Tag: M.W=100-150

Safety of (4-Methoxyphenyl)methanol. Authors Wei, DY; Yang, P; Yu, CM; Zhao, FK; Wang, YL; Peng, ZH in AMER CHEMICAL SOC published article about in [Wei, Dongyue; Yang, Peng; Yu, Chuanman; Zhao, Fengkai; Wang, Yilei; Peng, Zhihua] China Univ Petr East China, Coll Sci, Dept Chem, Qingdao 266580, Shandong, Peoples R China in 2021, Cited 51. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

A manganese-catalyzed N-alkylation reaction of amines with alcohols via hydrogen autotransfer strategy has been demonstrated. The developed practical catalytic system including an inexpensive, nontoxic, commercially available MnCl2 or MnBr(CO) s as the metal salt and triphenylphosphine as a ligand provides access to diverse aromatic, heteroaromatic, and aliphatic secondary amines in moderate-to-high yields. In addition, this operationally simple protocol is scalable to the gram level and suitable for synthesizing heterocycles such as indole and resveratrol-derived amines known to be active for Alzheimer’s disease.

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An article alpha-Alkylation of arylacetonitriles with primary alcohols catalyzed by backbone modified N-heterocyclic carbene iridium(I) complexes WOS:000616337100028 published article about ONE-POT SYNTHESIS; BORROWING HYDROGEN; SECONDARY ALCOHOLS; NITRILES; MONOALKYLATION; RHODIUM; BENZYL; LIGAND; HYDROTALCITE; ACETONITRILE in [Arslan, Burcu; Gulcemal, Suleyman] Ege Univ, Dept Chem, TR-35100 Izmir, Turkey in 2021, Cited 65. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5. Quality Control of (4-Methoxyphenyl)methanol

A series of backbone-modified N-heterocyclic carbene (NHC) complexes of iridium(I) (1d-f) have been synthesized and characterized. The electronic properties of the NHC ligands have been assessed by comparison of the IR carbonyl stretching frequencies of the in situ prepared [IrCl(CO)(2)(NHC)] complexes in CH2Cl2. These new complexes (1d-f), together with previously prepared 1a-c, were applied as catalysts for the alpha-alkylation of arylacetonitriles with an equimolar amount of primary alcohols or 2-aminobenzyl alcohol. The catalytic activities of these complexes could be controlled by modifying the N-substituents and backbone of the NHC ligands. The NHC-Ir-I complex 1f bearing 4-methoxybenzyl substituents on the N-atoms and 4-methoxyphenyl groups at the 4,5-positions of imidazole exhibited the highest catalytic activity in the alpha-alkylation of arylacetonitriles with primary alcohols. Various alpha-alkylated nitriles and aminoquinolines were obtained in high yields through a borrowing hydrogen pathway by using 0.1 mol% 1f and a catalytic amount of KOH (5 mol%) under an air atmosphere within significantly short reaction times.

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An article How high-resolution mass spectrometry can help for the accurate quantification of difficult fragrance allergens WOS:000592008400001 published article about 2-DIMENSIONAL GAS-CHROMATOGRAPHY; SOLID-PHASE DISPERSION; GC-MS QUANTIFICATION; SUSPECTED ALLERGENS; QUANTITATIVE-ANALYSIS; VOLATILE COMPOUNDS; DYNAMIC HEADSPACE; SCENTED TOYS; VALIDATION; PRODUCTS in [Remy, Pierre-Alain; Peres, Christophe; Corbi, Elise; David, Nathalie] Chanel, Lab Rech & Anal, 135 Ave Charles de Gaulle, F-92200 Neuilly Sur Seine, France; [Remy, Pierre-Alain; Dugay, Jose; Vial, Jerome] PSL Res Univ, ESPCI Paris, LSABM, CBI,CNRS,UMR 8231, Paris, France in 2021, Cited 53. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5. Application In Synthesis of (4-Methoxyphenyl)methanol

Two high-resolution mass spectrometers (HRMS) with different analyzer technology, Orbitrap and hybrid quadrupole time-of-flight (QTOF), were compared with a low-resolution mass spectrometer, quadrupole, to analyse a set of 35 difficult allergens. These difficult allergens are commonly coeluted fragrance allergens with matrix compounds, using standard gas chromatography-mass spectrometer conditions, from the extended list of the Scientific Committee on Consumer Safety (SCCS). Although the fundamental role of chromatographic separation has been demonstrated many times, the aim of this work is to demonstrate the benefits of high-resolution. The added value of high-resolution was illustrated in both a qualitative and a quantitative way. For qualitative aspect, the high resolution extracted ion signals of these two detectors were compared with the low-resolution extracted ion signals. About 50% of the coeluted cases observed with the low-resolution detector are easily resolved by the two high-resolution detectors. For the quantitative aspect, an accuracy profile methodology and a performance metric were used to propose an overall evaluation. The Orbitrap mass spectrometer demonstrated a better overall performance, while the QTOF presented similar or even lower quantification performances than the quadrupole on the set of analysed fragrances.

Welcome to talk about 105-13-5, If you have any questions, you can contact Remy, PA; Peres, C; Dugay, J; Corbi, E; David, N; Vial, JM or send Email.. Application In Synthesis of (4-Methoxyphenyl)methanol

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Kalita, T; Dev, D; Mondal, S; Giri, RS; Mandal, B in [Kalita, Tapasi; Dev, Dharm; Mondal, Sandip; Giri, Rajat Subhra; Mandal, Bhubaneswar] Indian Inst Technol Guwahati, Dept Chem, Gauhati 781039, Assam, India published Ethyl-2-Cyano-2-(2-Nitrophenylsulfonyloximino)Acetate (ortho-NosylOXY) Mediated One-Pot Racemization Free Synthesis of Ureas, Carbamates, and Thiocarbamates via Curtius Rearrangement in 2021, Cited 39. Quality Control of (4-Methoxyphenyl)methanol. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

Direct conversion of carboxylic acids to ureas, carbamates, and thiocarbamates in a single pot via Curtius rearrangement is accomplished. One recently established coupling reagent, Ethyl-2-cyano-2-(2-nitrophenylsulfonyloximino)acetate (ortho-NosylOXY, I), is successfully used for the racemization free synthesis of ureas, di-peptidyl ureas, and carbamates with moderate to good yield (82-69%). This single-pot hassle-free procedure works with a diverse range of N-protecting groups Fmoc, Boc, and Cbz. Various amine, including aromatic, methyl esters of amino acids, t-butylamine, alcohols, and thiols, are used as nucleophiles. A detailed NMR-based mechanism study is incorporated here. Racemization suppression, easy removal of by-products, and less waste generation make this methodology useful.

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An article Electrochemical Arylation of Aldehydes, Ketones, and Alcohols: from Cathodic Reduction to Convergent Paired Electrolysis WOS:000621048400001 published article about C-H FUNCTIONALIZATION; PHOTOREDOX CATALYSIS; CARBONYL-COMPOUNDS; COUPLING REACTIONS; NICKEL CATALYSIS; GRIGNARD; HYDROGEN; HALIDES; IMINES; REAGENTS in [Zhang, Sheng; Li, Lijun; Li, Jingjing; Shi, Jianxue; Xu, Kun; Gao, Wenchao; Zong, Luyi] Nanyang Normal Univ, Coll Chem & Pharmaceut Engn, Engn Technol Res Ctr Henan Prov Photo & Electroch, Nanyang, Peoples R China; [Li, Guigen; Findlater, Michael] Texas Tech Univ, Dept Chem & Biochem, Lubbock, TX 79423 USA in 2021, Cited 67. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5. Name: (4-Methoxyphenyl)methanol

Arylation of carbonyls, one of the most common approaches toward alcohols, has received tremendous attention, as alcohols are important feedstocks and building blocks in organic synthesis. Despite great progress, there is still a great gap to develop an ideal arylation method featuring mild conditions, good functional group tolerance, and readily available starting materials. We now show that electrochemical arylation can fill the gap. By taking advantage of synthetic electrochemistry, commercially available aldehydes (ketones) and benzylic alcohols can be readily arylated to provide a general and scalable access to structurally diverse alcohols (97 examples, >10 gram-scale). More importantly, convergent paired electrolysis, the ideal but challenging electrochemical technology, was employed to transform low-value alcohols into more useful alcohols. Detailed mechanism study suggests that two plausible pathways are involved in the redox neutral alpha-arylation of benzylic alcohols.

Name: (4-Methoxyphenyl)methanol. Welcome to talk about 105-13-5, If you have any questions, you can contact Zhang, S; Li, LJ; Li, JJ; Shi, JX; Xu, K; Gao, WC; Zong, LY; Li, GG; Findlater, M or send Email.

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I found the field of Chemistry very interesting. Saw the article Deconjugative alpha-Alkylation of Cyclohexenecarboxaldehydes: An Access to Diverse Terpenoids published in 2021. Application In Synthesis of (4-Methoxyphenyl)methanol, Reprint Addresses Chahboun, R (corresponding author), Univ Granada, Fac Ciencias, Inst Biotecnol, Dept Quim Organ, Granada 18071, Spain.. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol

A general and efficient method for the deconjugative alpha-alkylation of alpha,beta-unsaturated aldehydes promoted by a synergistic effect between (BuOK)-Bu-t and NaH, which considerably increases the reaction rate under mild conditions, is reported. The beta,gamma-unsaturated aldehyde, resulting from the alpha-alkylation, is transformed in high yield into the corresponding allyl acetate via a lead(IV) acetate-mediated oxidative fragmentation. This strategy could be used for the construction of the carbon skeleton of a wide variety of alkyl or arylterpenoids.

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Correia, LMM; Soliman, MMA; Granadeiro, CM; Balula, SS; Martins, LMDRS; Pombeiro, AJL; Alegria, ECBA in [Correia, Luis M. M.; Soliman, Mohamed M. A.; Alegria, Elisabete C. B. A.] Inst Politecn Lisboa, Inst Super Engn Lisboa, Dept Engn Quim, R Conselheiro Emidio Navarro 1, P-1959007 Lisbon, Portugal; [Correia, Luis M. M.; Soliman, Mohamed M. A.; Martins, Luisa M. D. R. S.; Pombeiro, Armando J. L.; Alegria, Elisabete C. B. A.] Univ Lisbon, Inst Super Tecn, Ctr Quim Estrutural, Av Rovisco Pais, P-1049001 Lisbon, Portugal; [Correia, Luis M. M.; Soliman, Mohamed M. A.; Martins, Luisa M. D. R. S.; Pombeiro, Armando J. L.; Alegria, Elisabete C. B. A.] Univ Lisbon, Inst Super Tecn, Dept Engn Quim, Av Rovisco Pais, P-1049001 Lisbon, Portugal; [Granadeiro, Carlos M.; Balula, Salete S.] Univ Porto, Dept Quim & Bioquim, LAQV REQUIMTE, Fac Ciencias, Rua Campo Alegre S-N, P-4169007 Porto, Portugal published Vanadium C-scorpionate supported on mesoporous aptes-functionalized SBA-15 as catalyst for the peroxidative oxidation of benzyl alcohol in 2021, Cited 62. Computed Properties of C8H10O2. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

The neutral trichloro[hydrotris(1-pyrazolyl)methane]vanadium(III) [VCl3(Tpm)] (Tpm = HC(pz)(3); pz = pyrazolyl) C-scorpionate complex was immobilized on amine-functionalized mesoporous silica (aptesSBA-15) via an impregnation method forming the [VCl3(Tpm)]@aptesSBA-15 composite. The immobilization of the vanadium compound was confirmed by several characterization techniques, namely SEM/EDS, powder XRD, FT-IR/ATR, ICP and BET surface area analysis, revealing the successful incorporation of the complex, and confirming the structural and morphological preservation of the porous support and the vanadium complex. The vanadium composite was tested as heterogeneous catalyst for the peroxidative oxidation of benzyl alcohol under mild conditions and its catalytic performance was compared to that of the analogous homogeneous [VCl3(Tpm)] complex. The catalytic studies were extended to other substrates. The effect of various parameters, such as amount and type of oxidant, catalyst and additives, temperature and reaction time were investigated allowing to reach overall yields of ca. 60% and turnover numbers (TONs) up to ca. 7.6 x 10(3). The results obtained demonstrated the higher performance of the heterogeneous catalyst using much less [VCl3(Tpm)] complex under a solvent-free system. Furthermore, consecutive reaction cycles could be performed, showing its recycling capacity. Structural stability was also investigated, indicating the viability of the vanadium C-scorpionate composite as catalyst for other oxidative reactions with high industrial interest.

Welcome to talk about 105-13-5, If you have any questions, you can contact Correia, LMM; Soliman, MMA; Granadeiro, CM; Balula, SS; Martins, LMDRS; Pombeiro, AJL; Alegria, ECBA or send Email.. Computed Properties of C8H10O2

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Authors Lagerspets, E; Valbonetti, E; Eronen, A; Repo, T in ELSEVIER published article about EFFICIENT; COPPER; REDUCTION; OXYGEN; LIGAND; IRON in [Lagerspets, Emi; Valbonetti, Evelyn; Eronen, Aleksi; Repo, Timo] Univ Helsinki, Dept Chem, AI Virtasen Aukio 1, Helsinki 00014, Finland in 2021, Cited 30. Name: (4-Methoxyphenyl)methanol. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

We report here novel Cu(I) thiophene carbaldimine catalysts for the selective aerobic oxidation of primary alcohols to their corresponding aldehydes and various diols to lactones or lactols. In the presence of the in situ generated Cu(I) species, a persistent radical (2,2,6,6-tetramethylpiperdine-N-oxyl (TEMPO)) and N-methylimidazole (NMI) as an auxiliary ligand, the reaction proceeds under aerobic conditions and at ambient temperature. Especially the catalytic system of 1-(thiophen-2-yl)-N-(4-(trifluoromethoxy)phenyl)methanimine (ligand L2) with copper(I)-iodide showed high reactivity for all kind of alcohols (benzylic, allylic and aliphatic). In the case of benzyl alcohol even 2.5 mol% of copper loading gave quantitative yield. Beside high activity under aerobic conditions, the catalysts ability to oxidize 1,5-pentadiol to the corresponding lactol (86% in 4 h) and Nphenyldiethanolamine to the corresponding morpholine derivate lactol (86% in 24 h) is particularly noteworthy.

Name: (4-Methoxyphenyl)methanol. Welcome to talk about 105-13-5, If you have any questions, you can contact Lagerspets, E; Valbonetti, E; Eronen, A; Repo, T or send Email.

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Recently I am researching about GROWTH-FACTOR-I; GLYCEMIC LOAD; SCREENING TRIAL; MEAT MUTAGENS; HEME IRON; PROSTATE; INDEX; INSULIN; VALUES; FIBER, Saw an article supported by the National Institutes of Health (NIH), Genes, Environment and Health Initiative (GEI)United States Department of Health & Human ServicesNational Institutes of Health (NIH) – USANIH National Institute of Neurological Disorders & Stroke (NINDS) [Z01 CP 010200, NIH U01 HG004446, NIH GEI U01 HG 004438]; University Postgraduate Fellowship by the HKU Foundation. Application In Synthesis of (4-Methoxyphenyl)methanol. Published in ELSEVIER IRELAND LTD in CLARE ,Authors: Tao, J; Jatoi, A; Crawford, J; Lam, WWT; Ho, JC; Wang, XF; Pang, H. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol

Objectives: Inconsistent findings have been reported on the link between dietary carbohydrates and lung cancer. This study aims to comprehensively evaluate the role of dietary carbohydrates on lung cancer risk. Materials and methods: The prospective study is based on the PLCO trial, which recruited 113,096 eligible participants across the United States. Participants had to have completed baseline and diet history questionnaires. The incidence of lung cancer was acquired through self-report and medical record follow-up. A multivariable logistic model adjusted for confounders was used to estimate odds ratios (ORs) and 95 % confidence intervals (CIs) of dietary carbohydrates, fiber, whole grains, glycemic index (GI) and glycemic load (GL) for lung cancer. Similar methods were applied in analyzing the carbohydrates and fiber from different food sources. Multinomial logistic models were used for sensitivity analysis with lung cancer subtypes as outcomes. Results: Dietary carbohydrates and GL were inversely associated with lung cancer incidence in the PLCO population. Among various carbohydrates, 30-g daily consumption of dietary fiber was related to a lower risk of lung cancer (fourth vs first quartile OR: 0.62, 95 % CI: 0.54-0.72) compared with 8.8-g. Furthermore, consuming whole grains 2.3 servings per day as opposed to 0.3 servings per day was associated with a lower risk of lung cancer (OR: 0.73, 95 % CI: 0.64-0.83). A higher risk of lung cancer was seen for the consumption of high-GI food (OR: 1.19, 95 % CI: 1.05?1.35) and refined carbohydrates from soft drinks (OR: 1.23, 95 % CI: 1.04?1.46). Conclusion: Carbohydrates and fiber from fruits, vegetables and whole grains are associated with lower lung cancer risk. Refined carbohydrates from processed food, such as soft drinks, appear to increase risk.

Application In Synthesis of (4-Methoxyphenyl)methanol. Bye, fridends, I hope you can learn more about C8H10O2, If you have any questions, you can browse other blog as well. See you lster.

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Authors Senthilkumar, S; Zhong, W; Natarajan, M; Lu, CX; Xu, BY; Liu, XM in ROYAL SOC CHEMISTRY published article about SELECTIVE OXIDATION; HIGHLY EFFICIENT; COPPER NANOPARTICLES; GALACTOSE-OXIDASE; GRAPHENE OXIDE; COMPLEXES; LIGAND; CONVERSION; CHEMISTRY; SYSTEM in [Senthilkumar, Samuthirarajan; Zhong, Wei; Natarajan, Mookan; Lu, Chunxin; Liu, Xiaoming] Jiaxing Univ, Coll Biol Chem Sci & Engn, Jiaxing, Zhejiang, Peoples R China; [Xu, Binyu] Nanchang Univ, Sch Chem, Nanchang, Jiangxi, Peoples R China in 2021, Cited 51. Computed Properties of C8H10O2. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

An efficient and green protocol for aerobic oxidation of benzylic alcohols in ethanol using Cu-I-Y zeolite catalysts assisted by TEMPO (TEMPO = 2,2,6,6-tetramethyl-1-piperidine-N-oxyl) as the radical co-catalyst in the presence of atmospheric air under mild conditions is reported. The Cu-I-Y zeolite prepared via ion exchange between CuCl and HY zeolite was fully characterized by a variety of spectroscopic techniques including XRD, XPS, SEM, EDX and HRTEM. The incorporation of Cu(i) into the 3D-framework of the zeolite rendered the catalyst with good durability. The results of repetitive runs revealed that in the first three runs, there was hardly a decline in activity and a more substantial decrease in yield was observed afterwards, while the selectivity remained almost unchanged. The loss in activity was attributed to both the formation of CuO and the bleaching of copper into the liquid phase during the catalysis, of which the formation of CuO was believed to be the major contributor since the bleaching loss for each run was negligible (<2%). In this catalytic system, except TEMPO, no other additives were needed, either a base or a ligand, which was essential in some reported catalytic systems for the oxidation of alcohols. The aerobic oxidation proceeded under mild conditions (60 degrees C, and 18 hours) to quantitatively and selectively convert a wide range of benzylic alcohols to corresponding aldehydes, which shows great potential in developing green and environmentally benign catalysts for aerobic oxidation of alcohols. The system demonstrated excellent tolerance against electron-withdrawing groups on the phenyl ring of the alcohols and showed sensitivity to steric hindrance of the substrates, which is due to the confinement of the pores of the zeolite in which the oxidation occurred. Based on the mechanism reported in the literature for homogenous oxidation, a mechanism was analogously proposed for the aerobic oxidation of benzylic alcohols catalysed by this Cu(i)-containing zeolite catalyst. Welcome to talk about 105-13-5, If you have any questions, you can contact Senthilkumar, S; Zhong, W; Natarajan, M; Lu, CX; Xu, BY; Liu, XM or send Email.. Computed Properties of C8H10O2

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