Category: 103-50-4

In 2019 LANGMUIR published article about SULFONATED COPOLYMERS; SIZE; TEMPERATURES; STABILITY; BRINE in [Yu, Jin; Wong, Joyce Y.] Boston Univ, Div Mat Sci & Engn, Boston, MA 02215 USA; [Nap, Rikkert J.; Szleifer, Igal] Northwestern Univ, Dept Biomed Engn, Evanston, IL 60208 USA; [Nap, Rikkert J.; Szleifer, Igal] Northwestern Univ, Chem Life Proc Inst, Evanston, IL 60208 USA; [Wong, Joyce Y.] Boston Univ, Dept Biomed Engn, Boston, MA 02215 USA in 2019, Cited 23. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4. Computed Properties of C14H14O

Superparamagnetic nanoparticles (SPIONs) can be used as nuclear magnetic resonance (NMR) signal enhancement agents for petroleum exploration. This enhancement effect is uniform if SPIONs are monodisperse in size and in composition; yet it is challenging to synthesize mono disperse particles that do not aggregate in high salinity petroleum brine. Here, we report a method to synthesize individual SPIONs coated with tunable surface coating densities of poly(2-acrylamido-2-methyl-1-propanesulfonic acid (pAMPS) with a catechol end-group (pAMPS*). To establish parameters under which pAMPS*-coated SPIONS do not aggregate, we compared computational predictions with experimental results for variations in pAMPS* chain length and surface coverage. Using this combined theoretical and experimental approach, we show that singly dispersed SPIONs remained stabilized in petroleum brine for up to 75 h with high surface density pAMPS*.

Computed Properties of C14H14O. Welcome to talk about 103-50-4, If you have any questions, you can contact Yu, J; Nap, RJ; Szleifer, I; Wong, JY or send Email.

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Ether – Wikipedia,
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HPLC of Formula: C14H14O. Recently I am researching about LIQUID-PHASE OXIDATION; TITANATE NANOTUBES; BIMETALLIC CATALYSTS; GOLD; NANOPARTICLES; STABILITY; CHEMISTRY; PALLADIUM; TIO2; SIO2, Saw an article supported by the Saudi Aramco; EPSRCUK Research & Innovation (UKRI)Engineering & Physical Sciences Research Council (EPSRC) [EP/K014749/1]. Published in ELSEVIER in AMSTERDAM ,Authors: Khawaji, M; Chadwick, D. The CAS is 103-50-4. Through research, I have a further understanding and discovery of Benzyl ether

The dependence of the selective oxidation catalytic activity of Au-Pd supported on titanate nanotubes on the catalyst preparation method has been investigated. The most active Au-Pd/Ti-NT catalyst for the selective oxidation of benzyl alcohol is shown to be that prepared using colloidal synthesis and immobilization with PVA as a stabilizer, which has markedly superior catalytic activity compared to catalysts prepared by deposition-precipitation, adsorption, and dry impregnation methods. Au-Pd NPs stabilized by graphene oxide sheets and immobilized on Ti-NT has also been studied and while not optimum shows promising catalytic activity. The superior catalytic activity of the catalysts prepared by colloidal synthesis is attributed to the high metal dispersion on the external surfaces of Ti-NT, the narrow particle size distribution, and the high degree of Au-Pd alloying. This work also demonstrates that in the adsorption method of preparation using HAuCl4.3H(2)O and PdCl2 precursors, the uptake of Pd ions in solution by Ti-NT is proportional to the sodium content in Ti-NT, which implies that Na is involved in an ion-exchange reaction with Pd ions.

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Ether – Wikipedia,
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Application In Synthesis of Benzyl ether. Manohar, A; Krishnamoorthi, C; Pavithra, C; Thota, N 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 published Magnetic Hyperthermia and Photocatalytic Properties of MnFe(2)O(4)Nanoparticles Synthesized by Solvothermal Reflux Method in 2021, Cited 44. 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.

Application In Synthesis of Benzyl ether. Welcome to talk about 103-50-4, If you have any questions, you can contact Manohar, A; Krishnamoorthi, C; Pavithra, C; Thota, N or send Email.

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Recently I am researching about ZSM-5 ZEOLITES; MODIFIED HZSM-5; MESOPOROSITY DEVELOPMENT; HYDROTHERMAL STABILITY; CONVERSION; CRACKING; PROPYLENE; AROMATIZATION; AROMATICS; ACIDITY, Saw an article supported by the Young Teacher Research Group Foundation of Northwest Normal university [NWNU-LKQN-16-6]. Published in WILEY-V C H VERLAG GMBH in WEINHEIM ,Authors: Tian, HF; Lv, JL; Liao, JK; Yu, L; Tang, XH; Zha, F; Chang, Y. The CAS is 103-50-4. Through research, I have a further understanding and discovery of Benzyl ether. COA of Formula: C14H14O

Hierarchically porous P substituted HZSM-5 (H[P, Al]-ZSM-5-AT-0.05 M ) was successfully synthesized by isomorphous substitution method with introduced P atoms into ZSM-5 zeolite frameworks followed by alkali treatment. H[P, Al]-ZSM-5-AT-0.05 M was characterized by XRD, ICP-OES, SEM, FT-IR, N-2 adsorption-desorption, NH3-TPD, XPS, Py-IR, and TG-DTA, respectively. The surface area, pore volume, particle size and P/Al (molar ratio) are 328 m(2).g(-1), 0.23 cm(3).g(-1), 563 nm and 0.027, respectively. The catalytic performance of H[P, Al]-ZSM-5-AT-0.05 M in coupling reaction of methanol with 1-butene was investigated in the fixed-bed reactor. On the condition of reaction temperature at 500 degrees C under atmosphere pressure, the main product is propylene with the selectivity and yield of 33.7% and 31.0%, respectively. Hydrogen transfer index was calculated to 0.24. Moreover, its diffusion limitation was investigated with the self-etherification of benzyl alcohol reaction. The value of Thiele modulus (eta) and effectiveness factor (phi) are 0.08 and 16.9, respectively.

Bye, fridends, I hope you can learn more about C14H14O, If you have any questions, you can browse other blog as well. See you lster.. COA of Formula: C14H14O

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An article Windowless thin layer electrochemical Raman spectroscopy of Ni-Fe oxide electrocatalysts during oxygen evolution reaction WOS:000554922000020 published article about CATALYSTS; IDENTIFICATION; OXIDATION in [Tang, Fei; Liu, Tian; Jiang, Wulv; Gan, Lin] Tsinghua Univ, Tsinghua Shenzhen Int Grad Sch, Shenzhen 518055, Peoples R China in 2020, Cited 29. SDS of cas: 103-50-4. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4

In-situ Raman spectroelectrochemistry is a powerful tool to understand the structures and reaction mechanisms of electrochemical interfaces yet usually suffers from a low sensitivity and detection efficiency. Herein, we develop a windowless thin layer electrochemical cell design to improve the detection efficiency of in-situ Raman spectroscopy for practical nanoscale electrocatalysts. This was achieved by perforating a hole in the optical window of the cell, which not only eliminates the refraction of light by the window but also induces a meniscus thin electrolyte layer on the working electrode, thus significantly improving the detection efficiency of Raman spectra. We successfully applied thismethod to conduct in-situ Raman spectroscopy of structural evolutions of two representative Ni-Fe oxide catalysts (layered double hydroxides and spinel oxides) during oxygen evolution reaction (OER) electrocatalysis. It was shown that both catalysts underwent surface transformation to oxyhydroxides and formed active oxygen species at OER relevant potentials. However, the extent of the surface transformation was much lower on the Ni-Fe spinel catalyst, accounting for its lower OER activity. We further show that adding a carbon support can promote the surface transformation of Ni-Fe spinel to oxyhydroxides, thus significantly increasing the electrocatalytic activities. The established windowless thin layer method provides a new way to conduct in-situ electrochemical Raman spectroscopy of a wide range of materials and may be also combined with surface-enhanced Raman spectroscopic methods.

SDS of cas: 103-50-4. Welcome to talk about 103-50-4, If you have any questions, you can contact Tang, F; Liu, T; Jiang, WL; Gan, L or send Email.

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SDS of cas: 103-50-4. In 2020 RSC ADV published article about VOLATILE ORGANIC-COMPOUNDS; MANGANESE OXIDES; PHASE-STRUCTURE; OXIDATION; SURFACE; ACID; VOCS; DEGRADATION; ADSORPTION; COMBUSTION in [Jiang, Hongbin; Xu, Xiaochen; Zhang, Rao; Zhang, Yun; Chen, Jie; Yang, Fenglin] Dalian Univ Technol, Key Lab Ind Ecol & Environm Engn, Minist Educ, Sch Environm Sci & Technol, Linggong Rd 2, Dalian 116024, Peoples R China in 2020, Cited 45. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4.

Nano ferrites (AFe(2)O(4), A = Zn, Co, Mn, Cu) were supported on the surface of gamma-Al2O3 support by hydrothermal synthesis to prepare a series of novel composite catalysts (AFe(2)O(4)/gamma-Al2O3) for catalytic ozonation for elimination of high concentration toluene at ambient temperature. The characterization results showed that the high-purity nano-AFe(2)O(4) particles were uniformly loaded on mesoporous gamma-Al2O3. Further, it was confirmed that among the several catalysts prepared, the amount of oxygen vacancies (O-vs), Lewis acid sites (LAS), and BrOnsted acid sites (BAS) of the ZnFe2O4/gamma-Al2O3 catalyst were the highest. This meant that the ZnFe2O4/gamma-Al2O3 catalyst had a strong adsorption capacity for toluene and ozone (O-3), and had a strong catalytic activity. When the temperature was 293 K and the space velocity was 1500 h(-1), the mol ratio of O-3 to toluene was 6, the degradation rate of toluene (600 mg m(-3)) can reach an optimum of 99.8%. The results of electron paramagnetic resonance (EPR) and Fourier infrared (FT-IR) proved superoxide radicals and hydroxyl radicals by catalytic ozonation. Moreover, the GC-MS analysis results indicated that the toluene degradation began with the oxidation of methyl groups on the benzene ring, eventually producing CO2 and H2O. After repeated experiments, the toluene degradation rate remained stable, and the residual content of O-3 in each litre of produced gas was less than 1 mg L-1, thereby indicating that the ZnFe2O4/gamma-Al2O3 catalyst had excellent reusability and showed great potential for the treatment of toluene waste gas.

SDS of cas: 103-50-4. Welcome to talk about 103-50-4, If you have any questions, you can contact Jiang, HB; Xu, XC; Zhang, R; Zhang, Y; Chen, J; Yang, FL or send Email.

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Ether – Wikipedia,
,Ether | (C2H5)2O – PubChem

An article Synthesis of Hierarchically Porous H[P, Al]-ZSM-5 and its Catalytic Performance in Coupling Transformation of Methanol with 1-Butene WOS:000458690100013 published article about ZSM-5 ZEOLITES; MODIFIED HZSM-5; MESOPOROSITY DEVELOPMENT; HYDROTHERMAL STABILITY; CONVERSION; CRACKING; PROPYLENE; AROMATIZATION; AROMATICS; ACIDITY in [Tian, Haifeng; Lv, Jinlong; Liao, Jiankang; Yu, Lei; Tang, Xiaohua; Zha, Fei; Chang, Yue] Northwest Normal Univ, Coll Chem & Chem Engn, Lanzhou 730070, Gansu, Peoples R China in 2019, Cited 43. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4. Category: ethers-buliding-blocks

Hierarchically porous P substituted HZSM-5 (H[P, Al]-ZSM-5-AT-0.05 M ) was successfully synthesized by isomorphous substitution method with introduced P atoms into ZSM-5 zeolite frameworks followed by alkali treatment. H[P, Al]-ZSM-5-AT-0.05 M was characterized by XRD, ICP-OES, SEM, FT-IR, N-2 adsorption-desorption, NH3-TPD, XPS, Py-IR, and TG-DTA, respectively. The surface area, pore volume, particle size and P/Al (molar ratio) are 328 m(2).g(-1), 0.23 cm(3).g(-1), 563 nm and 0.027, respectively. The catalytic performance of H[P, Al]-ZSM-5-AT-0.05 M in coupling reaction of methanol with 1-butene was investigated in the fixed-bed reactor. On the condition of reaction temperature at 500 degrees C under atmosphere pressure, the main product is propylene with the selectivity and yield of 33.7% and 31.0%, respectively. Hydrogen transfer index was calculated to 0.24. Moreover, its diffusion limitation was investigated with the self-etherification of benzyl alcohol reaction. The value of Thiele modulus (eta) and effectiveness factor (phi) are 0.08 and 16.9, respectively.

Welcome to talk about 103-50-4, If you have any questions, you can contact Tian, HF; Lv, JL; Liao, JK; Yu, L; Tang, XH; Zha, F; Chang, Y or send Email.. Category: ethers-buliding-blocks

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Ether – Wikipedia,
,Ether | (C2H5)2O – PubChem

An article Collective Behavior of Reconfigurable Magnetic Droplets via Dynamic Self-Assembly WOS:000455561200176 published article about PARTICLES; PROPULSION; MOTION in [Wang, Qianqian; Yang, Lidong; Wang, Ben; Yu, Edwin; Yu, Jiangfan; Zhang, Li] Chinese Univ Hong Kong, Dept Mech & Automat Engn, Shatin, Hong Kong, Peoples R China; [Zhang, Li] Chinese Univ Hong Kong, Chow Yuk Ho Technol Ctr Innovat Med, Shatin, Hong Kong, Peoples R China; [Zhang, Li] Chinese Univ Hong Kong, T Stone Robot Inst, Shatin, Hong Kong, Peoples R China; [Wang, Ben] Chinese Univ Hong Kong, Dept Biomed Engn, Shatin, Hong Kong, Peoples R China in 2019, Cited 42. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4. Recommanded Product: 103-50-4

Dynamic self-assembly represents an effective approach to form energy-dissipative structures by introducing interactions among multiple building blocks with a continuous energy supply. Time-dependent magnetic fields are treated as convenient energy inputs to construct such a dynamic self assembled system. The induced interactions can be further tuned by modulating the input field, resulting in a diversity of assembled patterns. However, formation of a functional dynamic pattern with controllability remains a challenge. Herein, we report the formation and pattern control of dynamically self-assembled magnetic droplets at an air liquid interface, energized by a precessing magnetic field. The formation process involves the assembly of magnetic microparticles into particle chains inside droplets, and then highly ordered patterns are generated by balancing the induced interactions among droplets. By modulating the input field, the interactions and collective behaviors are adjusted and the pattern can be reversibly tuned, i.e., expand and shrink, in a controlled manner. Furthermore, the assembled droplets are able to be steered in two-dimensional as an entity by applying a magnetic field gradient. Utilizing dynamic pattern control and steerability of the assembled structure, cargoes are successfully trapped, transported, and released in a noncontact fashion, indicating that the dynamically assembled droplets can act as a reconfigurable untethered robotic end-effector for manipulation.

Recommanded Product: 103-50-4. About Benzyl ether, If you have any questions, you can contact Wang, QQ; Yang, LD; Wang, B; Yu, E; Yu, JF; Zhang, L or concate me.

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Ether – Wikipedia,
,Ether | (C2H5)2O – PubChem

An article New insights into size-controlled reproducible synthesis of anisotropic Fe3O4 nanoparticles: the importance of the reaction environment WOS:000613921500006 published article about IRON-OXIDE NANOPARTICLES; SHAPE; NANOCUBES; NANORODS; FLOW in [Singh, Gurvinder] Univ Sydney, Sch Biomed Engn, Sydney, NSW 2008, Australia; [Myasnichenko, Vladimir S.] Tver State Univ, Sadovyi Per 35, Tver 170002, Russia; [Glomm, Wilhelm R.] SINTEF Ind, Dept Biotechnol & Nanomed, N-7465 Trondheim, Norway in 2020, Cited 33. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4. Computed Properties of C14H14O

Synthesis of size-controlled anisotropic magnetite (Fe3O4) nanoparticles allows designing next-generation magnetic nanosystems with predetermined magnetic properties suited for particular applications in the biomedical, information, and environment fields. In this work, we report a reproducible and economical approach for fabricating anisotropic Fe3O4 nanoparticles via the thermal decomposition method. Controlling the reaction environment, i.e. the degassing pressure, is essential to obtain the reproducible synthesis of anisotropic Fe3O4 nanoparticles along with monodispersity in the size and shape. At low degassing pressure, Fe3O4 nanocubes are formed, and an increase in degassing pressure leads to the formation of Fe3O4 octahedral nanoparticles. To achieve good reproducibility (with respect to size and shape) between different batches, our finding reveals the importance of maintaing the same degassing pressure. The size of the anisotropic Fe3O4 nanoparticles can be varied by changing the heating rate and the solvent amount. The amount of solvent has also an influence on the shape of the nanoparticles, and Fe3O4 nanoparticles of flower morphology are obtained at a high solvent amount. The work also provides new conceptual fundamental insights into understanding the growth mechanism of anisotropic Fe3O4 nanoparticles and thus advancing the field of materials chemistry for rationally designing anisotropic nanoparticles with tunable magnetic properties.

Computed Properties of C14H14O. Welcome to talk about 103-50-4, If you have any questions, you can contact Singh, G; Myasnichenko, VS; Glomm, WR or send Email.

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An article Ultra-sensitive facile CdS nanocrystals-based electrochemical biosensor to detect myocardial infarction marker troponin WOS:000647794800006 published article about REDUCED GRAPHENE OXIDE; LABEL-FREE APTASENSOR; ONE-POT SYNTHESIS; QUANTUM DOTS; HIGH-QUALITY; GOLD NANOPARTICLES; CADMIUM-SULFIDE; CARBON NANOTUBE; IMMUNOSENSOR; CDTE in [Pourali, Ali; Barar, Jaleh] Tabriz Univ Med Sci, Fac Pharm, Dept Pharmaceut, Tabriz, Iran; [Pourali, Ali; Barar, Jaleh; Rashidi, Mohammad Reza] Tabriz Univ Med Sci, Res Ctr Pharmaceut Nanotechnol, Biomed Inst, Tabriz, Iran; [Pavon-Djavid, Graciela] Univ Paris13, Translat Vasc Res Lab, INSERM U1148, PRES,Sorbonne Paris Cite, Paris, France; [Omidi, Yadollah] Nova Southeastern Univ, Coll Pharm, Dept Pharmaceut Sci, Ft Lauderdale, FL 33305 USA in 2021, Cited 77. SDS of cas: 103-50-4. The Name is Benzyl ether. Through research, I have a further understanding and discovery of 103-50-4

Here, we report on a reproducible one-pot synthesis of high-quality and monodispersed CdS semiconducting nanocrystals (NCs) by mixing precursors cadmium acetate and elemental sulfur into the new solvent system of dibenzyl ether and oleylamine without using any extra reagent or precursor activator. The NCs (5 nm) exhibited a dominant band-edge emission with a good photoluminescence quantum yield of 13.76% without trap emission. The CdS NCs were characterized using UV?Vis and photoluminescence spectroscopy, electron microscopy, X-ray diffraction, and Fourier transform infrared spectroscopy. The practical efficiency of the synthesized NCs was proved by applying the synthesized CdS NCs as the tracer in the engineering of an immunosandwich biosensor to evaluate the cardiac troponin (cTn) marker for the diagnosis and monitoring of myocardial infarction (MI). The biosensor revealed significant analytical efficiency with the limit of detection of 2 ng L-1 and the linear dynamic range of 5?1000 ng L-1, which is lower than the existing cutoff values (13?20 ng L-1). Having capitalized on the anodic stripping voltammetry method, the screen-printed biosensor could efficiently detect the cTn markers. Therefore, the biosensor is proposed to be used in clinical settings for fast, sensitive, and accurate monitoring of cTn markers.

Welcome to talk about 103-50-4, If you have any questions, you can contact Pourali, A; Barar, J; Rashidi, MR; Pavon-Djavid, G; Omidi, Y or send Email.. SDS of cas: 103-50-4

Reference:
Ether – Wikipedia,
,Ether | (C2H5)2O – PubChem