Month: January 2022

Name: (4-Methoxyphenyl)methanol. Authors Yao, HY; Wang, YS; Razi, MK in ROYAL SOC CHEMISTRY published article about in [Yao, Hongyan] Hebi Polytech, Deans Off, Hebi 458030, Peoples R China; [Wang, Yongsheng] Henan Polytech Univ, Sch Phys Sci Educ, Jiaozuo 454003, Henan, Peoples R China; [Razi, Maryam Kargar] Islamic Azad Univ, North Branch Tehran, Fac Chem, Tehran, Iran in 2021, Cited 82. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

In this study, a magnetic asymmetric Salamo-based Zn complex (H2L = salen type di-Schiff bases)-supported on the surface of modified Fe3O4 (Fe3O4@H2L-Zn) as a new catalyst was designed and characterized via numerous analytical techniques such as FT-IR spectroscopy, XRD, EDS, ICP-AES, SEM, TEM, TGA and VSM. An efficient and sustainable synthetic protocol has been presented for the synthesis of silyl ether substructures via the silyl protection of alcohols under mild conditions. The synthetic protocol involves a two-component solvent-free reaction between various hydroxyl-bearing substrates and hexamethyldisilazane (HMDS) as an inexpensive silylating agent using Fe3O4@H2L-Zn MNPs as a magnetically separable, recyclable and reusable heterogeneous catalyst. Fe3O4@H2L-Zn MNPs were also applied for the removal of silyl protecting groups from hydroxyl functions using water in CH2Cl2 under green conditions. The catalyst demonstrated good to excellent catalytic yield efficiency for both the reactions compared to the commercial metal-based catalysts under green conditions for a wide range of substrates.

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COA of Formula: C8H10O2. Authors Sung, K; Lee, MH; Cheong, YJ; Kim, YK; Yu, S; Jang, HY in WILEY-V C H VERLAG GMBH published article about in [Sung, Kihyuk; Lee, Mi-hyun; Cheong, Yeon-Joo; Kim, Yu Kwon; Yu, Sungju; Jang, Hye-Young] Ajou Univ, Dept Energy Syst Res, Suwon 16499, South Korea in 2021, Cited 56. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

Multi N-heterocyclic carbene(NHC)-modified iridium catalysts were employed in the beta-alkylation of alcohols; dimerization of primary alcohols (Guerbet reaction), cross-coupling of secondary and primary alcohols, and intramolecular cyclization of alcohols. Mechanistic studies of Guerbet reaction, including kinetic experiments, mass analysis, and density functional theory (DFT) calculation, were employed to explain the fast reaction promoted by bimetallic catalysts, and the dramatic reactivity increase of monometallic catalysts at the late stage of the reaction.

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Recently I am researching about FACILE SYNTHESIS; REACTANTS ACTIVATION; NO ADSORPTION; DOPED G-C3N4; EFFICIENT; NANOSHEETS; ZIRCONIA; REACTIVITY; VACANCIES; MECHANISM, Saw an article supported by the National Natural Science Foundation of ChinaNational Natural Science Foundation of China (NSFC) [21501016, 21822601, 21777011]; Innovative Research Team of Chongqing [CXTDG201602014, CXQT19023]; Natural Science Foundation of ChongqingNatural Science Foundation of Chongqing [cstc2017jcyjBX0052]; Plan for National Youth Talents of the Organization Department of the Central Committee. Published in ROYAL SOC CHEMISTRY in CAMBRIDGE ,Authors: Wang, JD; Cui, W; Chen, RM; He, Y; Yuan, CW; Sheng, JP; Li, JY; Zhan, YX; Dong, F; Sun, YJ. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol. Name: (4-Methoxyphenyl)methanol

Graphitic carbon nitride (g-C3N4, CN for short) is a compelling visible-light responsive photocatalyst. However, its photocatalytic efficiency is low due to the random carrier transfer in planes and insufficient redox potential. Herein, we build oxygen functional group modified sodium-doped carbon nitride (OH/Na co-functionalized carbon nitride) to promote directional transfer of charge carriers for acceleration of separation and enhance redox potential for efficient oxidation of NO in air. Specifically, the function of sodium atoms could control the directional transfer of random carriers from the intralayer to the oxygen functional group-modified surface for the purpose of effectively reducing photogenerated electron-hole recombination. Meanwhile, the modification by oxygen-containing functional groups could adjust the band structure of CN, thereby increasing the oxidation-reduction potential of NO in the photocatalyst. The transformation pathways and reaction mechanism of photocatalytic NO oxidation on CN and OH/Na co-functionalized carbon nitride have also been explicated by ESR spectroscopy and in situ DRIFTS and compared. This work provides a new method for simultaneously controlling the random transfer of carriers and adjusting the energy band structure of CN to optimize its photocatalytic efficiency. It is also possible to extend this strategy to improve the performance of other 2D layered catalysts for photocatalytic oxidation.

Name: (4-Methoxyphenyl)methanol. Welcome to talk about 105-13-5, If you have any questions, you can contact Wang, JD; Cui, W; Chen, RM; He, Y; Yuan, CW; Sheng, JP; Li, JY; Zhan, YX; Dong, F; Sun, YJ or send Email.

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I found the field of Chemistry very interesting. Saw the article Nickel-Copper bimetallic mesoporous nanoparticles: As an efficient heterogeneous catalyst for N-alkylation of amines with alcohols published in 2021. Product Details of 105-13-5, Reprint Addresses Kassaee, MZ (corresponding author), Tarbiat Modares Univ, Dept Chem, POB 14155-175, Tehran, Iran.. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol

A bimetallic catalyst (Ni/Cu-MCM-41) is prepared via co-condensation method. The latter is characterized by Fourier transform infrared (FT-IR), X-ray powder diffraction (XRD), scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), diffuse reflectance spectroscopy (DRS), and nitrogen adsorption-desorption analysis. Catalytic performance of Ni/Cu-MCM-41 is probed in N-alkylation of amines with alcohols through a hydrogen autotransfer process. Noteworthy, this catalytic system appears very efficient for synthesis of a range of secondary and tertiary amines in good to excellent isolated yields. Moreover, the catalyst is successfully recovered and reused four times without notable decrease in its activity.

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Application In Synthesis of (4-Methoxyphenyl)methanol. In 2021 J CHEM TECHNOL BIOT published article about AROMATIC ALCOHOLS; MULTICOMPONENT SYNTHESIS; TIO2 NANOPARTICLES; AEROBIC OXIDATION; TITANIUM-DIOXIDE; IONIC LIQUIDS; METAL-OXIDES; EFFICIENT; ALDEHYDES; DEGRADATION in [Taghavi, Shaghayegh; Amoozadeh, Ali; Nemati, Firouzeh] Semnan Univ, Fac Chem, Dept Organ Chem, Semnan 3513119111, Iran in 2021, Cited 76. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

BACKGROUND Deep eutectic solvents (DESs) are prepared by mixing solid organic precursors to form a liquid driven from strong hydrogen-bond interactions. The physical and chemical properties of these compounds have been widely investigated, and it has been shown that they are benign media for biotransformations, organicsynthesis, biodieselpreparation, and a sustainable media for nanoscale and functional materials. RESULTS This study is the first report on the synthesis of n-TiO2-P25@TDI@DES (urea: ZnCl2) with photo catalytic activity. This nano photocatalyst was obtained through covalent grafting of TiO2-P25 nanoparticles to an inexpensive and highly reactive linker (2,4-toluene diisocyanate). The presented nano photocatalyst has been employed as a covalently grafted Lewis acidic deep eutectic solvent to oxidize various primary benzyl alcohols to their corresponding carbonyl compounds by sodium nitrate as oxidant, under visible light exposure. CONCLUSION This highly efficient nanocatalyst was investigated by various characterization techniques including fourier transform infrared spectroscopy (FT-IR), X-ray diffraction (XRD), thermogravimetric analysis (TGA), scanning electron microscopy equipped with energy-dispersive X-ray spectroscopy (SEM with EDX), and elemental analysis. Owing to its enhanced catalytic activity, thermal stability, and environmentally friendly nature, the present method can be regarded as an attractive green chemistry approach. (c) 2020 Society of Chemical Industry (SCI)

Welcome to talk about 105-13-5, If you have any questions, you can contact Taghavi, S; Amoozadeh, A; Nemati, F or send Email.. Application In Synthesis of (4-Methoxyphenyl)methanol

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Recommanded Product: (4-Methoxyphenyl)methanol. Authors Sun, ZL; Yang, XL; Yu, XF; Xia, LH; Peng, YH; Li, Z; Zhang, Y; Cheng, JB; Zhang, KS; Yu, JQ in ELSEVIER published article about in [Sun, Zhaoli; Yang, Xiaolong; Xia, Linhong; Peng, Yanhua; Li, Zhuo; Zhang, Yan; Yu, Jianqiang] Qingdao Univ, Coll Chem & Chem Engn, 308 Ning Xia Rd, Qingdao 266071, Peoples R China; [Yu, Xue-Fang; Cheng, Jianbo] Yantai Univ, Sch Chem & Chem Engn, Lab Theoret & Computat Chem, 32 Qingquan Rd, Yantai 264005, Peoples R China; [Zhang, Kaisheng] Chinese Acad Sci, HFIPS, Inst Solid State Phys, Environm Mat & Pollut Control Lab, Hefei 230031, Peoples R China in 2021, Cited 55. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

The recombination of photogenerated carriers seriously restricts their utilization efficiency in photocatalysis. Herein, surface oxygen vacancies (SOVs) were constructed in Pd-Bi2MoO6 interface to bridge ultra-low loading Pd cluster and Bi2MoO6 semiconductor (Pd/BMO-SOVs). It was found SOVs in Pd/Bi2MoO6-x serve as Electron Bridge to bridge ultra-low loading Pd cluster and Bi2MoO6-x, thus tremendously enhance utilization efficiency of photoexcited carriers and ultra-low loading Pd active sites for blue LED driven selective oxidation reaction. The Pd(0.05)/Bi2MoO6-SOVs exhibited 57.8 % conversion for selection oxidation of benzyl which are 6.5, 3.3 and 2.1 times higher than pristine Bi2MoO6, Bi2MoO6-x and Pd(0.05)/Bi2MoO6. Combined with theoretical calculations, SOVs was proposed as Electron Bridge to transfer photogenerated electrons from Bi2MoO6-x to ultra-low loading Pd clusters, thus greatly boosting separation and utilization efficiency of photogenerated electron-hole pairs.

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COA of Formula: C8H10O2. In 2021 ASIAN J ORG CHEM published article about SOLID-PHASE SYNTHESES; ETHYL 2-CYANO-2-(2-NITROBENZENESULFONYLOXYIMINO)ACETATE; UNSYMMETRICAL UREAS; INHIBITORS; PEPTIDE; REAGENT; DESIGN; KINASE; ACIDS in [Kalita, Tapasi; Dev, Dharm; Mondal, Sandip; Giri, Rajat Subhra; Mandal, Bhubaneswar] Indian Inst Technol Guwahati, Dept Chem, Gauhati 781039, Assam, India in 2021, Cited 39. 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.

COA of Formula: C8H10O2. Welcome to talk about 105-13-5, If you have any questions, you can contact Kalita, T; Dev, D; Mondal, S; Giri, RS; Mandal, B or send Email.

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SDS of cas: 105-13-5. Authors Cavallo, M; Arnodo, D; Mannu, A; Blangetti, M; Prandi, C; Baratta, W; Baldino, S in PERGAMON-ELSEVIER SCIENCE LTD published article about in [Cavallo, Marzia; Arnodo, Davide; Mannu, Alberto; Blangetti, Marco; Prandi, Cristina; Baldino, Salvatore] Dipartimento Chim, Via P Giuria 7, I-10125 Turin, Italy; [Baratta, Walter] Univ Udine, Dipartimento DI4A, Via Cotonificio 108, I-33100 Udine, Italy in 2021, Cited 52. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

The employment of easily affordable ruthenium(II)-complexes as pre-catalysts in the transfer hydrogenation of carbonyl compounds in deep eutectic media is described for the first time. The eutectic mixture tetrabutylammonium bromide/formic acid = 1/1 (TBABr/HCOOH = 1/1) acts both as reaction medium and hydrogen source. The addition of a base is required for the process to occur. An extensive optimization of the reaction conditions has been carried out, in terms of catalyst loading, type of complexes, H-2-donors, reaction temperature and time. The combination of the dimeric complex [RuCl(p-cymene)-mu-Cl](2) (0.01-0.05 eq.) and the ligand dppf (1,10-ferrocenediyl-bis(diphenylphosphine)ferrocene) in 1/1 molar ratio has proven to be a suitable catalytic system for the reduction of several and diverse aldehydes and ketones to their corresponding alcohols under mild conditions (40-60 degrees C) in air, showing from moderate to excellent tolerability towards different functional groups (halogen, cyano, nitro, phenol). The reduction of imine compounds to their corresponding amine derivatives was also studied. In addition, the comparison between the results obtained in TBABr/HCOOH and in organic solvents suggests a non-innocent effect of the DES medium during the process. (C) 2021 Elsevier Ltd. All rights reserved.

SDS of cas: 105-13-5. About (4-Methoxyphenyl)methanol, If you have any questions, you can contact Cavallo, M; Arnodo, D; Mannu, A; Blangetti, M; Prandi, C; Baratta, W; Baldino, S or concate me.

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Formula: C8H10O2. Authors Luo, NH; Zhong, YH; Wen, HL; Shui, HL; Luo, RS in WILEY-V C H VERLAG GMBH published article about in [Luo, Nianhua; Zhong, Yuhong; Wen, Huiling; Shui, Hongling; Luo, Renshi] Gannan Med Univ, Sch Pharmaceut Sci, Ganzhou 341000, Jiangxi, Peoples R China in 2021, Cited 94. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

Ketones are of great importance in synthesis, biology, and pharmaceuticals. This paper reports an iridium complexes-catalyzed cross-coupling of alcohols via hydrogen borrowing, affording a series of alpha-alkylated ketones in high yield (86 %-95 %) and chemoselectivities (>99 : 1). This methodology has the advantages of low catalyst loading (0.1 mol%) and environmentally benign water as the solvent. Studies have shown the amount of base has a great impact on chemoselectivities. Meanwhile, deuteration experiments show water plays an important role in accelerating the reduction of the unsaturated ketones intermediates. Remarkably, a gram-scale experiment demonstrates this methodology of iridium-catalyzed cross-coupling of alcohols has potential application in the practical synthesis of alpha-alkylated ketones.

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Computed Properties of C8H10O2. In 2021 APPL ORGANOMET CHEM published article about ONE-POT SYNTHESIS; HETEROCYCLIZATION SYNTHESIS; NITROGEN-HETEROCYCLES; 3-COMPONENT SYNTHESIS; PURINE DERIVATIVES; AEROBIC OXIDATION; EFFICIENT; ALCOHOLS; ALDEHYDES; 1,3,5-TRIAZINES in [Debnath, Pradip] Maharaja Bir Bikram Coll, Dept Chem, Agartala 799004, Tripura, India; [Sahu, Gouranga] Ramkrishna Mahavidyalaya, Dept Chem, Unakoti, India; [De, Utpal C.] Tripura Univ, Dept Chem, Agartala, India in 2021, Cited 96. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

A dehydrogenative coupling of N-uracil amidines with (hetero)aryl methanols has been developed, allowing for the facile synthesis of a broad range of structurally diverse pyrimidouracils. By applying [RuCl2(p-cymene)](2)/Cs2CO3 as an efficient catalytic system, the easily available, cheap (hetero)aryl methanols were firstly employed for oxidative insertion/C-H amination into the N-uracil amidines, providing highly functionalized pyrimido[4,5-d]pyrimidine-2,4-diones. Due to the better stability of alcohols than aldehydes, this synthetic protocol is applicable to a broad range of alcoholic substrates and does not required any protection during the whole preparation process. The presented protocol has the potential to prepare valuable products which cannot be accessed presently or extremely arduous to procure by following regular procedure. Hence, this is a remarkably improved protocol compared with the existing methodologies. The overall reaction sequence is an effective oxidation-imination-cyclization tandem process catalyzed by ruthenium catalyst.

Computed Properties of C8H10O2. Welcome to talk about 105-13-5, If you have any questions, you can contact Debnath, P; Sahu, G; De, UC or send Email.

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