Category: 1127-45-3

The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Syntheses of 8-hydroxyquinoline N-oxide and its metallic complex salts》. Authors are Murase, Ichiro.The article about the compound:8-Hydroxyquinoline 1-oxidecas:1127-45-3,SMILESS:OC1=CC=CC2=CC=C[N+]([O-])=C12).Related Products of 1127-45-3. Through the article, more information about this compound (cas:1127-45-3) is conveyed.

8-Hydroxyquinoline N-oxide (IH) was obtained by the direct oxidation of 8-hydroxyquinoline with AcOH + 30% H2O2 or phthalic monoperacid as yellow crystals m. 138°. Greenish yellow CuI2.H2O, greenish black (MnI)2O.H2O and brownish black FeI3 were obtained. Fe(II), Ni, Co, and Zn do not form complexes.

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In organic chemistry, atoms other than carbon and hydrogen are generally referred to as heteroatoms. The most common heteroatoms are nitrogen, oxygen and sulfur. Now I present to you an article called Distinguishing N-oxide and hydroxyl compounds: Impact of heated capillary/heated ion transfer tube in inducing atmospheric pressure ionization source decompositions, published in 2004-06-30, which mentions a compound: 1127-45-3, mainly applied to distinguishing nitrogen oxide hydroxyl mass spectra; heated capillary transfer tube pressure ionization source decomposition, Reference of 8-Hydroxyquinoline 1-oxide.

In the pharmaceutical industry, a higher attrition rate during the drug discovery process means a lower drug failure rate in the later stages. This translates into shorter drug development time and reduced cost for bringing a drug to market. Over the past few years, anal. strategies based on liquid chromatog./mass spectrometry (LC/MS) have gone through revolutionary changes and presently accommodate most of the needs of the pharmaceutical industry. Among these LC/MS techniques, collision induced dissociation (CID) or tandem mass spectrometry (MS/MS and MSn) techniques were widely used to identify unknown compounds and characterize metabolites. MS/MS methods are generally ineffective for distinguishing isomeric compounds such as metabolites involving oxygenation of carbon or nitrogen atoms. Most recently, atm. pressure ionization (API) source decomposition methods aid in the mass spectral distinction of isomeric oxygenated (N-oxide vs. hydroxyl) products/metabolites. In previous studies, experiments were conducted using mass spectrometers equipped with a heated capillary interface between the mass analyzer and the ionization source. The authors studied the impact of the length of a heated capillary or heated ion transfer tube (a newer version of the heated capillary designed for accommodating orthogonal API source design) in inducing for-API source deoxygenation that allows the distinction of N-oxide from hydroxyl compounds 8-Hydroxyquinoline (HO-Q), quinoline-N-oxide (Q-NO) and 8-hydroxyquinoline-N-oxide (HO-Q-NO) were used as model compounds on three different mass spectrometers (LCQ Deca, LCQ Advantage and TSQ Quantum). Irresp. of heated capillary or ion transfer tube length, N-oxides from this class of compounds underwent predominantly deoxygenation decomposition under atm. pressure chem. ionization conditions and the abundance of the diagnostic [M + H – O]+ ions increased with increasing vaporizer temperature Also, the results suggest that in API source decomposition methods described in this paper can be conducted using mass spectrometers with nonheated capillary or ion transfer tube API interfaces. Because N-oxides can undergo in-source decomposition and interfere with quantitation experiments, particular attention should be paid when developing API based bioanal. methods.

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So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic.Ding, Yong; Zhao, Wei researched the compound: 8-Hydroxyquinoline 1-oxide( cas:1127-45-3 ).Computed Properties of C9H7NO2.They published the article 《The oxidation of pyridine and alcohol using the Keggin-type lacunary polytungstophosphate as a temperature-controlled phase transfer catalyst》 about this compound( cas:1127-45-3 ) in Journal of Molecular Catalysis A: Chemical. Keywords: pyridine oxide preparation; oxidation pyridine polytungstophosphate catalyst; ketone preparation; alc oxidation polytungstophosphate catalyst. We’ll tell you more about this compound (cas:1127-45-3).

A novel temperature-controlled phase transfer catalyst of [(C18H37)2(CH3)2N]7[PW11O39] has been developed for the oxidation of pyridines and alcs. with hydrogen peroxide. The reactions were conducted in 1,4-dioxane, and high yields of the corresponding heterocyclic N-oxides and ketones were obtained under relative mild conditions. The catalyst could be easily recovered and reused after reaction with cooling. There was no discernable loss in activity and selectivity after several reaction cycles.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Tracer studies on the extraction of metal ions. III. Extraction of manganese(II), iron(III), cobalt(II), copper(II), and zinc(II) with 8-hydroxyquinoline N-oxide》. Authors are Mikulski, J..The article about the compound:8-Hydroxyquinoline 1-oxidecas:1127-45-3,SMILESS:OC1=CC=CC2=CC=C[N+]([O-])=C12).Application of 1127-45-3. Through the article, more information about this compound (cas:1127-45-3) is conveyed.

8-Hydroxyquinoline N-oxide extract less Mn(II), Fe(III), and Co(II) than does 8-hydroxyquinoline, and the extraction takes place in a lower pH range. Zn was not extracted at all. The tracers were 54Mn, 59Fe, 60Co, 64Cu, and 65Zn. Cf. CA 60, 11569a.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Novel spiroborates and a dipole moment study of 1,3,2 dioxaboraazulene-2-spiro-2′-(1′,3′,2′-benzodioxaborole)》. Authors are Balaban, A. T.; Bally, Ioana; Bishop, R. J.; Rentea, C. N.; Sutton, L. E..The article about the compound:8-Hydroxyquinoline 1-oxidecas:1127-45-3,SMILESS:OC1=CC=CC2=CC=C[N+]([O-])=C12).Product Details of 1127-45-3. Through the article, more information about this compound (cas:1127-45-3) is conveyed.

The large dipole moment (8.24 D.) of 5(7)-methyl-1,3,2-dioxaboraazulene-2-spiro-2′-(1′,3′,2′-benzodioxaborole) (I) confirms the spiran co-ordinated structure previously suggested. Stable spiroborates are formed from butoxy-benzodioxaborole with 8-hydroxyquinoline or its N-oxide, but not with 3-hydroxy-γ-pyrone.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Oxine N-oxide as an analytical reagent for the colorimetric estimation of Ce(IV) and its comparison with 8-quinolinol as a chelating agent》. Authors are Bhat, A. N.; Jain, B. D..The article about the compound:8-Hydroxyquinoline 1-oxidecas:1127-45-3,SMILESS:OC1=CC=CC2=CC=C[N+]([O-])=C12).Safety of 8-Hydroxyquinoline 1-oxide. Through the article, more information about this compound (cas:1127-45-3) is conveyed.

Aqueous solutions of Ce(IV) salts form stable brownish red H2O-soluble complexes when combined with alc. oxine N-oxide. The absorption is measured at 420 mμ, and Beer’s law is obeyed to 9.0 p.p.m. Ce. Th, U, and F- interfere and must be removed.

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So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic.Shrader, William D.; Celebuski, Joseph; Kline, Steven J.; Johnson, David researched the compound: 8-Hydroxyquinoline 1-oxide( cas:1127-45-3 ).COA of Formula: C9H7NO2.They published the article 《Synthesis of a novel hexadentate chelating agent based on 8-hydroxyquinoline》 about this compound( cas:1127-45-3 ) in Tetrahedron Letters. Keywords: hydroxyquinolinecarbonamidoethylamine preparation hexadentate chelating agent; quinolinecarbonamidoethylamine preparation chelating agent; amidation succinimido hydroxyquinolinecarboxylate aminoethylamine. We’ll tell you more about this compound (cas:1127-45-3).

Tris[[(hydroxyquinoline)carbonamido]ethyl]amine (I), a new hexadentate chelator, was prepared by the conversion of 8-hydroxyquinoline to succinimido hydroxyquinolinecarboxylate II and subsequent reaction with N(CH2CH2NH2)3. I is a siderophore analog with a non-naturally occurring binding unit comprising a combination of both O and N donor atoms.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Low-dimensional compounds containing bioactive ligands. Part XVI: Halogenated derivatives of 8-quinolinol N-oxides and their copper(II) complexes》. Authors are Lukoova, Andrea; Baran, Peter; Volarevic, Vladislav; Ilic, Aleksandar; Vilkova, Maria; Litecka, Miroslava; Harmosova, Michaela; Potocnak, Ivan.The article about the compound:8-Hydroxyquinoline 1-oxidecas:1127-45-3,SMILESS:OC1=CC=CC2=CC=C[N+]([O-])=C12).Recommanded Product: 8-Hydroxyquinoline 1-oxide. Through the article, more information about this compound (cas:1127-45-3) is conveyed.

Four N-oxides, 8-quinolinol N-oxide (8-HQNO), 5,7-dichloro-8-quinolinol N-oxide (HdClQNO), 5,7-dibromo-8-quinolinol N-oxide (HdBrQNO) and 7-iodo-8-quinolinol N-oxide (HIQNO) as well as their six copper complexes, CuCl2(8-HQNO)2(H2O) (1), CuCl2(HdClQNO)2(H2O)2 (2), Cu(dClQNO)2(CHCl3) (3), Cu(dClQNO)2(H2O) (4), {[Cu(dBrQNO)2]•2H2O}n (5) and CuCl2(HIQNO)2(H2O)4 (6) were synthesized as possible anticancer agents. Crystal structures of N-oxides contain planar mols. held together via hydrogen bonds involving oxygen atoms of N-oxide groups as acceptors. Crystal structure of 5 represents the first structure of a copper(II) complex with an N-oxide ligand derived from 8-HQNO and is formed by infinite chains. In the chain, the Cu(II) atom coordinates to six oxygen atoms from two bidentate chelating dBrQNO ligands occupying apexes of elongated tetragonal bipyramid with bridging oxygen atoms of N-oxide groups in axial positions. Antiproliferative activity of prepared N-oxides as well as their complexes was studied using in vitro MTT assay against the MDA-MB-231, HCT-116 and A549 cancer cell lines and their selectivity was verified on MSCs cells. Among the tested cancer cell lines, A549 and MDA-MB-231 cells were the most sensitive to the tested complexes. Complex 1 showed the highest cytotoxicity against both tumor cell lines. At concentration, which could be tested in animal models, 1 induced cell death in >50% of cancer cells and in 20% of MSCs indicating its selectivity.

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Application In Synthesis of 8-Hydroxyquinoline 1-oxide. Aromatic heterocyclic compounds can also be classified according to the number of heteroatoms contained in the heterocycle: single heteroatom, two heteroatoms, three heteroatoms and four heteroatoms. Compound: 8-Hydroxyquinoline 1-oxide, is researched, Molecular C9H7NO2, CAS is 1127-45-3, about Intramolecular hydrogen bonding in 8-quinolinol N-oxides, quinaldinic acid N-oxides and quinoline-2-carboxyamide N-oxide. Deuterium isotope effects on 13C chemical shifts. Author is Dziembowska, Teresa; Rozwadowski, Zbigniew; Hansen, Poul Erik.

Secondary isotope effects on 13C chem. shifts have been measured in a series quinolinols, quinaldinic acid N-oxides and quinoline-2-carboxyamide N-oxide. For 8-quinolinol N-oxides a good correlation was found between δOH and nΔC(OD) isotope effects. The OH and 13C chem. shifts and nΔC(OD) show very small temperature dependences. The primary isotope effects are small, pos. and temperature insensitive. Furthermore, they increase with increasing nΔC(OD). All features point towards a localized hydrogen bond in an asym. double well potential. The quinaldinic acid N-oxides show long-range isotope effects on 13C chem. shifts of both signs with 2ΔC=O(OD) rather small. The primary isotope effects of the quinaldinic acid N-oxide is of order of 0.5 ppm, whereas for its 4-ethoxy-derivative is smaller, ∼0.3 ppm. The OH chem. shifts resonate at the low field ∼18-20 ppm and the OH resonance is fairly broad at room temperature, especially for the 4-ethoxy-derivative The temperature effects on the chem. shifts, primary and secondary isotope effects are small. For quinaldinic acid N-oxides the asym. broad quasi-single potential is suggested.For quinoline-2-carboxyamide N-oxide the isotope effects are small, indicating rather weak hydrogen bond.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Heterocyclic N-oxides. III. 8-Hydroxyquinoline N-oxide》. Authors are Ramaiah, K.; Srinivasan, V. R..The article about the compound:8-Hydroxyquinoline 1-oxidecas:1127-45-3,SMILESS:OC1=CC=CC2=CC=C[N+]([O-])=C12).Synthetic Route of C9H7NO2. Through the article, more information about this compound (cas:1127-45-3) is conveyed.

cf. CA 57, 6761f. Unlike 8-hydroxyquinoline (I), the title compound (II) shows no OH stretching at 3400 or 3660 cm.-1, Badger and Moritz (CA 53, 11382g). The broad medium-intensity band of II at 2857-2440 cm.-1 is independent of concentration and is interpreted as evidence of strong intramol. H bonding involving the O-H and N-O groups. Preliminary study by the method of Irving, et al. (CA 43, 8941i) with 23 cations indicates that II chelates more selectively than I. The results at pH 5.2, 8.4, and 12.4 are tabulated. II is conveniently prepared in fair yield by heating (water bath, 65-75°) 14.5 g. I in 30 ml. glacial HOAc with 10 ml. 30% H2O2. At intervals of 1 hr. a total of 30 ml. more of H2O2 was added in 3 equal increments. The mixture was concentrated in vacuo, made alk. with saturated aqueous Na2CO3, and left overnight after addition of 60 ml. CHCl3. Unreacted I was removed by steam distillation of the mixture after filtration, drying and removal of CHCl3 by distillation Hot filtration of the aqueous residue gave on cooling 5.96 g. yellow needles of II, m. 139°.

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