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Academic literature on the topic 'Acetylide carbides'

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Published: 4 June 2021

Last updated: 1 February 2022

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Journal articles on the topic "Acetylide carbides"

Nylén, Johanna, Sumit Konar, Peter Lazor, Daryn Benson, and Ulrich Häussermann. "Structural behavior of the acetylide carbides Li2C2 and CaC2 at high pressure." Journal of Chemical Physics 137, no. 22 (2012): 224507. http://dx.doi.org/10.1063/1.4770268.

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Karen, Pavel, and Bohumil Hájek. "Contamination by oxygen and nitrogen during the high-temperature synthesis of rare earth element carbides and the hydrocarbon contents of their hydrolysis products." Collection of Czechoslovak Chemical Communications 51, no. 7 (1986): 1411–18. http://dx.doi.org/10.1135/cccc19861411.

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Contamination of reaction mixtures of rare earth elements and carbon by air oxygen and nitrogen at high temperatures results in changes in the phase composition of the products, which in turn lead to changes in the composition of the hydrolysis gas. La, Ce, Pr, and Nd give carbide-oxides Ln2O2C2 of acetylide nature, in concentrations increasing with increasing extent of contamination. For the smaller rare earth elements from Dy, Ho to Lu, the contamination leads to methanide-type carbide-oxides (or nitrides) M(C, N, O, ). A slight contamination of mixtures of the metals with carbon which are somewhat carbon-deficient with respect to the 1 : 2 composition gives rise to a phase which evolves a gas containing C3 hydrocarbons in a high concentration (nearly 50%), while its methane content is very low. The stability of this allylenide phase, which is not the M15C19 carbide, increases in the direction towards Lu to an extent such that the phase forms even besides higher amounts of the carbide-oxide-nitride, i.e., also on extensive contamination.

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Yu, Yue, Wei Huang, Yang Chen, Bingjie Gao, Wanqing Wu, and Huanfeng Jiang. "Calcium carbide as the acetylide source: transition-metal-free synthesis of substituted pyrazoles via [1,5]-sigmatropic rearrangements." Green Chemistry 18, no. 24 (2016): 6445–49. http://dx.doi.org/10.1039/c6gc02776h.

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Zhou, Shuzhen, Lihua Kang, Zhu Xu, and Mingyuan Zhu. "Catalytic performance and deactivation of Ni/MCM-41 catalyst in the hydrogenation of pure acetylene to ethylene." RSC Advances 10, no. 4 (2020): 1937–45. http://dx.doi.org/10.1039/c9ra09878j.

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BALDAEV, Lev Kh, Boris G. KHAMITSEV, Sergey L. BALDAEV, and Mikhail V. PROKOFIEV. "THE FEATURES OF DETONATION SPRAYING TECHNOLOGY FOR TUNGSTEN CARBIDE BASED COATINGS." Periódico Tchê Química 16, no. 32 (2019): 739–54. http://dx.doi.org/10.52571/ptq.v16.n32.2019.757_periodico32_pgs_739_754.pdf.

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The authors studied the effect of key parameters of detonation spraying process on tungsten carbidebased coatings and their mechanical properties, microstructure, and phase composition. Two main tasks are solved when developing the technology for spraying the carbide-containing materials. The relationship is established between the phase composition of tungsten-based coatings and their strength, hardness, and substrate adhesion. It was established that the WC dissolution in the metal phase promotes the increase of substrate adhesion as well as strength and hardness of coating material. A procedure of spraying coatings in the reduction mode is proposed: i.e., using working gas mixtures with excess acetylene. It prevents the decarbonization of WC carbides under the action of detonation products and environment. The phase composition heterogeneity (both along with the layer thickness and along the spraying spot diameter) is established. This depends on a complex of factors that determine the intensity of heat removal from the area of layer formation. For optimizing the structure and the mechanical characteristics of the coating, we need to control decarbonization of carbide component (WC) and formation of Ni (W) solid solution at different stages of spraying. Even a minor departure from carbon content leads to either appearance of graphite or formation of the fragile phase (Co3W3C), thus strongly reducing the mechanical properties.

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Reau, Adrien, Benoit Guizard, Cyrille Mengeot, Loic Boulanger, and François Ténégal. "Large Scale Production of Nanoparticles by Laser Pyrolysis." Materials Science Forum 534-536 (January 2007): 85–88. http://dx.doi.org/10.4028/www.scientific.net/msf.534-536.85.

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Laser pyrolysis is a very suitable gas-phase process for the synthesis of a wide range of nanoparticles at laboratory scale. The principle of the method is based on the decomposition of gaseous or liquid reactants by a high power CO2 laser followed by a quenching effect. The literature reports the possibility to produce carbides, nitrides, oxides, metals and composites nanoparticles by this process. This paper reports a study of the effect of the laser intensity (using an innovative optical system) and of the gas flow rates on the characteristics (size and structure) of silicon carbide (SiC) nanoparticles produced at pilot scale (up to 1.13 kg/h) by using a mixture of silane (SiH4) and acetylene (C2H2). It has been shown that the decrease of the gas flow rate favors the increase of the mean grain size of the particles and that the increase of the laser intensity seems to provoke an increase of the mean crystal size and/or crystal number.

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Mortier, Jacques, Michel Vaultier, François Carreaux, and Jean-Marc Douin. "Disproportionation of Monolithium Acetylide into Dilithium Carbide and Acetylene Is a Reversible Reaction in Tetrahydrofuran at 0 °C." Journal of Organic Chemistry 63, no. 10 (1998): 3515–16. http://dx.doi.org/10.1021/jo980331i.

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Kang, Lihua, Bozhen Cheng, and Mingyuan Zhu. "Pd/MCM-41 catalyst for acetylene hydrogenation to ethylene." Royal Society Open Science 6, no. 11 (2019): 191155. http://dx.doi.org/10.1098/rsos.191155.

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This study aims to produce ethylene using the calcium carbide route, acetylene from calcium carbide and then selective hydrogenation of the high-concentration acetylene to ethylene. A series of catalysts with different supports, such as Al 2 O 3 , SiO 2 and MCM-41, were prepared using the ethylene glycol reduction method and their catalytic properties for high-concentration acetylene hydrogenation of calcium carbide to ethylene were studied by transmission electron microscopy, X-ray powder diffraction and thermogravimetry, among others. The results show that the small particle size and uniform dispersion of palladium (Pd) particles in the Pd/MCM-41 catalyst produced the highest ethylene yield of 62.09%. Then, the conditions for the basic reaction, such as reaction temperature and space velocity, were optimized using MCM-41 as a support. The yield of ethylene after condition optimization was as high as 82.87%, while the loading of Pd was 0.1%.

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Jimenez-Orozco, Carlos, Elizabeth Florez, Andres Moreno, Ping Liu та Jose A. Rodriguez. "Acetylene adsorption on δ-MoC(001), TiC(001) and ZrC(001) surfaces: a comprehensive periodic DFT study". Physical Chemistry Chemical Physics 19, № 2 (2017): 1571–79. http://dx.doi.org/10.1039/c6cp07400f.

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MORTIER, J., M. VAULTIER, F. CARREAUX, and J. M. DOUIN. "ChemInform Abstract: Disproportionation of Monolithium Acetylide into Dilithium Carbide and Acetylene Is a Reversible Reaction in Tetrahydrofuran at 0 °C." ChemInform 29, no. 39 (2010): no. http://dx.doi.org/10.1002/chin.199839036.

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Dissertations / Theses on the topic "Acetylide carbides"

Konar, Sumit. "Structure and Phase Stability of CaC2 Polymorphs, Li2C2 and Lithium Intercalated Graphite : A Revisit with High Pressure Experiments and Metal Hydride–Graphite Reactions." Doctoral thesis, Stockholms universitet, Institutionen för material- och miljökemi (MMK), 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-120109.

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Alkali (A) and alkaline earth (AE) metals can form carbides and intercalated graphites with carbon. The carbides mostly represent acetylides which are salt-like compounds composed of C22− dumbbell anions and metal cations. Both the acetylide carbides and intercalated graphites are technologically important. Superconductivity has been observed in several intercalated graphites such as KC8 and CaC6. Li intercalated graphites are a major ingredient in Li ion batteries. CaC2 is an important commodity for producing acetylene and the fertilizer CaCN2. In spite of the extensive research on A–C and AE–C compounds, phase diagrams are largely unknown. The thermodynamic and kinetic properties of both carbides and intercalalated graphites are discussed controversially. Recent computational studies indicated that well-known carbides, like CaC2 and BaC2, are thermodynamically unstable. Additionally, computational studies predicted that acetylide carbides will generally form novel polymeric carbides (polycarbides) at high pressures. This thesis is intended to check the validity of theoretical predictions and to shed light on the complicated phase diagrams of the Li–C and the Ca–C systems. The Li–C and the Ca–C systems were investigated using well-controllable metal hydride–graphite reactions. Concerning the Li–C system, relative stabilities of the metastable lithium graphite intercalation compounds (Li-GICs) of stages I, IIa, IIb, III, IV and Id were studied close to the competing formation of the thermodynamically stable Li2C2. The stage IIa showed distinguished thermal stability. The phase Id showed thermodynamic stability and hence, was included in the Li–C phase diagram. In the Ca–C system, results from CaH2–graphite reactions indicate compositional variations between polymorphs I, II and III. The formation of CaC2 I was favored only at 1100 ◦C or higher temperature and with excess calcium, which speculates phase I as carbon deficient CaC2−δ . To explore the potential existence of polycarbides, the acetylide carbides Li2C2 and CaC2 were investigated under various pressure and temperature conditions, employing diamond anvil cells for in situ studies and multi anvil techniques for large volume synthesis. The products were characterized by a combination of diffraction and spectroscopy techniques. For both Li2C2 and CaC2, a pressure induced structural transformation was observed at relatively low pressures (10–15 GPa), which was followed by an irreversible amorphization at higher pressures (25–30 GPa). For Li2C2 the structure of the high pressure phase prior to amorphization could be elucidated. The ground state with an antifluorite Immm structure (coordination number (CN) for C22− dumbbells = 8) transforms to a phase with an anticotunnite Pnma structure (CN for C22− dumbbells = 9). Polycarbides, as predicted from theory, could not be obtained. At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: Manuscript.

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Zhao, Tianqi, and 趙天騏. "Catalytic formation of polycyclic aromatic hydrocarbons from acetylene over silicon carbide." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2014. http://hdl.handle.net/10722/208605.

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In this research, silicon carbide (SiC) has been confirmed to be catalytically active for the formation of polycyclic aromatic hydrocarbons (PAHs) from acetylene (C2H2). Aromatization reactions of C2H2wasexamined by gas-phase experiments in vacuo using α-SiC and β-SiC respectively, characterized with in situ time-of-flight mass spectrometry (TOF-MS)in which abundant information of intermediates was record-ed. The significance of this catalytic reaction lies in the fact that the reagents –acety-lene, the catalyst –SiC, and the PAH products are all coexisting in interstellar environment and this reaction indicates one of the possible channels for the formation of PAHs. Reaction products obtained were further confirmed by gas chromatography mass spectrometry (GCMS). The SiC catalysts were analyzed before and after the re-action using high-resolution transmission electron microscopy (HRTEM), X-ray dif-fraction(XRD) and derivative thermogravimetry (DTG).Results of experiments indicate that SiC catalyzes aromatization of C2H2starting from 400℃with activities dependent on temperature and notable difference has been observed between α and β crystal forms. For a long-time reaction at a particular temperature, the changes in productions of the four major PAH products, i.e. naphthalene, anthracene, phenan-threne and pyrene showed the transition from small PAHs to larger PAHs. Carbon deposition on the catalyst depends on temperature, which explains the deactivation of SiC catalyst at high temperatures. Based on experimental results, two new mechanisms for activation of acetylene on SiC that are closely connected with SiC surface dangling bonds have been proposed: 1)breakage of C-H bond by interaction of H with dangling bonds; 2) radical addition of hydrocarbon to form a surface ring structure which is then desorbed from the surface. Subsequent ring-growth process is suggested to follow the H abstraction / C2H2addition (HACA) mechanism. The activation effect of SiC dangling bonds was then extended to aromatization of propylene (C3H6) and propane (C3H8) starting from 650℃ and 750 ℃respectively in similar conditions. Comparison among reactions of C2H2, C3H6and C3H8provides further evidence for the proposed mechanism. published_or_final_version Chemistry Master Master of Philosophy

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Rintelman, Jamie Marie. "Quantum Chemistry, and Eclectic Mix From Silicon Carbide to Size Consistency." Washington, D.C. : Oak Ridge, Tenn. : United States. Dept. of Energy. Office of Science ; distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 2004. http://www.osti.gov/servlets/purl/835379-0CKsBH/webviewable/.

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19 Dec 2004. Published through the Information Bridge: DOE Scientific and Technical Information. "IS-T 1948" Jamie Marie Rintelman. 12/19/2004. Report is also available in paper and microfiche from NTIS.

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Chiang, Shun Jean, and 蔣舜人. "Scission of Coordinated Acetylide Ligand: Characterization and Reactivity Studies of WRu4 and WRu5 Carbido-Alkylidyne Clusters." Thesis, 1994. http://ndltd.ncl.edu.tw/handle/15192827127359921487.

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Books on the topic "Acetylide carbides"

Clemmer, Gregg S. American Miners' carbide lamps: A collector's guide to American carbide mine lighting. Westernlore Press, 1987.

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Book chapters on the topic "Acetylide carbides"

Randall, P. J., J. R. Freney, J. Hodgkin, and T. C. Morton. "Effect of acetylene generated from carbide on nitrification in soil, yield of irrigated maize and growth of maize seedlings." In Plant Nutrition. Springer Netherlands, 2001. http://dx.doi.org/10.1007/0-306-47624-x_376.

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Conference papers on the topic "Acetylide carbides"

Abou-Hanna, Jeries, John Carlson, and Jose´ Lozano. "Chemistry Consistency Analysis of Tungsten-Doped Diamond-Like Carbon (DLC) Coatings." In ASME 2005 International Mechanical Engineering Congress and Exposition. ASMEDC, 2005. http://dx.doi.org/10.1115/imece2005-79136.

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Tungsten-doped diamond-like carbon (DLC) coatings have been magnetron sputtered onto 52100 steel with chromium and chromium/tungsten carbide dual interlayers using a Hauzer Techno Coating HTC 1200 4 UBM unbalanced magnetron deposition system. Internal fixturing to the deposition chamber rotates parts to be coated with a two degree of freedom system. By design, at certain intervals during the deposition, the acetylene flow is linearly altered to change film characteristics throughout the film. AES sputter depth profiling analysis shows that the fixture rotational system, designed to uniformly coat parts, causes localized chemistry variations in the coating. For a given location, the AES depth profile also clearly documents the intervals when acetylene flow was constant and when the flow was ramped.

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Academic literature on the topic 'Acetylide carbides'

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Journal articles on the topic "Acetylide carbides"

Dissertations / Theses on the topic "Acetylide carbides"

Books on the topic "Acetylide carbides"

Book chapters on the topic "Acetylide carbides"

Conference papers on the topic "Acetylide carbides"