Tag: M.W=150-200

An article Rotational Signatures of Dispersive Stacking in the Formation of Aromatic Dimers WOS:000459709300025 published article about POTENTIAL-ENERGY SURFACE; BENZENE DIMER; CH/PI INTERACTION; WATER; SPECTROSCOPY; RECOGNITION; FLUORENE; RINGS in [Fatima, Mariyam; Steber, Amanda L.; Perez, Cristobal; Zinn, Sabrina; Schnell, Melanie] DESY, FS SMP, Notkestr 85, D-22607 Hamburg, Germany; [Fatima, Mariyam; Steber, Amanda L.; Perez, Cristobal; Zinn, Sabrina; Schnell, Melanie] Christian Albrechts Univ Kiel, Inst Phys Chem, Max Eyth Str 1, D-24118 Kiel, Germany; [Poblotzki, Anja] Univ Gottingen, Inst Phys Chem, Tammannstr 6, D-37077 Gottingen, Germany in 2019.0, Cited 45.0. Product Details of 101-84-8. The Name is Diphenyl oxide. Through research, I have a further understanding and discovery of 101-84-8

The aggregation of aromatic species is dictated by inter- and intramolecular forces. Not only is characterizing these forces in aromatic growth important for understanding grain formation in the interstellar medium, but it is also imperative to comprehend biological functions. We report a combined rotational spectroscopic and quantum-chemical study on three homo-dimers, comprising of diphenyl ether, dibenzofuran, and fluorene, to analyze the influence of structural flexibility and the presence of heteroatoms on dimer formation. The structural information obtained shows clear similarities between the dimers, despite their qualitatively different molecular interactions. All dimers are dominated by dispersion interactions, but the dibenzofuran dimer is also influenced by repulsion between the free electron pairs of the oxygen atoms and the pi-clouds. This study lays the groundwork for understanding the first steps of molecular aggregation in systems with aromatic residues.

About Diphenyl oxide, If you have any questions, you can contact Fatima, M; Steber, AL; Poblotzki, A; Perez, C; Zinn, S; Schnell, M or concate me.. Product Details of 101-84-8

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In 2019.0 ECOTOX ENVIRON SAFE published article about POLYBROMINATED DIPHENYL ETHERS; SPATIAL-DISTRIBUTION; VERTICAL-DISTRIBUTION; RECYCLING SITE; DECABROMODIPHENYL ETHER; FUNGAL COMMUNITIES; MINE DRAINAGE; DIVERSITY; BACTERIAL; POLLUTION in [Wu, Zhineng; Gao, Guanghai; Wang, Yingying] Nankai Univ, Key Lab Pollut Proc & Environm Criteria, Tianjin Key Lab Environm Remediat & Pollut Contro, Minist Educ,Coll Environm Sci & Engn, Tianjin 300350, Peoples R China; [Wu, Zhineng] Xinxiang Med Univ, Sch Publ Hlth, Xinxiang 453003, Henan, Peoples R China; [Gao, Guanghai] Tsinghua Univ, State Key Lab Hydrosci & Engn, Beijing, Peoples R China in 2019.0, Cited 79.0. The Name is Diphenyl oxide. Through research, I have a further understanding and discovery of 101-84-8. Safety of Diphenyl oxide

Heavy metals and polybrominated diphenyl ethers (PBDEs) are ubiquitous pollutants at electronic waste (e-waste) contaminated sites, their individual impacts on soil microbial community has attracted wide attention, however, limited research is available on the combined effects of heavy metals and PBDEs on microbial community of a-waste contaminated. Therefore, combined effects of heavy metals and PBDEs on the microbial community in the e-waste contaminated soil were investigated in this study. Samples were collected from Ziya e-waste recycling area in Tianjin, northern China, and the soil microbial communities were then analyzed by the high-throughput MiSeq 16S rRNA sequencing to assess the effects of soil properties, heavy metals, and PBDEs on the soil microbial community. Candidatus Nitrososphaera, Steroidobacter and Kaistobacter were the dominant microbial species in the soils. Similar microbial metabolic functions, including amino acid metabolism, carbohydrate metabolism and membrane transport, were found in all soil samples. Redundancy analysis and variation partition analysis revealed that the microbial community was mainly influenced by PBDEs (including BDE 183, BDE 99, BDE 100 and BDE 154) in horizontal soil samples. However, TN, biomass, BDE 100, BDE 99 and BDE 66 were the major drivers shaping the microbial community in vertical soil samples.

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Recommanded Product: 101-84-8. Recently I am researching about BROMINATED FLAME RETARDANTS; EPOXIDIZED SOYBEAN OIL; IN-HOUSE DUST; DI(2-ETHYLHEXYL)PHTHALATE DEHP; POLYCHLORINATED-BIPHENYLS; INHALATION TOXICITY; PLASTIC COMPOSITES; URINARY PHTHALATE; BREAST-MILK; METABOLITE CONCENTRATIONS, Saw an article supported by the . Published in NORTH CAROLINA STATE UNIV DEPT WOOD & PAPER SCI in RALEIGH ,Authors: Ulker, OC; Ulker, O. The CAS is 101-84-8. Through research, I have a further understanding and discovery of Diphenyl oxide

Adhesives, flame-retardant chemicals, and paints are used in engineered wood products (EWPs) to increase some of the properties of wood. Most of the engineered wood composites, including plywood, particleboard, and fiberboard, used as furniture components contain formaldehyde resins as an adhesive. The International Agency for Research on Cancer (IARC) added formaldehyde to the list of human carcinogens (Group 1) in 2004. Flame-retardant chemicals are semi-volatile organic compounds that can migrate from the products to the air. There are developmental neurotoxic effects from flame-retardant additives, among which polybrominated diphenyl ethers (PBDEs) are commonly used in EWPs. The flexibility and durability of plastics are increased using phthalates, which are a class of synthetic chemicals, by adding them to the polyvinyl chloride (PVC) that is used in the wood-plastic composites (WPC). Formaldehyde, PBDEs, and phthalates are toxicants that are commonly present in value-added furniture products. This review summarized the toxic effects of these chemicals from the aspect of human health and from the perspective of green products.

Recommanded Product: 101-84-8. About Diphenyl oxide, If you have any questions, you can contact Ulker, OC; Ulker, O or concate me.

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Zhenova, A; Pellis, A; Milescu, RA; McElroy, CR; White, RJ; Clark, JH in [Zhenova, Anna; Pellis, Alessandro; Milescu, Roxana A.; McElroy, Con Robert; Clark, James H.] Univ York, Dept Chem, Green Chem Ctr Excellence, York YO10 5DD, N Yorkshire, England; [White, Robin J.] Fraunhofer Inst Solar Energy Syst ISE, Heidenhofstr 2, D-79110 Freiburg, Germany; [White, Robin J.] Netherlands Org Appl Sci Res TNO, Locatie Eindhoven, High Tech Campus 25, NL-5656 AE Eindhoven, Netherlands published Solvent Applications of Short-Chain Oxymethylene Dimethyl Ether Oligomers in 2019.0, Cited 43.0. Recommanded Product: 101-84-8. The Name is Diphenyl oxide. Through research, I have a further understanding and discovery of 101-84-8.

Short-chain oxymethylene dimethyl ethers (OMEs) (molecular formula: H3CO-(CH2O)(n)-CH3, where n = 3-5) have previously been studied as diesel-like fuels and fuel additives. OMEs can be produced from sustainably sourced methanol, and tests indicate that they are neither genotoxic nor mutagenic. In this report, their potential as solvents has been investigated to expand the bio-derived solvent space. According to traditional solvatochromic parameters, a commercial mixture of OME3-5 and its individual components (OME3, OME4, and OME5) have solvation properties similar to problematic industrial ether solvents such as 1,4-dioxane. Peroxide formation, one of the chief dangers of classical ether solvents, was found to occur much more slowly in OMEs than in conventional solvents such as tetrahydrofuran (THE), demonstrating an improved safety profile. The commercial OME3-5 mixture was found to be broadly miscible with organic solvents but immiscible with water, suggesting potential application in aqueous extractions. It performed well in the dissolution of polystyrene and removal of paints and coatings, indicating OME3-5 may suitable to replace dichloromethane in polymer recycling, polymer welding, and cleaning applications. To further demonstrate applicability as a solvent, this mixture was shown to facilitate a model Suzuki coupling reaction at rates similar to cyclopentyl methyl ether, which is currently marketed as a green ether. Finally, OME3-5 proved a suitable solvent for enzymatic polymerization, giving high yields, moderately high degrees of polymerization, and remarkably narrow dispersity values.

About Diphenyl oxide, If you have any questions, you can contact Zhenova, A; Pellis, A; Milescu, RA; McElroy, CR; White, RJ; Clark, JH or concate me.. Recommanded Product: 101-84-8

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An article Palladium-Borane Cooperation: Evidence for an Anionic Pathway and Its Application to Catalytic Hydro-/Deutero-dechlorination WOS:000494501500001 published article about TRANSITION-METAL-COMPLEXES; Z-TYPE LIGANDS; LEWIS-ACIDS; BOND-ACTIVATION; H ACTIVATION; BORON; H-2; COORDINATION; NICKEL; HYDROSILYLATION in [Kameo, Hajime; Yamamoto, Jun; Asada, Ayaka; Matsuzaka, Hiroyuki] Osaka Prefecture Univ, Grad Sch Sci, Dept Chem, Naka Ku, Gakuen Cho, Sakai, Osaka 5998531, Japan; [Nakazawa, Hiroshi] Osaka City Univ, Grad Sch Sci, Dept Chem, Sumiyoshi Ku, Osaka 5588585, Japan; [Bourissou, Didier] Univ Paul Sabatier, CNRS UMR 5069, Lab Heterochim Fondamentale & Appl, 118 Route Narbonne, F-31062 Toulouse 09, France in 2019, Cited 64. The Name is Diphenyl oxide. Through research, I have a further understanding and discovery of 101-84-8. Category: ethers-buliding-blocks

Metal-Lewis acid cooperation provides new opportunities in catalysis. In this work, we report a new type of palladium-borane cooperation involving anionic Pd-0 species. The air-stable DPB palladium complex 1 (DPB=diphosphine-borane) was prepared and reacted with KH to give the Pd-0 borohydride 2, the first monomeric anionic Pd-0 species to be structurally characterized. The boron moiety acts as an acceptor towards Pd in 1 via Pd -> B interaction, but as a donor in 2 thanks to B-H-Pd bridging. This enables the activation of C-Cl bonds and the system is amenable to catalysis, as demonstrated by the hydro-/deutero-dehalogenation of a variety of (hetero)aryl chlorides (20 examples, average yield 85 %).

Category: ethers-buliding-blocks. About Diphenyl oxide, If you have any questions, you can contact Kameo, H; Yamamoto, J; Asada, A; Nakazawa, H; Matsuzaka, H; Bourissou, D or concate me.

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An article Isolation and characterization of 2-butoxyethanol degrading bacterial strains WOS:000529855200001 published article about NONIONIC DETERGENT DEGRADATION; FATTY ALCOHOL ETHOXYLATES; GLYCOL MONOBUTYL ETHER; POLYETHYLENE-GLYCOL; PSEUDOMONAS-PUTIDA; BUTOXYACETIC ACID; BUTYL ETHER; TETRAHYDROFURAN DEGRADATION; MOLECULAR CHARACTERIZATION; MICROBIAL-DEGRADATION in [Woiski, Christine; Dobslaw, Daniel; Engesser, Karl-Heinrich] Univ Stuttgart, Inst Sanit Engn Water Qual & Solid Waste Manageme, Dept Biol Waste Air Purificat, Bandtaele 2, D-70569 Stuttgart, Germany in 2020, Cited 100. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4. Application In Synthesis of Benzyl ether

A total of 11 bacterial strains capable of completely degrading 2-butoxyethanol (2-BE) were isolated from forest soil, a biotrickling filter, a bioscrubber, and activated sludge, and identified by 16S rRNA gene sequence analysis. Eight of these strains belong to the genus Pseudomonas; the remaining three strains are Hydrogenophaga pseudoflava BOE3, Gordonia terrae BOE5, and Cupriavidus oxalaticus BOE300. In addition to 2-BE, all isolated strains were able to grow on 2-ethoxyethanol and 2-propoxyethanol, ethanol, n-hexanol, ethyl acetate, 2-butoxyacetic acid (2-BAA), glyoxylic acid, and n-butanol. Apart from the only gram-positive strain isolated, BOE5, none of the strains were able to grow on the nonpolar ethers diethyl ether, di-n-butyl ether, n-butyl vinyl ether, and dibenzyl ether, as well as on 1-butoxy-2-propanol. Strains H. pseudoflava BOE3 and two of the isolated pseudomonads, Pseudomonas putida BOE100 and P. vancouverensis BOE200, were studied in more detail. The maximum growth rates of strains BOE3, BOE100, and BOE200 at 30 degrees C were 0.204 h(-1) at 4 mM, 0.645 h(-1) at 5 mM, and 0.395 h(-1) at 6 mM 2-BE, respectively. 2-BAA, n-butanol, and butanoic acid were detected as potential metabolites during the degradation of 2-BE. These findings indicate that the degradation of 2-BE by the isolated gram-negative strains proceeds via oxidation to 2-BAA with subsequent cleavage of the ether bond yielding glyoxylate and n-butanol. Since Gordonia terrae BOE5 was the only strain able to degrade nonpolar ethers like diethyl ether, the degradation pathway of 2-BE may be different for this strain.

Application In Synthesis of Benzyl ether. About Benzyl ether, If you have any questions, you can contact Woiski, C; Dobslaw, D; Engesser, KH or concate me.

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I found the field of Electrochemistry; Materials Science very interesting. Saw the article Syntheses and Characterization of Benzotriazole, Thienopyrroledione, and Benzodithiophene Containing Conjugated Random Terpolymers for Organic Solar Cells published in 2019.0. Quality Control of Diphenyl oxide, Reprint Addresses Cirpan, A (corresponding author), Middle East Tech Univ, Dept Chem, TR-06800 Ankara, Turkey.. The CAS is 101-84-8. Through research, I have a further understanding and discovery of Diphenyl oxide

Two random terpolymers bearing alkoxy-benzodithiophene as an electron-rich unit and N-octylthieno[3,4,c]pyrrole-4,6-dione (TPD) as an electron deficient group with thiophene and selenophene pi bridges, were synthesized and characterized. Electrochemical, optical properties of the polymers were analyzed to get an insight on the effect of different p bridges. Photovoltaic performances of the polymers were investigated with a conventional device architecture. PBTS, PBTSe based polymer solar cells (PSCs) exhibited power conversion efficiency of 3.32% and 3.19%. PCE of PBTS:PC71BM based PSCs were improved to 4.30% with the addition of 1% (vol/vol) 1,8-diiodooctane (DIO) as a solution processing additive. With the introduction of diphenyl ether (DPE) as the solvent additive, PBTSe based polymer solar cells attained 5.15% PCE value due to the formation of the interpenetrated network structure of domains. (C) 2019 The Electrochemical Society.

Quality Control of Diphenyl oxide. About Diphenyl oxide, If you have any questions, you can contact Goksu, K; Hizalan, G; Udum, YA; Hacioglu, SO; Cevher, SC; Akrema; Toppare, L; Cirpan, A or concate me.

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An article Magnetic Hyperthermia and Photocatalytic Properties of MnFe(2)O(4)Nanoparticles Synthesized by Solvothermal Reflux Method WOS:000574332800001 published article about SUPERPARAMAGNETIC NATURE; FERROELECTRIC PROPERTIES; MNFE2O4 NANOPARTICLES; TEMPERATURE; DESIGN in [Manohar, A.; Krishnamoorthi, C.] Vellore Inst Technol, Ctr Nanotechnol Res, Vellore 632014, Tamil Nadu, India; [Manohar, A.] Korea Univ, Dept Mat Sci & Engn, 145 Anam Ro, Seoul 02841, South Korea; [Pavithra, C.] Marudhar Kesari Jain Coll, Dept Phys, Vaniyambadi 635752, Tamil Nadu, India; [Thota, Narayana] Indian Inst Sci, Solid State & Struct Chem, Bengaluru 560012, India in 2021, Cited 44. Safety of Benzyl ether. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4

Development of new superparamagnetic materials with narrow size distribution is crucial for biomedical and environmental applications. Hence, we report the synthesis of narrow size distributed single grain MnFe(2)O(4)nanoparticles of average particle size 9 nm by solvothermal reflux method. Synthesized compound crystallized in face centered cubic spinel structure and is confirmed by X-ray diffraction profiles. Transmission electron micrograph shows narrow size distributed particles with an average particle size of 9 nm and is equal to crystallite diameter estimated from Scherrer equation. The spinel crystal structure is further confirmed by electron diffraction profiles, Fourier transformed infrared spectrum, and Raman spectrum at room temperature. Magnetic properties of the sample show superparamagnetic nature at room temperature with moderate saturated magnetization of 56.4 emug(-1). Magnetic heating properties of nanoparticles dispersion show the attainment of hyperthermia temperature (43 degrees C) in a short span of time of 1.6 min for 2 mg/mL and 2.6 min for 1 mg/mL concentrations. Estimated specific heat generation rate or specific power absorption rate, from temporal temperature plots, is 145.78 Wg(-1)and is useful for magnetic hyperthermia application in cancer therapy. Photocatalysis properties of sample show 96% of rhodamine B dye degradation in little less than 6 h under UV light irradiation and are useful for photocatalytic applications in wastewater treatment in industries.

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An article Preparation and characterization of lanthanum nitrate nanoparticles by a polyol method WOS:000474932500008 published article about POWDERS; FILMS in [Estrada-de la Vega, A.; Diabb, J.; Elias-Zuniga, A.] ITESM, Dept Ingn Mecan, Tecnol, Av Eugenio Garza Sada 2501 Sur, Monterrey 64849, NL, Mexico; [Bedoya-Calle, A. H.; Lopez-Cuellar, E. M.; Ortiz-Mendez, And U.] PITT Monterrey, CIIDIT FIME UANL, Av Alianza 101 Sur, Apodaca 66600, NL, Mexico; [Villarreal-Rios, A. L.] Ctr Invest Ciencias Fis Matemat CICFIM UANL, Av Univ S-N,Ciudad Univ, San Nicolas De Los Garza 66451, NL, Mexico in 2019.0, Cited 37.0. The Name is Diphenyl oxide. Through research, I have a further understanding and discovery of 101-84-8. Computed Properties of C12H10O

We present the synthesis of lanthanum nitrate nanoparticles via the polyol method. A crystallographic study of La(NO3)(3)center dot 4H(2)O nanoparticles was carried out using the Rietveld method and XRD to detect the phases of the yield: alpha (monoclinic) and beta (orthorhombic) phases were obtained. Thermogravimetric analysis showed a unique dehydration process in the 65 degrees C-245 degrees C temperature range and a dehydroxylation phase in the 333 degrees C-558 degrees C temperature range. Using TEM-EDX, and DLS, the purity of the material was evaluated; a spherical shape morphology and monodispersity were observed. The absorbance at 1340-1440 cm(-1) and 1500-1600 cm(-1) (IR regions) of the lanthanum nanoparticles was deconvolved to increase the resolution of the chemical imprint in these regions.

Computed Properties of C12H10O. About Diphenyl oxide, If you have any questions, you can contact Estrada-de la Vega, A; Bedoya-Calle, AH; Diabb, J; Villarreal-Rios, AL; Elias-Zuniga, A; Lopez-Cuellar, EM; Ortiz-Mendez, AU or concate me.

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COA of Formula: C14H14O. Nagendra, B; Cozzolino, A; Golla, M; Daniel, C; Rizzo, P; Guerra, G in [Guerra, Gaetano] Univ Salerno, Dipartimento Chim & Biol, Via Giovanni Paolo II 132, I-84084 Fisciano, Italy; Univ Salerno, INSTM Res Unit, Via Giovanni Paolo II 132, I-84084 Fisciano, Italy published Guest induced transition from beta to alpha nanoporous crystalline forms of PPO in 2020, Cited 49. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4.

The stability of a and beta nanoporous-crystalline (NC) forms of Poly(2,6-dimethyl-1,4-phenylene) oxide (PPO), in the presence of guest molecules leading to crystallization in a and beta-form (alpha and beta-guests), is explored. Sorption of liquid guests at 30 degrees C and 60 degrees C is studied both for NC films and NC aerogels. WAXD and FTIR characterizations show that, for all considered conditions, NC alpha-phases after guest sorption/desorption remain unaltered. NC beta-phases, on the contrary, after alpha-guest sorption can be transformed in co-crystalline (CC) alpha-phases that after guest desorption are transformed in NC alpha-phases. All conducted experiments also show that possible planar orientations of NC films (c//or c perpendicular to orientations) remain essentially unaltered, after sorption of all considered guest molecules. The presently discovered beta ->alpha transition constitutes a route to obtain unoriented alpha-form films, which till now were not available by known preparation procedures.

COA of Formula: C14H14O. About Benzyl ether, If you have any questions, you can contact Nagendra, B; Cozzolino, A; Golla, M; Daniel, C; Rizzo, P; Guerra, G or concate me.

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