Author: tianli

Wang, JD; Cui, W; Chen, RM; He, Y; Yuan, CW; Sheng, JP; Li, JY; Zhan, YX; Dong, F; Sun, YJ in [Wang, Jiadong; Chen, Ruimin; Yuan, Chaowei; Dong, Fan; Sun, Yanjuan] Chongqing Technol & Business Univ, Coll Environm & Resources, Chongqing Key Lab Catalysis & New Environm Mat, Chongqing 400067, Peoples R China; [Wang, Jiadong; Cui, Wen; He, Ye; Yuan, Chaowei; Sheng, Jianping; Li, Jieyuan; Dong, Fan; Sun, Yanjuan] Univ Elect Sci & Technol China, Inst Fundamental & Frontier Sci, Res Ctr Environm Sci & Technol, Chengdu 611731, Peoples R China; [Cui, Wen] Southwest Petr Univ, Sch Mat Sci & Engn, Ctr New Energy Mat & Thchnol, Chengdu 610500, Peoples R China; [Zhan, Yuxin] Chongqing Univ, Coll Mat Sci & Engn, Chongqing 400044, Peoples R China published OH/Na co-functionalized carbon nitride: directional charge transfer and enhanced photocatalytic oxidation ability in 2020, Cited 60. Application In Synthesis of (4-Methoxyphenyl)methanol. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

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.

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 Lan, XB; Ye, ZR; Yang, CH; Li, WK; Liu, JH; Huang, M; Liu, Y; Ke, ZF in WILEY-V C H VERLAG GMBH published article about BORROWING HYDROGEN; ALPHA-ALKYLATION; AROMATIC-AMINES; BOND FORMATION; COMPLEXES; EFFICIENT; KETONES; STRATEGY; LIGANDS; IMINES in [Lan, Xiao-Bing; Ye, Zongren; Yang, Chenhui; Li, Weikang; Liu, Jiahao; Huang, Ming; Ke, Zhuofeng] Sun Yat Sen Univ, Sch Mat Sci & Engn, PCFM Lab, Guangzhou 510275, Peoples R China; [Liu, Yan] Guangdong Univ Technol, Sch Chem Engn & Light Ind, Guangzhou 510006, Peoples R China; [Lan, Xiao-Bing] Xiangnan Univ, Sch Chem & Biol & Environm Engn, Hunan Prov Key Lab Xiangnan Rare Precious Met Cpd, Chenzhou 423000, Hunan, Peoples R China in 2021, Cited 63. COA of Formula: C8H10O2. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

The implementation of non-noble metals mediated chemistry is a major goal in homogeneous catalysis. Borrowing hydrogen/hydrogen autotransfer (BH/HA) reaction, as a straightforward and sustainable synthetic method, has attracted considerable attention in the development of non-noble metal catalysts. Herein, we report a tungsten-catalyzed N-alkylation reaction of anilines with primary alcohols via BH/HA. This phosphine-free W(phen)(CO)(4) (phen=1,10-phenthroline) system was demonstrated as a practical and easily accessible in-situ catalysis for a broad range of amines and alcohols (up to 49 examples, including 16 previously undisclosed products). Notably, this tungsten system can tolerate numerous functional groups, especially the challenging substrates with sterically hindered substituents, or heteroatoms. Mechanistic insights based on experimental and computational studies are also provided.

COA of Formula: C8H10O2. 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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Recently I am researching about C BOND FORMATION; ALPHA-ALKYLATION; UNACTIVATED AMIDES; KETONES; METHYLATION; ESTERS; ARYLACETONITRILES; FUNCTIONALIZATION; COMPLEXES; METHANOL, Saw an article supported by the National Natural Science Foundations of ChinaNational Natural Science Foundation of China (NSFC) [21773210, 21972125, 21776260]; Fundamental Research Funds for the Provincial Universities of Zhejiang [RF-B2019005]. Application In Synthesis of (4-Methoxyphenyl)methanol. Published in ROYAL SOC CHEMISTRY in CAMBRIDGE ,Authors: Hu, M; Jiang, Y; Sun, N; Hu, BX; Shen, ZL; Hu, XQ; Jin, LQ. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol

An efficient method for the Ni-catalyzed C3-alkylation of indoles using readily available alcohols as the alkylating reagents has been developed. The alkylation was addressed with an air and moisture-stable binuclear nickel complex ligated by tetrahydroquinolin-8-one as the effective pre-catalyst. The newly developed transformation could accommodate a broad substrate scope including primary/secondary benzylic and aliphatic alcohols and substituted indoles. Mechanistic studies suggested that the reaction proceeds through a borrowing hydrogen pathway.

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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Recently I am researching about MESOPOROUS MOLECULAR-SIEVE; METAL-SUPPORT INTERACTION; SELECTIVE HYDROGENATION; UNSATURATED ALDEHYDES; CINNAMYL ALCOHOL; ACTIVATED CARBON; HIGHLY EFFICIENT; CINNAMALDEHYDE; RUTHENIUM; COMPLEXES, Saw an article supported by the C1 Gas Refinery Program [2018M3D3A1A01018006]; National Research Foundation of Korea (NRF) – Ministry of Science, ICT, and Future Planning, Republic of Korea [2020M3H7A1098259]. Published in ELSEVIER SCIENCE INC in NEW YORK ,Authors: Padmanaban, S; Lee, Y; Yoon, S. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol. Product Details of 105-13-5

Selective hydrogenation of the carbonyl functional group of alpha,beta-unsaturated carbonyl compounds affords industrially important allylic alcohols. However, achieving the selective reduction of the carbonyl group in the presence of the activated olefinic group is challenging. Therefore, the development of a highly chemoselective, efficient, and recyclable catalyst for this transformation is greatly desirable from the industrial and environmental viewpoints. In this study, a Ru-immobilized bisphosphine-based porous organic polymer (Ru@PP-POP) was used as an efficient heterogeneous catalyst for chemoselective hydrogenation of cinnamaldehyde (CAL) to cinnamyl alcohol with high chemoselectivity (98%) and excellent recyclability. To the best of our knowledge, the catalyst, Ru@PP-POP showed a high turnover number (970) and a high turnover frequency (240h(1)) which is the best activity obtained using a phosphine based heterogeneous Ru-catalyst in this transformation. (C) 2020 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved.

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Application In Synthesis of (4-Methoxyphenyl)methanol. In 2021 APPL ORGANOMET CHEM published article about C-H BONDS; CATALYZED ESTERIFICATION; COUPLING REACTIONS; CARBONYLATION; ALDEHYDES; CLEAVAGE; ESTERS; AMINATION; FUNCTIONALIZATION; ACTIVATION in [Dong, Jianyu; Mo, Min; Tang, Jian-Sheng] Hunan First Normal Univ, Dept Educ Sci, Changsha 410205, Peoples R China; [Dong, Jianyu; Chen, Xiuling; Ji, Fangyan; Liu, Lixin; Su, Lebin; Zhou, Yongbo] Hunan Univ, Coll Chem & Chem Engn, Changsha, Peoples R China; [Chen, Xiuling] Hubei Univ Sci & Technol, Nonpower Nucl Technol Collaborat Innovat Ctr, Sch Nucl Technol & Chem & Biol, Xianning, Peoples R China in 2021, Cited 79. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

A simple and direct aerobic oxidative esterification reaction of arylacetonitriles with alcohols/phenols is achieved in the presence of a copper salt and molecular oxygen, which produces a broad range of aryl carboxylic acid esters in good to high yields. Copper salt plays multiple roles in the transformation, which allows the oxygenation of C-H bond, cleavage of inert C-C bond, and formation of C-O bond in one pot without the assistance of any of the acids, bases, ligands, and so on. The reaction provides a simple, direct, and efficient protocol towards functionalized esters, especially aryl benzoates, from readily available starting materials.

Application In Synthesis of (4-Methoxyphenyl)methanol. Welcome to talk about 105-13-5, If you have any questions, you can contact Dong, JY; Chen, XL; Ji, FY; Liu, LX; Su, LB; Mo, M; Tang, JS; Zhou, YB or send Email.

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An article Tandem Acceptorless Dehydrogenative Coupling-Decyanation under Nickel Catalysis WOS:000661138500021 published article about ALCOHOLS; OLEFINATION; ARYLACETONITRILES; ALKYLATION in [Midya, Siba P.; Subaramanian, Murugan; Babu, Reshma; Balaraman, Ekambaram] Indian Inst Sci Educ & Res IISER Tirupati, Dept Chem, Tirupati 517507, Andhra Pradesh, India; [Yadav, Vinita] CSIR Natl Chem Lab CSIR NCL, Organ Chem Div, Pune 411008, Maharashtra, India in 2021, Cited 55. Name: (4-Methoxyphenyl)methanol. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

The development of new catalytic processes based on abundantly available starting materials by cheap metals is always a fascinating task and marks an important transition in the chemical industry. Herein, a nickel-catalyzed acceptorless dehydrogenative coupling of alcohols with nitriles followed by decyanation of nitriles to access diversely substituted olefins is reported. This unprecedented C=C bond-forming methodology takes place in a tandem manner with the formation of formamide as a sole byproduct. The significant advantages of this strategy are the low-cost nickel catalyst, good functional group compatibility (ether, thioether, halo, cyano, ester, amino, N/O/S heterocycles; 43 examples), synthetic convenience, and high reaction selectivity and efficiency.

Welcome to talk about 105-13-5, If you have any questions, you can contact Midya, SP; Subaramanian, M; Babu, R; Yadav, V; Balaraman, E or send Email.. Name: (4-Methoxyphenyl)methanol

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COA of Formula: C8H10O2. In 2021 J ENVIRON CHEM ENG published article about ORGANIC-CHEMISTRY; AROMATIC ALCOHOLS; AQUEOUS GLUCOSE; BENZOIC-ACID; WATER; HYDROCARBONS; DEGRADATION in [Bellardita, Marianna; Loddo, Vittorio; Palmisano, Leonardo; Augugliaro, Vincenzo] Univ Palermo, Dipartimento Ingn, Schiavello Grillone Photocatalysis Grp, Viale Sci,Ed 6, I-90128 Palermo, Italy; [Yurdakal, Sedat; Tek, Bilge Sina] Afyon Kocatepe Univ, Fen Edebiyat Fak, Kimya Bolumu, Ahmet Necdet Sezer Kampusu, TR-03200 Afyon, Turkey; [Degirmenci, Caglar] Eskisehir Tekn Univ, Fen Fak, Kimya Bolumu, Yunus Emre Kampusu, TR-26470 Eskisehir, Turkey; [Palmisano, Giovanni] Khalifa Univ Sci & Technol, Dept Chem Engn, POB 127788, Abu Dhabi, U Arab Emirates; [Palmisano, Giovanni] Khalifa Univ Sci & Technol, Res & Innovat Ctr CO2 & H2, POB 127788, Abu Dhabi, U Arab Emirates; [Soria, Javier] CSIC, Inst Catalisis & Petroleoquim, C Marie Curie 2, Madrid 28049, Spain; [Sanz, Jesus] CSIC, Inst Ciencia Mat, Madrid 28049, Spain in 2021, Cited 38. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5.

The influence of pH on the photocatalytic partial oxidation of 4-methoxybenzyl alcohol (MBA) and vanillyl alcohol (VA) to their corresponding aldehydes in aqueous suspension under UVA irradiation was investigated by using poorly crystalline home-prepared and crystalline commercial TiO2 (BDH, Merck and Degussa P25) photocatalysts. The results clearly show as tuning pH can strongly impart selectivity and activity to photocatalytic processes which are often quite unselective in aqueous suspensions. It was found that pH effect on reaction rate and product selectivity strongly depended on TiO2 crystallinity and substrate type. In the case of MBA oxidation, photoreactivity and selectivity were very high at low pH values for all of TiO2 catalysts, and the crystalline samples showed to be more active than the poorly crystalline ones. At pH= 1 the photoactivity of Degussa P25 was the highest one, and 88% selectivity at 50% conversion was determined. At acidic pH values, selectivity and activity were higher in the presence of HCl than H2SO4 or H3PO4. For VA oxidation, high selectivity values were obtained at high pH’s for all of the samples, and the crystalline samples showed higher activity at the alkaline pH values with respect to that observed at the acidic ones. Experiments starting from the obtained products, that are p-anisaldehyde and vanillin, showed that the selectivity depends on the resistance of those compounds to be subjected to further oxidation under the experimental conditions used.

Welcome to talk about 105-13-5, If you have any questions, you can contact Bellardita, M; Yurdakal, S; Tek, BS; Degirmenci, C; Palmisano, G; Loddo, V; Palmisano, L; Soria, J; Sanz, J; Augugliaro, V or send Email.. COA of Formula: C8H10O2

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Computed Properties of C8H10O2. Recently I am researching about CARBON-PASTE ELECTRODE; SOLID-PHASE EXTRACTION; VOLTAMMETRIC SENSOR; GRAPHENE OXIDE; RIZATRIPTAN BENZOATE; GLUCOSE SENSOR; ASCORBIC-ACID; MIGRAINE; TRIPTANS; ACETAMINOPHEN, Saw an article supported by the . Published in ELSEVIER in AMSTERDAM ,Authors: Bavandpour, R; Rajabi, M; Karimi-Maleh, H; Asghari, A. The CAS is 105-13-5. Through research, I have a further understanding and discovery of (4-Methoxyphenyl)methanol

In this study, a green deep eutectic solvent (DES) was synthesized at room temperature-based choline chloride (ChCl) and 4-methoxybenzyl alcohol (Anisyl alcohol (An-OH)) used as the conductive binder for modification of carbon paste electrode (CPE). In addition, single wall carbon nanotubes decorated by ZrO2 (SWCNT-ZrO2) nanocomposite was synthesized by the hydrothermal method and characterized by field emission scanning electron microscopy (FE-SEM), energy dispersive spectroscopy (EDAX), and X-ray powder diffraction (XRD) analytical techniques. The DES and SWCNT-ZrO2 were used as a binder and modifier in the carbon paste electrode structure to form CPE/DES/SWCNT-ZrO2 as an electrochemical sensor for the simultaneous determination of paracetamol and rizatriptan as two anti-migration drugs for the first time. In the direction of optimal experimental conditions, the effective parameters such as pH, amount of modifier, and electrolyte type were optimized. Under these conditions, the limits of detection (LODs) 0.7 nM and 9.0 nM; linear dynamic ranges (LDRs) 0.003?100 and 0.08?100; and relative standard deviations (RSDs for n = 5) 1.63 and 1.52 were sequentially found for rizatriptan and paracetamol. The results indicate that the sensor can be applied for the detection of trace amounts of paracetamol and rizatriptan in clinical and pharmaceutical samples.

Computed Properties of C8H10O2. Welcome to talk about 105-13-5, If you have any questions, you can contact Bavandpour, R; Rajabi, M; Karimi-Maleh, H; Asghari, A or send Email.

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An article Tuning the selectivity to aldehyde via pH regulation in the photocatalytic oxidation of 4-methoxybenzyl alcohol and vanillyl alcohol by TiO2 catalysts WOS:000670387700007 published article about ORGANIC-CHEMISTRY; AROMATIC ALCOHOLS; AQUEOUS GLUCOSE; BENZOIC-ACID; WATER; HYDROCARBONS; DEGRADATION in [Bellardita, Marianna; Loddo, Vittorio; Palmisano, Leonardo; Augugliaro, Vincenzo] Univ Palermo, Dipartimento Ingn, Schiavello Grillone Photocatalysis Grp, Viale Sci,Ed 6, I-90128 Palermo, Italy; [Yurdakal, Sedat; Tek, Bilge Sina] Afyon Kocatepe Univ, Fen Edebiyat Fak, Kimya Bolumu, Ahmet Necdet Sezer Kampusu, TR-03200 Afyon, Turkey; [Degirmenci, Caglar] Eskisehir Tekn Univ, Fen Fak, Kimya Bolumu, Yunus Emre Kampusu, TR-26470 Eskisehir, Turkey; [Palmisano, Giovanni] Khalifa Univ Sci & Technol, Dept Chem Engn, POB 127788, Abu Dhabi, U Arab Emirates; [Palmisano, Giovanni] Khalifa Univ Sci & Technol, Res & Innovat Ctr CO2 & H2, POB 127788, Abu Dhabi, U Arab Emirates; [Soria, Javier] CSIC, Inst Catalisis & Petroleoquim, C Marie Curie 2, Madrid 28049, Spain; [Sanz, Jesus] CSIC, Inst Ciencia Mat, Madrid 28049, Spain in 2021, Cited 38. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5. Computed Properties of C8H10O2

The influence of pH on the photocatalytic partial oxidation of 4-methoxybenzyl alcohol (MBA) and vanillyl alcohol (VA) to their corresponding aldehydes in aqueous suspension under UVA irradiation was investigated by using poorly crystalline home-prepared and crystalline commercial TiO2 (BDH, Merck and Degussa P25) photocatalysts. The results clearly show as tuning pH can strongly impart selectivity and activity to photocatalytic processes which are often quite unselective in aqueous suspensions. It was found that pH effect on reaction rate and product selectivity strongly depended on TiO2 crystallinity and substrate type. In the case of MBA oxidation, photoreactivity and selectivity were very high at low pH values for all of TiO2 catalysts, and the crystalline samples showed to be more active than the poorly crystalline ones. At pH= 1 the photoactivity of Degussa P25 was the highest one, and 88% selectivity at 50% conversion was determined. At acidic pH values, selectivity and activity were higher in the presence of HCl than H2SO4 or H3PO4. For VA oxidation, high selectivity values were obtained at high pH’s for all of the samples, and the crystalline samples showed higher activity at the alkaline pH values with respect to that observed at the acidic ones. Experiments starting from the obtained products, that are p-anisaldehyde and vanillin, showed that the selectivity depends on the resistance of those compounds to be subjected to further oxidation under the experimental conditions used.

Computed Properties of C8H10O2. Welcome to talk about 105-13-5, If you have any questions, you can contact Bellardita, M; Yurdakal, S; Tek, BS; Degirmenci, C; Palmisano, G; Loddo, V; Palmisano, L; Soria, J; Sanz, J; Augugliaro, V or send Email.

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An article Asymmetric total synthesis of (+)-xestoquinone and (+)-adociaquinones A and B WOS:000637925000008 published article about DIELS-ALDER REACTION; HYDROXY-O-QUINODIMETHANES; PHOTOASSISTED SYNTHESIS; ABSOLUTE STEREOCHEMISTRY; NATURAL-PRODUCT; ANALOGS THEREOF; SILYL ETHERS; XESTOQUINONE; SPONGE; HALENAQUINONE in [Lu, Xiao-Long; Qiu, Yuanyou; Yang, Baochao; Gao, Shuanhu] East China Normal Univ, Sch Chem & Mol Engn, Shanghai Key Lab Green Chem & Chem Proc, 3663N Zhongshan Rog, Shanghai 200062, Peoples R China; [He, Haibing; Gao, Shuanhu] East China Normal Univ, Shanghai Engn Res Ctr Mol Therapeut & New Drug De, 3663N Zhongshan Rd, Shanghai 200062, Peoples R China in 2021, Cited 76. HPLC of Formula: C8H10O2. The Name is (4-Methoxyphenyl)methanol. Through research, I have a further understanding and discovery of 105-13-5

The asymmetric total synthesis of (+)-xestoquinone and (+)-adociaquinones A and B was achieved in 6-7 steps using an easily accessible meso-cyclohexadienone derivative. The [6,6]-bicyclic decalin B-C ring and the all-carbon quaternary stereocenter at C-6 were prepared via a desymmetric intramolecular Michael reaction with up to 97% ee. The naphthalene diol D-E ring was constructed through a sequence of Ti(Oi-Pr)(4)-promoted photoenolization/Diels-Alder, dehydration, and aromatization reactions. This asymmetric strategy provides a scalable route to prepare target molecules and their derivatives for further biological studies.

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