Chemical Research in 1273-73-0

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SDS of cas: 1273-73-0. 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: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about Triferrocenylborane and its amine adducts. Author is Lopez, T.; Campero, A..

The synthesis and characterization by IR, diffuse reflectance, thermogravimetric and Moessbauer techniques of triferrocenylborane and its adducts with ammonia, methylamine, ethylamine, propylamine, dimethylamine, and pyridine, are reported. Bands in the 1250 and 760 cm-1 IR regions are assigned to vibration of the B-C and B-N bonds, resp. In the visible region the spectra show besides the two typical ferrocene bands, shifted to lower frequency, a third one around 15,000 cm-1, probably due to the splitting of the first excited level of ferrocene caused by its decrease in symmetry when bonding covalently to boron in triferrocenylborane. Moessbauer spectroscopy shows that the s-electron d. around the 57Fe nucleus is higher in triferrocenylborane than in ferrocene; part of this s-electron d. is decreased by addnl. d-electron d. in the case of the adduct compounds

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Archives for Chemistry Experiments of 1273-73-0

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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 Syntheses based on organic derivatives of mercury. II. 1,3-Dihaloferrocenes, published in 1966, which mentions a compound: 1273-73-0, mainly applied to HALO FERROCENYL MERCURY DERIV; FERROCENYL MERCURY DERIV HALO; MERCURY DERIV HALO FERROCENYL, SDS of cas: 1273-73-0.

cf. CA 64, 14215a. Keeping 12.8 g. Hg(OAc)2, 200 ml. MeOH, 8.82 g. chloroferrocene, and 30 ml. C6H6 20 min. and mixing with 20 g. CaCl2 in MeOH, then 400 ml. ice-H2O, gave after extraction with petr. ether of the separated precipitate and the extract passed over inactivated Al2O3 and elution with petroleum ether 41% unreacted chloroferrocene, while extraction of the remaining precipitate with 1:1 C6H6-petroleum ether gave fraction A which yielded 10% 1-chloro-1′-chloromercuriferrocene, m. 143-4°, on elution with CHCl3. Elution of fraction A with petroleum ether-C6H6 gave 17% 3,3′-bis(chloroferrocenyl)mercury. Similarly were obtained: 3,3′-bis(iodoferrocenyl)mercury, m. 175°; 3,3′-bis(chloroferrocenyl)mercury, m. 190°; 3,3′-bis(bromoferrocenyl) mercury (I), m. 179-80°. I with CuCl2 in hot Me2CO gave after brief heating and treatment with petroleum ether 84% 1,3-dichloroferrocene, m. 81°; similarly were prepared 90% 1,3-dibromoferrocene, m. 78.5-80°; 100% 1,3-diiodoferrocene (II), m. 47.5° (prepared from the R2Hg with iodine in ClCH2CH2Cl). Iodoferrocene and Cu2I2 with PhMgBr at 150° in dry N atm. 1 hr. gave 76% phenylferrocene, m. 110-11°, and a similar reaction of II with PhMgBr with Cu2I2 gave 21% 1,3-diphenylferrocene, m. 107°. The above mercuration of ferrocene also gave difficultly elutable 1,3-bis(bromomercuri)ferrocene, decomposed 190°. Ir spectra are reported.

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Can You Really Do Chemisty Experiments About 1273-73-0

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Syntheses based on organic derivatives of mercury. I. Reaction of mercurated ferrocenes with copper salts》. Authors are Nefedov, V. A.; Nefedova, M. N..The article about the compound:Bromoferrocenecas:1273-73-0,SMILESS:Br[C-]12[Fe+2]3456789([C-]%10C6=C7C8=C9%10)C1=C3C4=C25).Application of 1273-73-0. Through the article, more information about this compound (cas:1273-73-0) is conveyed.

Mercurated products of ferrocene were separated as follows; dilution of the reaction mixture with H2O gave ferrocenylmercuric acetate, m. 115-16°; treatment with KBr gave bromomercuriferrocene, decomposed at 184-6°, after extraction with (CH2Cl)2 and treatment of the extracted material with petroleum ether. Extraction of the crude products with Me2CO gave 1,3-bis(bromomercuri)ferrocene, a yellow powder. Chlormercuriferrocene heated in Me2CO with CuCl2.2H2O and H2O 10 min. gave 58% chloroferrocene, m. 58-9°, CuBr2 similarly gave 69% bromoferrocene, m. 32-3°. 1,1′-Bis(chloromercuri)ferrocene and CuCl2 similarly gave 17% 1,1′-dichloroferrocene, m. 75-7°, and 1-chloro-1′-chloromercuriferrocene, m. 141-3°, separated on Al2O3 by elution with C6H6 and heptane. Similarly prepared was 1,1′-dibromoferrocene, m. 50°. Bromomercuriferrocene and Cu(OAc)2 heated to 130° in vacuo 2 hrs. gave 2% acetoxyferrocene, m. 63-4°; similarly chloromercuriferrocene and Cu phthalimide gave 40% N-ferrocenylphthalimide m. 152-4°. Dibromoferrocene heated with PhOK in the presence of powd. Cu in xylene 40 min. gave 20% 1,1-diphenoxyferrocene, m. 90.5-91°; bromoferrocene similarly gave phenoxyferrocene, m. 87-8°. 1,1′-bis(chloromercuri)ferrocene and Cu(SCN)2 heated 6 hrs. in C6H6 gave 30% thiocyanoferrocene m. 97-8°, and 1,1′-dithiocyanoferrocene, m. 114-15°. The former and MeMgI gave 90% methylthioferrocene (I), n25D 1.6488; methiodide, m. 106-7°. Similarly prepared was 1,1′-bis(methylthio)ferrocene, a liquid. I oxidized with H2O2 gave the sulfone, m. 73-4°.

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Extracurricular laboratory: Synthetic route of 1273-73-0

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Category: thiazolidine. The fused heterocycle is formed by combining a benzene ring with a single heterocycle, or two or more single heterocycles. Compound: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about Synthesis, chemical reactivity and electrochemical behaviour of mono- and difluoro metallocenes. Author is Bulfield, David; Maschke, Marcus; Lieb, Max; Metzler-Nolte, Nils.

Syntheses of mono- and 1,1′-difluoro-substituted metallocenes (ferrocene, ruthenocene) and of asym. 1,1′-disubstituted ferrocenes with one substituent being fluorine are described. Lithiation of metallocenes and subsequent addition of the fluorinating agent NFSI gave the fluorinated metallocenes after optimization of the exptl. conditions. All new compounds were comprehensively characterized and the cyclic voltammograms of fluoro- and 1,1′-difluoroferrocene were recorded and compared to other mono- and dihalogenated ferrocenes. Half-wave potentials of +106 mV and +220 mV vs. FcH0/+ were obtained for monofluorinated species and difluorinated ferrocene, resp. Both values are remarkably low compared to the other halogenated ferrocenes (Cl, Br, and I). Finally, 1-bromo-1′-fluoro-ferrocene turns out to be an ideal starting material for further fluoro-substituted ferrocene derivatives

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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.Sorriso, Salvatore researched the compound: Bromoferrocene( cas:1273-73-0 ).Synthetic Route of C10BrFe.They published the article 《Energy barrier to internal rotation in some ferrocene derivatives from dielectric measurements》 about this compound( cas:1273-73-0 ) in Journal of Organometallic Chemistry. Keywords: dipole moment ferrocene halo; halo ferrocene rotation barrier; conformation dihaloferrocene. We’ll tell you more about this compound (cas:1273-73-0).

Dipole moments have been measured in n-decane at 5-130° for the compounds monochloro-, 1,1′-dichloro-, monobromo-, 1,1′-dibromo-, monoiodo-, and 1,1′-diiodoferrocene. The energy barriers to rotation of the two cyclopentadiene rings about the bond to iron have been calculated Free rotation exists in the parent mol., ferrocene. Steric effects between the halo substituents of one ring and the H atoms of the other ring are small.

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A new synthetic route of 1273-73-0

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Synthetic Route of C10BrFe. The reaction of aromatic heterocyclic molecules with protons is called protonation. Aromatic heterocycles are more basic than benzene due to the participation of heteroatoms. Compound: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about Action of halogens on ferrocenylgold-triphenylphosphine. Author is Perevalova, E. G.; Lemenovskii, D. A.; Grandberg, K. I.; Nesmeyanov, A. N..

Ph3P.AuC5H4FeC5H5 (I) brominated in CCl4 at -20° to a blue, then yellow material and after evaporation gave 55% bromoferrocene and 18% biferrocenyl along with 70% Ph3P.AuBr. Similar results were obtained at -50° in CH2Cl2. I chlorinated as above to 26% chloroferrocene, 70% biferrocenyl, and 98% Ph3P.AuCl. Iodination gave 82% iodoferrocene and 89% Ph3P.AuI.

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Quality Control of Bromoferrocene. 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: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about Synthesis of perfluoroalkylthio-substituted ferrocenes. Author is Rhode, Constantin; Lemke, Jessica; Lieb, Max; Metzler-Nolte, Nils.

Mono- and bis(trifluoromethylthio)-substituted and perfluorooctanesulfonylferrocene derivatives were prepared by nucleophilic substitution reactions on the ferrocene core. Thus, Hg(SCF3)2 was activated in situ by Cu and used for nucleophilic displacement reactions of bromide. Trifluoromethylsulfonylferrocene was not accessible by this method. The reaction of lithioferrocene with trifluoromethylsulfonyl chloride gave chloroferrocene in small yield, presumably due to the high lattice energy of solid LiF. On the other hand, the known trifluoromethylferrocene was obtained as the only isolable compound from the photochem. reaction of CF3SSCF3 with ferrocene. The same product was detected in small amounts in the reaction of chloromercuryferrocene with trifluoromethylsulfonyl chloride. It thus appears that most established methods for trifluoromethylation of purely organic compounds fail for ferrocene due to concurring redox reactions. The new compounds have been comprehensively characterized by elemental analyses, NMR and IR spectroscopy, mass spectrometry, and electrochem. The SCF3 group appears to be almost as electron-withdrawing as a trifluoromethyl group on the ferrocene core.

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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 Efficient Two-Electron Reduction of Dioxygen to Hydrogen Peroxide with One-Electron Reductants with a Small Overpotential Catalyzed by a Cobalt Chlorin Complex, published in 2013-02-20, which mentions a compound: 1273-73-0, mainly applied to electron reduction oxygen hydrogen peroxide formation; reductant overpotential catalyzed cobalt chlorin complex, Quality Control of Bromoferrocene.

A Co chlorin complex (CoII(Ch)) efficiently and selectively catalyzed two-electron reduction of dioxygen (O2) by 1-electron reductants (ferrocene derivatives) to produce H2O2 (H2O2) in the presence of HClO4 (HClO4) in benzonitrile (PhCN) at 298 K. The catalytic reactivity of CoII(Ch) was much higher than that of a Co porphyrin complex (CoII(OEP), OEP2- = octaethylporphyrin dianion), which is a typical porphyrinoid complex. The two-electron reduction of O2 by 1,1′-dibromoferrocene (Br2Fc) was catalyzed by CoII(Ch), whereas virtually no reduction of O2 occurred with CoII(OEP). CoII(Ch) is more stable than CoII(OEP), where the catalytic turnover number (TON) of the two-electron reduction of O2 catalyzed by CoII(Ch) exceeded 30000. The detailed kinetic studies revealed that the rate-determining step in the catalytic cycle is the proton-coupled electron transfer reduction of O2 with the protonated CoII(Ch) ([CoII(ChH)]+) that is produced by facile electron-transfer reduction of [CoIII(ChH)]2+ by ferrocene derivative in the presence of HClO4. The 1-electron-reduction potential of [CoIII(Ch)]+ was pos. shifted from 0.37 V (vs. SCE) to 0.48 V by the addition of HClO4 due to the protonation of [CoIII(Ch)]+. Such a pos. shift of [CoIII(Ch)]+ by protonation resulted in enhancement of the catalytic reactivity of [CoIII(ChH)]2+ for the two-electron reduction of O2 with a lower overpotential as compared with that of [CoIII(OEP)]+.

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I hope my short article helps more people learn about this compound(Bromoferrocene)Computed Properties of C10BrFe. Apart from the compound(1273-73-0), you can read my other articles to know other related compounds.

The chemical properties of alicyclic heterocycles are similar to those of the corresponding chain compounds. Compound: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about The anomalous electrochemistry of the ferrocenylamines, the main research direction is ferrocenylamine electrochem oxidation; substituent effect electrochem ferrocenylamine; resonance ferrocenylamine.Computed Properties of C10BrFe.

In the electrochem. of ferrocenylamines, the amine substituent acts as an unusually potent activating group for ferrocene oxidation, as shown by various Hammett-type correlations, with ferrocenylamine oxidizing at a potential 0.37 V more neg. than ferrocene itself. Triferrocenylamine, a compound with a nearly planar N, produces three reversible oxidation waves, the first of which is 0.31 neg. of ferrocene’s oxidation These and other data suggest that resonance interaction between ferrocene and the N lone pair is an important factor in ferrocene oxidation This contrasts with conclusions of earlier studies in which ferrocenes, with primarily electron-withdrawing groups, were examined

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Here is just a brief introduction to this compound(1273-73-0)Quality Control of Bromoferrocene, more information about the compound(Bromoferrocene) is in the article, you can click the link below.

Quality Control of Bromoferrocene. The fused heterocycle is formed by combining a benzene ring with a single heterocycle, or two or more single heterocycles. Compound: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about Assignment of 1H NMR chemical shifts in 1,2- and 1,1′-disubstituted ferrocenes. Author is Pickett, Tom E.; Richards, Christopher J..

The effect of 29 commonly encountered substituents on the chem. shifts of α, β and C5H5 positions in monosubstituted ferrocenes are tabulated and employed for determining 1H NMR assignments in 1,2- and 1,1′-disubstituted ferrocene derivatives

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