johan Andrés, Alejandro R. Alonso, and Miguel Melendez-Lira. "The role of Zn-complexing agents in the chemical bath deposition of ZnO and ZnS thin films." Superficies y Vacío 35 (December 29, 2022): 221202. http://dx.doi.org/10.47566/2022_syv35_1-221202.

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In order to control the deposition of Zn-related films by chemical bath deposition, the effects of Zn-complexing agent are analyzed. ZnS films were produced by chemical bath deposition technique employing sodium citrate, ethanolamine and Triethanolamine as complexing agents. The deposition conditions for ZnS (ZnO) thin films were obtained through a thermodynamic analysis, using distribution diagrams for molar fraction of Zn complexes. From species distribution diagrams of Zn-ethanolamine, Zn-Triethanolamine and Zn-citrate. It was found that for pH values between 4 and 6 the highest Zn fraction
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11

Masoud, Mamdouh S., Ahmed M. Hafez, and Alaa E. All. "Electron Paramagnetic Resonance and Magnetic Behaviour of Ethanolamine Complexes." Spectroscopy Letters 31, no. 5 (1998): 901–11. http://dx.doi.org/10.1080/00387019808003270.

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12

Crans, Debbie C., and Paul K. Shin. "Characterization of Vanadium(V) Complexes in Aqueous Solutions: Ethanolamine- and Glycine-Derived Complexes." Journal of the American Chemical Society 116, no. 4 (1994): 1305–15. http://dx.doi.org/10.1021/ja00083a016.

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13

B., K. Bongane, S. Kulkarni A., and G. Gawali P. "Dielectric behaviour of n-decanol ethanolamine mixtures at microwave frequencies." Journal of Indian Chemical Society Vol. 89, Sep 2012 (2012): 1209–13. https://doi.org/10.5281/zenodo.5769200.

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Department of Physics and Chemistry, B. S. College, Basmathnagar-431 512, Maharashtra, India <em>E-mail</em> : pggawali_l23@rediffmail.com <em>Manuscript received 10 January 2011. accepted 21 December 2011</em> Values of dielectric constant (&pound;&#39;) and loss factor (&pound;&quot;) have been experimentally determined for binary liquid mixtures of <em>n</em>-decanol + ethanolamine at 6. 7 GHz microwave frequencies at 39 &ordm;c. The values of &pound;&#39; and &pound;&quot; have been used to evaluate the molar polarization, apparent polarization and the excess activation energy, viscosity a
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14

Akeredolu, A., F. O. Adebusuyi, B. C. Adebayo-Tayo, and T. E. Olalekan. "Synthesis and Antimicrobial Activity of Nitrobenzaldehyde Schiff base and Complexes." Nigerian Journal of Chemical Research 29, no. 2 (2025): 062–72. https://doi.org/10.4314/njcr.v29i2.1.

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The Schiff base (NL) was synthesized by the reaction between ethanolamine and 3-nitrobenzaldehyde. The metal complexes with Mn(II), Co(II), Ni(II), and Cu(II) were obtained in an alcoholic KOH medium. The diagnostic H-C=N proton shift at 8.48 δ ppm confirmed the formation of the Schiff base ligand. The stoichiometry of the metal complexes was determined through the percentage metal content by EDTA titration. The infrared spectra suggested the chelation of the ligand through the ethanolamine oxygen as a monodentate ligand. The O-H band of the hydroxide ion was observed between 3650 and 3450 cm–
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15

Madarász, János, Petra Bombicz, Mátyás Czugler, and György Pokol. "Comparison of theophyllinato Cu(II) complexes of ethanolamine and diethanolamine." Polyhedron 19, no. 4 (2000): 457–63. http://dx.doi.org/10.1016/s0277-5387(99)00386-1.

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16

Mathew, Beena, and Sindhu Jacob. "Thermogravimetric studies of the metal complexes of polystyrene-supported ethanolamine." Polymer Degradation and Stability 54, no. 1 (1996): 107–11. http://dx.doi.org/10.1016/0141-3910(96)00141-3.

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17

Patel, Dhaval, and Stephan N. Witt. "Ethanolamine and Phosphatidylethanolamine: Partners in Health and Disease." Oxidative Medicine and Cellular Longevity 2017 (2017): 1–18. http://dx.doi.org/10.1155/2017/4829180.

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Phosphatidylethanolamine (PE) is the second most abundant phospholipid in mammalian cells. PE comprises about 15–25% of the total lipid in mammalian cells; it is enriched in the inner leaflet of membranes, and it is especially abundant in the inner mitochondrial membrane. PE has quite remarkable activities: it is a lipid chaperone that assists in the folding of certain membrane proteins, it is required for the activity of several of the respiratory complexes, and it plays a key role in the initiation of autophagy. In this review, we focus on PE’s roles in lipid-induced stress in the endoplasmi
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18

Al-Allousi, Ayser, Perihan A. Khalf-Alla, Safaa S. Hassan, and Mohamed M. Shoukry. "Coordination properties of Palladium(II) complex taken as a model of an antitumour agent with some selected amino acids, peptides and DNA constituents." JOURNAL OF ADVANCES IN CHEMISTRY 9, no. 3 (2013): 2046–55. http://dx.doi.org/10.24297/jac.v9i3.1011.

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Pd(DHP)Cl2 complex ( DHP = 1,3-diamino-2-hydroxopropane ), was synthesized and characterized by physico-chemical measurements. The coordination of [Pd(DHP) (H2O)2]2+ with some selected bio-relevant ligands as phenylglycine, phenylalanine, lysine, valine, ethanolamine, glycineamide, glycylphenylalanine, glycylleucine, inosine, guanosine and inosine-5’-monophosphate disodium salt was investigated.Stoichiometry and stability constants of the complexes formed are reported at 25 0C and 0.1M ionic strength. The results show the formation of 1:1 complexes with amino acids. DNA constituents form 1:1 a
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19

Shaikh, AA, Shabed Reza, MS Rahman, and Pradip K. Bakshi. "Preparation and Characterization of Vitamin B12 Model Complexes." Dhaka University Journal of Science 60, no. 1 (2012): 97–101. http://dx.doi.org/10.3329/dujs.v60i1.10345.

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Cobaloxime complexes of the type [CoCl(DMGH)2(L)], where DMGH = dimethylglyoxime monoanion, L = tri-ethanolamine and 1,10- phenanthroline, were synthesized. The compounds were formulated on the basis of cobalt and chloride contents, IR and UV-visible spectral analyses and magnetic moment measurement. Cyclic voltammetric technique was also employed to investigate the interaction between Co(II) and the ligands under studied.DOI: http://dx.doi.org/10.3329/dujs.v60i1.10345Dhaka Univ. J. Sci. 60(1): 97-101 2012 (January)
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20

Densmore, Charles L., Thomas H. Giddings, J. Clifford Waldrep, Berma M. Kinsey, and Vernon Knight. "Gene transfer by guanidinium-cholesterol: dioleoylphosphatidyl-ethanolamine liposome-DNA complexes in aerosol." Journal of Gene Medicine 1, no. 4 (1999): 251–64. http://dx.doi.org/10.1002/(sici)1521-2254(199907/08)1:4<251::aid-jgm43>3.0.co;2-z.

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21

Epstein, Noah A., Jennifer L. Horton, Christopher M. Vogels, Nicholas J. Taylor, and Stephen A. Westcott. "Synthesis and characterization of hydrophilic hydroxy-pyridinones and their complexes with molybdenum(VI)." Australian Journal of Chemistry 53, no. 8 (2000): 687. http://dx.doi.org/10.1071/ch00093.

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We have prepared four N-substituted hydroxypyridinones containing alcohol and morpholine groups. Complexes of the type cis-MoO2L2, where L represents the hydroxypyridinonato ligands have also been synthesized. The ethanolamine derivative, cis-MoO2(hep)2 (5), has been characterized by an X-ray diffraction study whereby the pyridinone ligands are bound to molybdenum in a cis bidentate fashion via the deprotonated hydroxy groups and the ketone moieties. Crystals of (5) are triclinic, with a 9.1930(7), b 14.2718(8), c 14.6219(9) Å, α 106.816(5), β 95.902(5), γ 96.350(5)°, Z 4, space group P–1.
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22

McKee, Vickie, and Muhammet Kose. "Manganese(II) complexes derived from acyclic ligands having flexible alcohol arms: structural chracterization and SOD and catalase mimetic studies." Acta Crystallographica Section C Structural Chemistry 77, no. 2 (2021): 100–110. http://dx.doi.org/10.1107/s2053229621000395.

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In this work, a series of seven MnII complexes of noncyclic flexible ligands derived from 2,6-diformylpyridine and ethanolamine or alkyl-substituted ethanolamines were prepared and characterized, six structurally by single-crystal X-ray diffraction studies. The complexes are dichlorido{2,2′-[(pyridine-2,6-diyl)bis(nitrilomethanylylidene)]diethanol}manganese(II), [MnCl2(C11H15N3O2)] or [MnCl2(L1)], (2), bis{μ-2,2′-[(pyridine-2,6-diyl)bis(nitrilomethanylylidene)]diethanol}bis[dithiocyanatomanganese(II)], [Mn2(NCS)4(C11H15N3O2)2] or [Mn2(NCS)4(L1)2], (3), chlorido{1,1′-[(pyridine-2,6-diyl)bis(nit
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23

Zhang, Jun, and D. Pascal Kamdem. "FTIR Characterization of Copper Ethanolamine—Wood Interaction for Wood Preservation." Holzforschung 54, no. 2 (2000): 119–22. http://dx.doi.org/10.1515/hf.2000.020.

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Summary The interaction of copper ethanolamine (Cu-EA) preservative and wood components was studied by using Fourier transform infrared spectroscopy (FTIR). In Cu-EA treated wood, significant reduction was noticed on the band attributed to carbonyl vibration from carboxylic groups at 1735 ± 5 cm−1 and an increase in band intensity was obtained from carbonyl in carboxylate at 1595 ± 5 cm−1. The same observation was made in Cu-EA treated holocellulose. Cu-EA treated lignin resulted in a reduction in the aromatic ester band at 1710 ± 5 cm−1 and an increase in carbonyl from carboxylate at 1595 ± 5
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24

Kublanovsky, V. S., Yu K. Pirsky, and A. V. Berezovska. "ETHANOLAMINE COMPLEXES OF 3-D METALS AS PRECURSORS OF ELECTROCATALYSTS FOR OXYGEN SENSORS." Sensor Electronics and Microsystem Technologies 3, no. 2 (2014): 42–46. http://dx.doi.org/10.18524/1815-7459.2006.2.117637.

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25

Dhanaraj, Venugopal, and Mamannamana Vijayan. "Crystal structures of 1:1 complexes of meclofenamic acid with choline and ethanolamine." Biochimica et Biophysica Acta (BBA) - General Subjects 924, no. 1 (1987): 135–46. http://dx.doi.org/10.1016/0304-4165(87)90080-8.

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26

I, Khan. "Synthesis of 3, 5-Disubstituted-Tetrahydro-2h-1, 3, 5-Thiadiazine2-Thiones Derivatives and their Metal Complexes as Potential Bioactive Agents." International Journal of Pharmacognosy & Chinese Medicine 7, no. 2 (2023): 1–12. http://dx.doi.org/10.23880/ipcm-16000239.

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Thiadiazine thione derivatives (2-(5-(2-.hydroxyethyl)-2-thioxo-1,3,5-thiadiazinane-3-yl) Acetic acid, 2-(5-.butyl-6-thioxo.-1, 3, 5-thiadiazinane-3-yl) Acetic acid, 2, 1 and 2 were synthesized by the reaction of alkyl primary amines (glycine, butylamine) with carbon disulfide and potassium hydroxide followed by addition of formaldehyde and various primary amines (ethanolamine, glycine) in phosphate buffer medium. The synthesized compounds were transformed into organometallic complexes (3-12) Ni (II), Co (II), Cu (II), Zn (II) and Fe (II) using their metal salts. The structure determinations o
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27

Chizhova, N. V., S. V. Zvezdina, A. E. Likhonina, N. Zh Mamardashvili, and O. I. Koifman. "Synthesis and properties of asymmetricly substituted Mn(III)-nitro-phenylporphirins." Журнал неорганической химии 69, no. 1 (2024): 33–42. http://dx.doi.org/10.31857/s0044457x24010044.

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Mn(III)-5-(4-nitrophenyl)-10,15,20-triphenylporphyrin and Mn(III)-5,10,15-tri-(4-nitrophenyl)-20-phenylporphyrin were synthesized using the reactions of complex formation of corresponding porphyrins and metal exchange of their Cd complexes with MnCl2 in dimethylformamide. Partial reduction of Mn(III) to Mn(II) is observed upon dissolution of manganese(III) complexes in dimethylformamide. When NaOH solid is added to a solution of dimethylformamide and in ethanolamine unstable Mn(II) porphyrins are formed. The photochemical stability and oxidative degradation of Mn(III)-porphyrins have been stud
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28

El-essawi, Mohyi M., Mamdouh S. Masoud, and Amira M. Amr. "Mass Spectra and X-Ray Powder Diffraction Studies on Some Ethanolamine and Quinolone Complexes." Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry 20, no. 7 (1990): 839–49. http://dx.doi.org/10.1080/00945719008048178.

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29

Masoud, Mamdouh S., Alaa E. Ali, Hytham M. Ahmed, and Essam A. Mohamed. "Spectral studies and thermal analysis of new vanadium complexes of ethanolamine and related compounds." Journal of Molecular Structure 1050 (October 2013): 43–52. http://dx.doi.org/10.1016/j.molstruc.2013.07.020.

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30

Angela, Kriza, Spinu Cezar, Pop Veronica, and F. Kriza Angela. "Studies on N-[2-thienylmethylidene]-2-hydroxy-1-aminoethane complexes of cobalt-, nickel- and copper(II)." Journal of Indian Chemical Society Vol. 80, Aug 2003 (2003): 780–82. https://doi.org/10.5281/zenodo.5836534.

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University of Bucharest, Faculty of Chemistry, Department of Inorganic Chemistry, str. Dumbrava Rosie 23, Bucharest, Romania <em>E-mail</em> : veronica.pop@k.ro University of Craiova, Faculty of Chemistry, Department of Inorganic Chemistry, str. Alexandru loan Cuza 13, Craiova, Dolj, Romania Sc. &quot;Andrei Saguna&quot;, Calea Vacaresti 234, Bucharest, Romania <em>Manuscript received 31 May 2002, revised 3 March 2003, accepted 2 April 2003</em> Complexes of the types ML<sub>2</sub> and ML<sub>2</sub>CI<sub>2</sub> where M is Co<sup>II</sup> , Ni<sup>II</sup> and Cu<sup>II</sup> , and Lis the
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31

Schlosser, Gitta, Raluca Stefanescu, Michael Przybylski, Manuela Murariu, Ferenc Hudecz, and Gabi Drochioiu. "Copper-Induced Oligomerization of Peptides: A Model Study." European Journal of Mass Spectrometry 13, no. 5 (2007): 331–37. http://dx.doi.org/10.1255/ejms.889.

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In this work, copper-binding of the tetraglycine peptide (Gly–Gly–Gly–Gly) was studied by electrospray ionization mass spectrometry. Experiments were performed under alkaline conditions, in the presence of ethanolamine (pH 10.95). We observed that the presence of copper(II) ions induces the aggregation of the peptide and the formation of copper-bound complexes with higher molecular mass is favored, such as the oligomer complexes [3M + 2Cu – 3H]+ and [4M + 3Cu – 5H]+. At 1:1 peptide–copper(II) ion ratio, the singly charged [3M + 2Cu – 3H]+ oligomer complex is the base peak in the mass spectrum.
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32

Jordanovska, Vera, and R. Trojko. "Oxalate-2-ethanolamine complexes of some bivalent cations (Mn, Co, Ni, Cu, Zn and Cd)." Journal of Thermal Analysis 44, no. 6 (1995): 1333–46. http://dx.doi.org/10.1007/bf02549222.

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33

Zhdanov, R. I., R. Kh Aupov, G. V. Andrianov, N. I. Akberova, and M. Ya Ibragimova. "On the problem of lipid coding of genomic DNA: molecular dynamics peculiarities of DNA-phospholipid complexes." Genes & Cells 9, no. 3 (2014): 185–90. http://dx.doi.org/10.23868/gc120289.

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Lipids can be bound to nucleic acids forming coding sequence at genomic DNA, and participating in realization of language of genome. Interaction of DNA oligonucleotide(A)20-(T)20 is studied with by moleculat dynamics method. The complex is prepared as a result of molecular docking, phospholipid molecule being located at DNA minor groove. Binding energy is equal to - 6.3 kcal/mol. Formation of hydrogen binding, interactions leading to those bonds, and some other interactions between DNA and phospholipid. The number of those interactions due to molecular dynamics is varied between 175 and 337. T
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34

Shaban, Nadia Z., Alaa E. Ali, and Mamdouh S. Masoud. "Effect of cadmium and zinc ethanolamine complexes on rat brain monoamine oxidase-B activity in vitro." Journal of Inorganic Biochemistry 95, no. 2-3 (2003): 141–48. http://dx.doi.org/10.1016/s0162-0134(03)00096-5.

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35

Guin, Mridula, Anant N. Nayak, and Netkal M. Made Gowda. "Density functional theory investigation of inter and intramolecular hydrogen bonded complexes of 2-ethanolamine with water." Chemical Data Collections 11-12 (December 2017): 183–98. http://dx.doi.org/10.1016/j.cdc.2017.09.004.

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36

Hoffmann, S. K., J. Goslar, I. Polus, and B. Mazela. "Spectroscopic studies of electronic structure of copper(II) ethanolamine complexes in solutions and in impregnated wood." Applied Magnetic Resonance 24, no. 3-4 (2003): 321–31. http://dx.doi.org/10.1007/bf03166933.

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37

Caglar, Bulent, Beytullah Afsin, Erdal Eren, Ahmet Tabak, Cagri Cirak, and Osman Cubuk. "Key words: Sound Diffraction; Lined Duct; Integral Transform; Wiener-Hopf Technique; Expansion Coefficients; Pole Removal Technique." Zeitschrift für Naturforschung A 65, no. 11 (2010): 1009–19. http://dx.doi.org/10.1515/zna-2010-1111.

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The intercalation of dimethyl sulphoxide (DMSO), pyridine (Py), ethanolamine (Ea), and Nmethyl formamide (NMF) molecules into the kaolinite interlayers led to an appreciable decrease of 3697 cm−1 of the hydroxyl band. The appearance of the peaks at 3662, 3541, and 3504 cm−1 proved that the DMSO species are intercalated between the kaolinite layers through forming H-bonds with internal-surface hydroxyl groups. The intensities of the 942 and 796 cm-1 bending peaks arising from inner-surface hydroxyls decreased and new vibrational features appeared due to the intercalation of the guest species. T
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38

Colsch, Benoit, François Fenaille, Anna Warnet, Christophe Junot, and Jean-Claude Tabet. "Mechanisms governing the fragmentation of glycerophospholipids containing choline and ethanolamine polar head groups." European Journal of Mass Spectrometry 23, no. 6 (2017): 427–44. http://dx.doi.org/10.1177/1469066717731668.

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Glycerophospholipids are the major amphiphilic molecules found in the plasma membrane bilayer of all vertebrate cells. Involved in many biological processes, their huge structural diversity and large concentration scale make their thorough characterization extremely difficult in complex biological matrices. Mass spectrometry techniques are now recognized as being among the most powerful methods for the sensitive and comprehensive characterization of lipids. Depending on the experimental conditions used during electrospray ionization mass spectrometry experiments, glycerophospholipids can be de
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Syamal, Arun, and M. A. Bari Niazi. "Molybdenum complexes of biochemical iinterest. New coordination complexes of oxomolybdenum(V) with the tridentate ONO donor schiff bases derived from salicylaldehydes and ethanolamine." Transition Metal Chemistry 10, no. 2 (1985): 54–56. http://dx.doi.org/10.1007/bf00624205.

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Zabierowski, Piotr, Janusz Szklarzewicz, Katarzyna Kurpiewska, Krzysztof Lewiński, and Wojciech Nitek. "Assemblies of substituted salicylidene-2-ethanolamine copper(II) complexes: From square planar monomeric to octahedral polymeric halogen analogues." Polyhedron 49, no. 1 (2013): 74–83. http://dx.doi.org/10.1016/j.poly.2012.09.029.

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Mikhaevich, Igor S., Natalia K. Vlasenkova, and Galina K. Gerasimova. "Antiproliferative effect of complexes of platinum (II) with plasmanyl-(N-acyl)-ethanolamine, an inhibitor of protein kinase C." Anti-Cancer Drugs 3, no. 5 (1992): 513–18. http://dx.doi.org/10.1097/00001813-199210000-00011.

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Yeşsilel, Okan Zafer, and Ertan Şahin. "Vitamin B13 Complexes of Nickel(II) and Copper(II) with Ethanolamine: Syntheses, Crystal Structures, Spectroscopic and Thermal Studies." Zeitschrift für anorganische und allgemeine Chemie 633, no. 7 (2007): 1087–93. http://dx.doi.org/10.1002/zaac.200700049.

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Picorel, Rafael, and Gabriel Gingras. "Preparative isolation and characterization of the B875 complex from Rhodobacter sphaeroides 2.4.1." Biochemistry and Cell Biology 66, no. 5 (1988): 442–48. http://dx.doi.org/10.1139/o88-053.

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We have developed a simple and efficient method, using a mixed detergent system of sodium dodecyl sulfate and Triton X-100, for the preparative isolation of theB875 complex from Rhodobacter sphaeroides 2.4.1. As a bonus, the method allows the preparation of both the B875 and B800-850 complexes from the same batch of chromatophores. The preparations are spectrally pure, as indicated by absorption and circular dichroism spectroscopy. The latter method suggests that the Qy band of the B875 complex is due to weakly interacting bacteriochlorophyll molecules. Protein and pigment analysis shows that
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V.A., Joseph, Komal M. Vyas, Jignesh H. Pandya, Vivek K. Gupta, and R. N. Jadeja. "Studies on DNA binding behavior of biologically active Cu(II) complexes of Schiff bases containing acyl pyrazolones and 2-ethanolamine." Journal of Coordination Chemistry 66, no. 6 (2013): 1094–106. http://dx.doi.org/10.1080/00958972.2013.776164.

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Khali, Saled M. E. "Metal Complexes of a Schiff Base Derived from 6-Methyl-3-Formyl-4-Hydroxy-2-(1H)-Quinolone and Ethanolamine. Part I." Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry 25, no. 1 (1995): 071–84. http://dx.doi.org/10.1080/15533179508218203.

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Khalf-Alla, Perihan A., Safaa S. Hassan, and Mohamed M. Shoukry. "Complex formation equilibria, DFT, docking, antioxidant and antimicrobial studies of iron(III) complexes involving Schiff bases derived from glucosamine or ethanolamine." Inorganica Chimica Acta 492 (June 2019): 192–97. http://dx.doi.org/10.1016/j.ica.2019.04.035.

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Chopin, Nicolas, Ghénadie Novitchi, Maurice Médebielle, and Guillaume Pilet. "A versatile ethanolamine-derived trifluoromethyl enaminone ligand for the elaboration of nickel(II) and copper(II)–dysprosium(III) multinuclear complexes with magnetic properties." Journal of Fluorine Chemistry 179 (November 2015): 169–74. http://dx.doi.org/10.1016/j.jfluchem.2015.06.023.

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Hursthouse, Michael B., Keith J. Izod, M. A. Mazid, and Peter Thornton. "Synthesis, properties and X-ray crystal structures of copper(II) and nickel(II) thiocyanate complexes with ethanolamine: A new structure for an aminoalkoxide cluster." Polyhedron 9, no. 4 (1990): 535–39. http://dx.doi.org/10.1016/s0277-5387(00)86230-0.

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Ramos-Espinosa, Ángel, Hugo Valdés, María Teresa Ramírez-Apan, et al. "N-(R)ethanolamine dithiocarbamate ligands and their Ni(II) and Pt(II) complexes. Evaluation of the in vitro anticancer activity of the Pt(II) derivatives." Inorganica Chimica Acta 466 (September 2017): 584–90. http://dx.doi.org/10.1016/j.ica.2017.07.035.

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Hua, Linyan, Baoxia Li, Cuiting Han, et al. "Synthesis of Homo- and Heteronuclear Rare-Earth Metal Complexes Stabilized by Ethanolamine-Bridged Bis(phenolato) Ligands and Their Application in Catalyzing Reactions of CO2 and Epoxides." Inorganic Chemistry 58, no. 13 (2019): 8775–86. http://dx.doi.org/10.1021/acs.inorgchem.9b01169.

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