Month: February 2022

Quality Control of (4-Methoxyphenyl)methanol. In 2021 INORG CHIM ACTA published article about CRYSTAL-STRUCTURES; DIOXIDOVANADIUM(V) COMPLEXES; ALKALI-METAL; OXIDOVANADIUM(IV) COMPLEXES; STRUCTURAL-CHARACTERIZATION; TARGETED SYNTHESIS; HYDROGEN-PEROXIDE; RECENT PROGRESS; OXIDATION; CHEMISTRY in [Kumar, Arvind; Dhanpat, Shobha A.] Univ West Indies, Fac Sci & Technol, Dept Chem, St Augustine Campus, St Augustine, Trinidad Tobago; [Kurbah, Sunshine D.; Syiemlieh, Ibanphylla; Lal, Ram A.] North Eastern Hill Univ, Dept Chem, Ctr Adv Study, Shillong 793022, Meghalaya, India; [Borthakur, Rosmita] Tata Inst Fundamental Res, Ctr Interdisciplinary Sci, Hyderabad 500107, India in 2021, Cited 100. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

Six heterobimetallic alkali metal dioxidovanadium(V) coordination polymer complexes {[M-6{VO(mu-O)}(2)(mu-OH)(4)(mu(4)-slox/nph)].n DMF}(infinity) where M = Na, K, and Cs; n = 1 for (1), 0 for (2)-(6) of two dihydrazone ligands, disalicylaldehydeoxaloyldihydrazone (H4slox) and bis(2-hydroxy-1-naphthaldehyde)oxaloyldihydrazone (H4nph) are reported. All the complexes have been characterized by various physicochemical techniques such as elemental analyses, molar conductance, IR, NMR, UV-vis, and cyclic voltammetry. The IR, (HNMR)-H-1, and (CNMR)-C-13 spectral data suggest that the dihydrazones are coordinated through phenolate/naphtholate oxygen, enolate oxygen, and azine nitrogen atoms to the metal centres. The structure of complex {[Na-6{VO(mu-O)}(2)(mu-OH)(4)(mu(4)-slox)].DMF}(infinity) (1) is also determined by single crystal X-ray data, which revealed that the H(4)slox coordinated via all possible dative sites to metal centres as tetrabasic octadentate ligand. The vanadium metal centres adopted distorted square-pyramidal coordination geometries, and the sodium atoms are also in five coordination atmospheres. The electronic spectra of the complexes showed LMCT bands in addition to intra-ligand pi -> pi* and n -> pi* transitions. As evident from the cyclic voltammetry, the complexes showed two metal centred electron transfer reactions {[((VVV)-V-V(slox)(2-)/(VVIV)-V-V(slox)(3-)] and [((VVIV)-V-V(slox)(3-)/(VVIV)-V-V(slox)(4-)]}, in addition to the ligand centred electron transfer reactions. Further, bovine serum albumin (BSA interaction studies of the complexes {[Na (6){VO(mu-O)} (2)(mu-OH) (4)(mu(4)-slox)].DMF} (infinity) (1) and [Na-6{VO(mu-O)}(2)(mu-OH)(4)(mu(4)nph)](infinity) (4) revealed strong binding affinity. Moreover, the catalytic studies of the complexes (1) and (4) were found to be effective for the oxidation of alcohols into their corresponding aldehydes and ketones and bromination of some organic substrates in the presence of H2O2 as an oxidizing agent.

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I found the field of Environmental Sciences & Ecology very interesting. Saw the article Properties and Assessment of Applications of Red Mud (Bauxite Residue): Current Status and Research Needs published in 2021. SDS of cas: 105-13-5, Reprint Addresses Rao, BH (corresponding author), ITT Bhubaneswar, Sch Infrastruct, Khorda 752050, Odisha, India.. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol

In order to conserve natural resources and prevent waste generation, effective utilization of industrial wastes and/or by-products for beneficial engineering applications becomes inevitable. In order to accomplish this, extensive research studies, exploring properties and new applications of waste materials in a sustainable and environmentally friendly manner, have been initiated worldwide. Red mud (RM, also known as bauxite residue) is one of the wastes generated by the aluminium industry and its disposal and utilization have been traditionally hindered due to the extreme alkalinity (pH about 10.5-13.5). To date, no comprehensive review on various properties of RM of different origin and associated challenges in using it as a beneficial engineering material has been performed. The objective of this study is first to critically appraise the current understanding of properties of RM through a comprehensive literature review and detailed laboratory investigations conducted on Indian RM by the authors, to assess and identify the potential engineering applications, and to finally discuss associated challenges in using it in practical applications. Physical, chemical, mineralogical and geotechnical properties of RMs of different origin and production processes are reviewed. Mechanisms behind the pozzolanic reaction of RM under different chemical and mineralogical compositional conditions are discussed. Environmental concerns associated with the use of RM are also raised. Studies relevant to leachability characteristics reveal that most of the measured chemical concentrations are within the permissible regulatory limits. Overall, the review shows that RM disposal and reuse is complicated by its extreme alkalinity, which is also noticed to be influencing multiple engineering properties. But with selected pH amendments, the treated RM is found to have significant potential to be used as an effective and sustainable geomaterial. The assessment is majorly based on the characteristics of Indian RMs; hence the adaptation of the findings to other RMs should be assessed on a case-by-case basis. Moreover, field studies demonstrating the performance of RM in various engineering applications are warranted. [GRAPHICS] .

SDS of cas: 105-13-5. 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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COA of Formula: C8H10O2. 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.. COA of Formula: C8H10O2

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Recommanded Product: (4-Methoxyphenyl)methanol. Toda, Y; Yoshida, T; Arisue, K; Fukushima, K; Esaki, H; Kikuchi, A; Suga, H in [Toda, Yasunori; Yoshida, Takayuki; Arisue, Kaoru; Kikuchi, Ayaka; Suga, Hiroyuki] Shinshu Univ, Fac Engn, Dept Mat Chem, 4-17-1 Wakasato, Nagano 3808553, Japan; [Fukushima, Kazuaki; Esaki, Hiroyoshi] Hyogo Coll Med, Dept Chem, 1-1 Mukogawa Cho, Nishinomiya, Hyogo 6638501, Japan published Enantioselective Protonation of Cyclic Carbonyl Ylides by Chiral Lewis Acid Assisted Alcohols in 2021, Cited 60. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

Chiral Lewis acid-catalyzed asymmetric alcohol addition reactions to cyclic carbonyl ylides generated from N-(alpha-diazocarbonyl)-2-oxazolidinones featuring a dual catalytic system are reported. Construction of a chiral quaternary heteroatom-substituted carbon center was accomplished in which the unique heterobicycles were obtained in good yields with high stereoselection. The alcohol adducts were successfully converted to optically active oxazolidine-2,4-diones by hydrolysis. Mechanistic studies by DFT calculations revealed that alcohols could be activated by Lewis acids, enabling enantioselective protonation of the carbonyl ylides.

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Product Details of 105-13-5. Behera, PK; Choudhury, P; Sahu, SK; Sahu, RR; Harvat, AN; McNulty, C; Stitgen, A; Scanlon, J; Kar, M; Rout, L in [Behera, Pradyota Kumar; Choudhury, Prabhupada; Sahu, Santosh Kumar; Sahu, Rashmi Ranjan; Rout, Laxmidhar] Berhampur Univ, Dept Chem, Berhampur 760007, Orissa, India; [Rout, Laxmidhar] IISER, Dept Chem, Berhampur 760010, Odisha, India; [Harvat, Alisha N.; McNulty, Caitlin; Stitgen, Abigail; Scanlon, Joseph] Ripon Coll, Ripon, WI 54971 USA; [Kar, Manoranjan] IIT Patna, Patna 801106, Bihar, India published Oxygen Bridged Bimetallic CuMoO4 Nanocatalyst for Benzylic Alcohol Oxidation; Mechanism and DFT Study in 2021, Cited 113. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

Though concept of oxygen bridged bimetallic catalyst for organic reaction is not well understood. Herein, we have tried to explain the concept by experimental as well as its support by full DFT study. We report here a competent protocol for dehydrogenative oxidation of benzylic alcohol using an oxygen bridged bimetallic CuMoO4 nano catalyst. Careful demonstration reveals that oxidation is not effective either with mono-metallic Cu (II) or Mo(VI); instead combination of both the metals through the oxygen bridge [Cu-O-Mo] unexpectedly and interestingly catalyzed the reaction efficiently. The new concept is strongly supported by computational DFT study. DFT study reveals dehydrogenative oxidation is preferred at copper centre over molybdenum and aromatic benzyl alcohols are greatly stabilised. Interaction barrier energy of monometallic CuO and MoO3 catalyst is much higher than bimetallic CuMoO4. Hydrogen transfer has larger barrier heights for CuO (31.5 kcal/mol) and MoO3 (40.3 kcal/mol) than bimetallic CuMoO4.

Product Details of 105-13-5. 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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Product Details of 105-13-5. Authors Bisht, NS; Mehta, SPS; Sahoo, NG; Dandapat, A in ROYAL SOC CHEMISTRY published article about in [Bisht, Narendra Singh; Mehta, S. P. S.; Sahoo, Nanda Gopal; Dandapat, Anirban] Kumaun Univ, Dept Chem, DSB Campus, Naini Tal, Uttarakhand, India in 2021, Cited 74. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

The room temperature synthesis of an all-solid-state Z-scheme CuO-doped BiOBr (CuO-Bi-BiOBr) photocatalyst has been described. These CuO-Bi-BiOBr ternary heterojunctions exhibit efficient photocatalytic activities for selective alcohol oxidation. The structures, morphologies, and compositions of the nanostructures were well characterized using field-emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM) and atomic absorption spectroscopy (AAS). The X-ray diffraction (XRD) pattern of the as-synthesized nanostructures confirms the formation of phase-segregated CuO and BiOBr nanocrystals, whereas X-ray photoelectron spectroscopy (XPS) and high-resolution transmission electron microscopy (HRTEM) analyses clearly indicate the formation of metallic bismuth nanoparticles (NPs). Next, the developed CuO-Bi-BiOBr ternary heterojunctions were applied as an efficient photocatalyst for the oxidation of alcohols into their corresponding aldehydes/ketones with high selectivity (>99%) and high conversion ratios (>99%). Herein, Bi metal NPs act as an electron mediator and bridge the connectivity between the two semiconductors, BiOBr and CuO, and, thus, a Z-scheme heterojunction is established. As expected, CuO-Bi-BiOBr has shown significantly superior activities compared to those of pure BiOBr. A possible mechanism for the photocatalytic oxidation process has been proposed. Radical scavenging experiments suggest that the active species, h(+), OH, e(-), and O-2(-), are dominant in the alcohol oxidation process. The as-synthesized CuO-Bi-BiOBr was reused several times without any significant deterioration in the original activities and it thus possesses relatively high stability for practical applications.

Product Details of 105-13-5. 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 Xiao, WL; Mo, YH; Guo, J; Su, ZS; Dong, SX; Feng, XM in ROYAL SOC CHEMISTRY published article about in [Xiao, Wanlong; Mo, Yuhao; Guo, Jing; Su, Zhishan; Dong, Shunxi; Feng, Xiaoming] Sichuan Univ, Coll Chem, Key Lab Green Chem & Technol, Minist Educ, Chengdu 610064, Peoples R China in 2021, Cited 64. Computed Properties of C8H10O2. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

New types of C-2-symmetric chiral macrodiolides are readily obtained via chiral N,N ‘-dioxide-scandium(iii) complex-promoted asymmetric tandem Friedel-Crafts alkylation/intermolecular macrolactonization of ortho-quinone methides with C3-substituted indoles. This protocol provides an array of enantioenriched macrodiolides with 16, 18 or 20-membered rings in moderate to good yields with high diastereoselectivities and excellent enantioselectivities through adjusting the length of the tether at the C3 position of indoles. Density functional theory calculations indicate that the formation of macrocycles is more favorable than that of 9-membered-ring lactones in terms of kinetics and thermodynamics. The potential utility of these intriguing chiral macrodiolide molecules is demonstrated in the enantiomeric recognition of aminols and chemical recognition of metal ions.

Computed Properties of C8H10O2. Welcome to talk about 105-13-5, If you have any questions, you can contact Xiao, WL; Mo, YH; Guo, J; Su, ZS; Dong, SX; Feng, XM or send Email.

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Category: alcohols-buliding-blocks. Shahnavaz, Z; Zaharani, L; Khaligh, NG; Mihankhah, T; Johan, MR in [Shahnavaz, Zohreh; Zaharani, Lia; Khaligh, Nader Ghaffari; Johan, Mohd Rafie] Univ Malaya, Inst Postgrad Studies, Nanotechnol & Catalysis Res Ctr, 3rd Floor,Block A, Kuala Lumpur 50603, Malaysia; [Mihankhah, Taraneh] Iran Univ Sci & Technol, Sch Civil Engn, Dept Water & Environm Engn, Environm Res Lab, Tehran 16765163, Iran published Synthesis, Characterisation, and Determination of Physical Properties of New Two-Protonic Acid Ionic Liquid and its Catalytic Application in the Esterification in 2021, Cited 35. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

A new ionic liquid was synthesised, and its chemical structure was elucidated by FT-IR, 1D NMR, 2D NMR, and mass analyses. Some physical properties, thermal behaviour, and thermal stability of this ionic liquid were investigated. The formation of a two-protonic acid salt namely 4,4′-trimethylene-N,N’-dipiperidinium sulfate instead of 4,4′-trimethylene-N,N’-dipiperidinium hydrogensulfate was evidenced by NMR analyses. The catalytic activity of this ionic liquid was demonstrated in the esterification reaction of n-butanol and glacial acetic acid under different conditions. The desired acetate was obtained in 62-88% yield without using a Dean-Stark apparatus under optimal conditions of 10 mol-% of the ionic liquid, an alcohol to glacial acetic acid mole ratio of 1.3 : 1.0, a temperature of 75-100 degrees C, and a reaction time of 4 h. alpha-Tocopherol (alpha-TCP), a highly efficient form of vitamin E, was also treated with glacial acetic acid in the presence of the ionic liquid, and O-acetyl-alpha-tocopherol (Ac-TCP) was obtained in 88.4% yield. The separation of esters was conducted during workup without the utilisation of high-cost column chromatography. The residue and ionic liquid were used in subsequent runs after the extraction of desired products. The ionic liquid exhibited high catalytic activity even after five runs with no significant change in its chemical structure and catalytic efficiency.

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.. Category: alcohols-buliding-blocks

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Recommanded Product: (4-Methoxyphenyl)methanol. Authors Zhou, ZY; Xie, YN; Zhu, WZ; Zhao, HY; Yang, NJ; Zhao, GH in ELSEVIER published article about in [Zhou, Zhaoyu; Xie, Ya-Nan; Zhu, Wenze; Zhao, Hongying; Zhao, Guohua] Tongji Univ, Shanghai Tongji Hosp, Sch Chem Sci & Engn, Inst Translat Res, Shanghai 200092, Peoples R China; [Yang, Nianjun] Univ Siegen, Inst Mat Engn, D-57076 Siegen, Germany in 2021, Cited 55. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

Hydrogen production can be promoted by replacing sluggish oxygen evolution reaction (OER) with a thermodynamically more favorable reaction, the primary oxidation reaction of benzyl alcohol to benzaldehyde. On a Bi2MoO6@TiO(2)NTA photocathode, the conversion of benzyl alcohol to benzaldehyde is realized with the selectivity of 100 %. This is originated from enhanced adsorption and activation of benzyl alcohol on this photoanode, as confirmed from tested by in situ FTIR techniques. The electrons generated during such a controllable and selective primary oxidation reaction is then utilized as the source for synergistical hydrogen production. The amount of generated hydrogen is then 5.5 times higher than that when OER is used. The efficiency for such hydrogen production is as high as 85 %. The proposed strategy combines solar energy and biomass for the efficient production of the valuable raw material – benzaldehyde as well as green energy source – hydrogen.

Recommanded Product: (4-Methoxyphenyl)methanol. Welcome to talk about 105-13-5, If you have any questions, you can contact Zhou, ZY; Xie, YN; Zhu, WZ; Zhao, HY; Yang, NJ; Zhao, GH or send Email.

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Recently I am researching about 1,3-DIPOLAR CYCLOADDITION REACTIONS; ASYMMETRIC CYCLOADDITIONS; RHODIUM; CARBENOIDS; DIAZOESTERS; COMPLEXES; CATALYSTS, Saw an article supported by the Japan Society for the Promotion of Science (JSPS)Ministry of Education, Culture, Sports, Science and Technology, Japan (MEXT)Japan Society for the Promotion of Science [JP15K05497, JP17KT0096, JP19K05454]. Name: (4-Methoxyphenyl)methanol. Published in WILEY-V C H VERLAG GMBH in WEINHEIM ,Authors: Toda, Y; Yoshida, T; Arisue, K; Fukushima, K; Esaki, H; Kikuchi, A; Suga, H. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol

Chiral Lewis acid-catalyzed asymmetric alcohol addition reactions to cyclic carbonyl ylides generated from N-(alpha-diazocarbonyl)-2-oxazolidinones featuring a dual catalytic system are reported. Construction of a chiral quaternary heteroatom-substituted carbon center was accomplished in which the unique heterobicycles were obtained in good yields with high stereoselection. The alcohol adducts were successfully converted to optically active oxazolidine-2,4-diones by hydrolysis. Mechanistic studies by DFT calculations revealed that alcohols could be activated by Lewis acids, enabling enantioselective protonation of the carbonyl ylides.

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.. Name: (4-Methoxyphenyl)methanol

Reference:
Alcohol – Wikipedia,
,Alcohols – Chemistry LibreTexts