Tag: M.W:200-300

Most of the compounds have physiologically active properties, and their biological properties are often attributed to the heteroatoms contained in their molecules, and most of these heteroatoms also appear in cyclic structures. A Journal, Journal of Materials Chemistry called Synthesis and nanoparticle encapsulation of 3,5-difuranylvinyl-boradiaza-s-indacenes for near-infrared fluorescence imaging, Author is Kim, Sehoon; Ohulchanskyy, Tymish Y.; Baev, Alexander; Prasad, Paras N., which mentions a compound: 2689-65-8, SMILESS is IC1=CC=C(O1)C=O, Molecular C5H3IO2, Related Products of 2689-65-8.

The mol. design, synthesis, and photophys. study of a series of near-IR absorbing and fluorescing dyes, 3,5-difuranylvinyl-boradiaza-s-indacenes, bearing various 5-membered heteroaromatic heads at the 8-position (FBs) are reported. The correlation between the mol. structure and the spectral shift has been studied by quantum chem. calculations at various levels (B3LYP/6-31G*, HF/6-31G* and HF/PM3), which conclude that the planarity determined by the bulkiness of the head unit controls the optical band gap of FBs, by energetically affecting the LUMO rather than the HOMO. It was also shown that incorporation of heavy atoms increased the capability of singlet oxygen generation as a result of enhanced intersystem crossing, which makes FBs potentially useful for near-IR photodynamic therapy. In vitro near-IR fluorescence imaging of live tumor cells has been demonstrated through a nanocarrier approach, by encapsulating one of the FB dyes in a stable aqueous formulation of organically modified silica nanoparticles which retains the fluorescence efficiency of the hydrophobic dye in water.

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1,8-Naphthyridine – Wikipedia,
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SDS of cas: 2689-65-8. 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. Compound: 5-Iodo-2-furaldehyde, is researched, Molecular C5H3IO2, CAS is 2689-65-8, about Furan derivatives. LXXX. Synthesis and properties of substituted furfurylideneoxindoles.

Oxindoles I (R1 = R2 = H, R = H, NO2, Cl, Br, I, Me, MeS, CO2Me, p- and m-O2NC6H4, Me2N; R1 = H, R2 = NO2, R = H, Cl, Br, I, Me, MeS, Ac, 4-O2NC6H4; R1 = Ac, R2 = H, R = H, NO2, Cl, Br, I, Me, MeS, NMe2) were prepared by condensation of oxindole, 5-nitrooxindole, and 1-acetyloxindole, resp., with the resp. furancarboxyaldehydes, some I (R1 = Ac) were prepared by acetylation of I (R1 = H). UV, IR and mass spectra of I were interpreted.

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Recommanded Product: 2689-65-8. Aromatic compounds can be divided into two categories: single heterocycles and fused heterocycles. Compound: 5-Iodo-2-furaldehyde, is researched, Molecular C5H3IO2, CAS is 2689-65-8, about Improved synthetic method for 5-aryl-2-furancarbaldehyde. Author is D’Auria, Maurizio; Antonioletti, Roberto; De Mico, Antonella; Piancatelli, Giovanni.

Arylfurancarboxaldehydes I (R = Ph, 2-ClC6H4, 2-naphthyl, 2,5-Me2C6H3, 2-, 4-MeOC6H4) were prepared in 19-91% yield by photochem. (500 W high pressure Hg arc) arylation of iodofurancarboxaldehyde I (R = iodo) with RH in MeCN for 1 h.

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The chemical properties of alicyclic heterocycles are similar to those of the corresponding chain compounds. Compound: 5-Iodo-2-furaldehyde, is researched, Molecular C5H3IO2, CAS is 2689-65-8, about Furan derivatives. LV. Kinetics of condensation of 5-nitrofurfuryl sulfones with aldehydes, the main research direction is kinetics condensation aldehyde nitrofurfuryl sulfone; substituent effect condensation aldehyde nitrofurfuryl sulfone; reaction constant condensation aldehyde nitrofurfuryl sulfone; furfuryl sulfone condensation aldehyde nitrofurfuryl sulfone.Formula: C5H3IO2.

The kinetics of the condensation of I with II (R = H, Me, iodo, Cl, Br, CO2Me NO2) or III (R = H, NO2, Cl, Br, CO2H, CO2Et, Me, MeO, NHAc) [to give, resp., the corresponding (E)-IV or (E)-V, examined in NH4OAc-piperidine at 118° or MeOH-piperidine at 40°, were 2nd order. The log k was linearly related with σp+. The pKa of I and of 5-nitrofurfuryl Me sulfone (VI) were determined and the rates of the condensation of I or VI with III (R = NO2) indicated that steric factors were more important in the condensation than was the sulfone acidity.

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1,8-Naphthyridine | C8H6N2 – PubChem

Epoxy compounds usually have stronger nucleophilic ability, because the alkyl group on the oxygen atom makes the bond angle smaller, which makes the lone pair of electrons react more dissimilarly with the electron-deficient system. Compound: 5-Iodo-2-furaldehyde, is researched, Molecular C5H3IO2, CAS is 2689-65-8, about Direct Synthesis of Water-Tolerant Alkyl Indium Reagents and Their Application in Palladium-Catalyzed Couplings with Aryl Halides.Product Details of 2689-65-8.

A mild, efficient and straightforward method for the synthesis of water-tolerant alkyl indium reagent through CuCl-mediated direct insertion of indium into alkyl halide in THF at room temperature is described.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Synthesis of iodo derivatives of the furan series. 5-Iodofurfural》. Authors are Nazarova, Z. N..The article about the compound:5-Iodo-2-furaldehydecas:2689-65-8,SMILESS:IC1=CC=C(O1)C=O).Recommanded Product: 2689-65-8. Through the article, more information about this compound (cas:2689-65-8) is conveyed.

All 5-bromo or -iodo derivatives of furan lose halogen quantitatively on standing 48 hrs. in the dark in HNO3 (d. 1.4) in the presence of AgNO3, followed by heating to 50-60° until N oxide vapor appear; the method can be used for analysis of these compounds Refluxing 35 g. 5-bromofurfural with 35 g. KI and 180 ml. AcOH 1 hr., followed by dilution with H2O gave 96% crude product, m. 124-6°, which gave 80% pure 5-iodofurfural, m. 127.5-8° (from EtOH); with HNO3 it gives vapor of iodine; oxime, decompose 167-8°; semicarbazone, decompose 199-200°. The aldehyde in 30% NaOH treated with a few drops H2O2 and kept 4 days, then acidified, gave 58.8% 5-iodofurancarboxylic acid, decompose 197-8° (from H2O). The aldehyde heated with Ac2O-AcOK at 145-50°, then boiled with a little H2O 15 min. gave 82.2% 5-iodo-2-furylacrylic acid, decompose 159-60° (from dilute dioxane). The aldehyde condensed with MeNO2 (cf. C.A. 49, 9606b) gave 86% 1-(5-iodo-2-furyl)-2-nitroethylene (I), yellow-orange, m. 112-13° (from EtOH); if the intermediately formed Na salt is filtered directly from the mixture and is carefully decomposed with AcOH after washing with Et2O and MeOH, there is formed the unstable nitro alc., orange-red oil, which after steam distillation gave 80% I, m. 112-13°. The Br analog heated with KI and NaI in AcOH 2 hrs. on a steam bath gave 82.6% I. Heating 2-(5-bromo-2-furyl)-1-chloro-1-nitroethylene (cf. loc. cit.) with NaI in AcOH 2 hrs. gave 48.2% 5-iodo analog, C6H3BrCINO3, m. 109-9.5° (from EtOH), an irritant which loses iodine on heating with HNO3.

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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 Stereospecific Synthesis of Tri- and Tetrasubstituted α-Fluoroacrylates by Mizoroki-Heck Reaction, published in 2016-02-05, which mentions a compound: 2689-65-8, mainly applied to stereospecific trisubstituted tetrasubstituted fluoroacrylate preparation; palladium catalyzed Mizoroki Heck reaction fluoroacylate aryl heteroaryl iodide; fluorinated analog therapeutic agent preparation Mizoroki Heck reaction, Category: naphthyridine.

Ligand-free, efficient, palladium-catalyzed Mizoroki-Heck reaction between Me α-fluoroacrylate and arene or hetarene iodides is reported for the first time. The reaction is stereospecific and provides fair to quant. yields of fluoroalkenes. The Mizoroki-Heck reaction starting from more hindered and usually reluctant trisubstituted acrylate, to access tetrasubstituted fluoroalkenes, is also reported. Finally, the use of a three-step synthesis sequence, including Mizoroki-Heck reaction, allows the synthesis of fluorinated analogs of therapeutic agents with high yield.

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In general, if the atoms that make up the ring contain heteroatoms, such rings become heterocycles, and organic compounds containing heterocycles are called heterocyclic compounds. An article called Furan derivatives. XLVI. Infrared spectra of substituted 2-furyl cyanides, published in 1975, which mentions a compound: 2689-65-8, Name is 5-Iodo-2-furaldehyde, Molecular C5H3IO2, COA of Formula: C5H3IO2.

The spectral data of the cyanides I (R = H, halo, Me, NO2, AcO) in CHCl3 and CCl4 were given and the influence of substituents and solvents on the wave numbers and integrated absorption intensities of the ν(CN) bands discussed. Wave numbers of the ν(CN) bands increased with increasing electron-acceptor ability of the substituents; the wave numbers were higher than those of the corresponding substituted Ph cyanides. Integrated absorption intensities of the ν(CN) bands decreased with increasing electron-acceptor ability of the substituents and were more significantly influenced by the nature of the substituents and the polarity of the solvents than the wave numbers of these bands.

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Epoxy compounds usually have stronger nucleophilic ability, because the alkyl group on the oxygen atom makes the bond angle smaller, which makes the lone pair of electrons react more dissimilarly with the electron-deficient system. Compound: 5-Iodo-2-furaldehyde, is researched, Molecular C5H3IO2, CAS is 2689-65-8, about Improving the Solubility of Artificial Ligands of Streptavidin to Enable More Practical Reversible Switching of Protein Localization in Cells.Name: 5-Iodo-2-furaldehyde.

Chem. inducers that can control target-protein localization in living cells are powerful tools to investigate dynamic biol. systems. We recently reported the retention using selective hook or “”RUSH”” system for reversible localization change of proteins of interest by addition/washout of small-mol. artificial ligands of streptavidin (ALiS). However, the utility of previously developed ALiS was restricted by limited solubility in water. Here, we overcame this problem by X-ray crystal structure-guided design of a more soluble ALiS derivative (ALiS-3), which retains sufficient streptavidin-binding affinity for use in the RUSH system. The ALiS-3-streptavidin interaction was characterized in detail. ALiS-3 is a convenient and effective tool for dynamic control of a-mannosidase II localization between ER and Golgi in living cells.

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Safety of 5-Iodo-2-furaldehyde. The protonation of heteroatoms in aromatic heterocycles can be divided into two categories: lone pairs of electrons are in the aromatic ring conjugated system; and lone pairs of electrons do not participate. Compound: 5-Iodo-2-furaldehyde, is researched, Molecular C5H3IO2, CAS is 2689-65-8, about Ligand-Promoted Meta-C-H Arylation of Anilines, Phenols, and Heterocycles. Author is Wang, Peng; Farmer, Marcus E.; Huo, Xing; Jain, Pankaj; Shen, Peng-Xiang; Ishoey, Mette; Bradner, James E.; Wisniewski, Steven R.; Eastgate, Martin D.; Yu, Jin-Quan.

The authors report the development of a versatile 3-acetylamino-2-hydroxypyridine class of ligands that promote meta-C-H arylation of anilines, heterocyclic aromatic amines, phenols, and 2-benzyl heterocycles using norbornene as a transient mediator. More than 120 examples are presented, demonstrating this ligand scaffold enables a wide substrate and coupling partner scope. Meta-C-H arylation with heterocyclic aryl iodides as coupling partners is also realized for the first time using this ligand. The utility for this transformation for drug discovery is showcased by allowing the meta-C-H arylation of a lenalidomide derivative The first steps toward a silver-free protocol for this reaction are also demonstrated.

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1,8-Naphthyridine | C8H6N2 – PubChem