Relevant bibliographies by topics / Cobalt oxide

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Cobalt oxide'

Author: Grafiati
Published: 4 June 2021
Last updated: 20 February 2023

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Journal articles on the topic "Cobalt oxide"

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Mammadyarova, S. J. "SYNTHESIS AND CHARACTERIZATION OF COBALT OXIDE NANOSTRUCTURES. A BRIEF REVIEW." Azerbaijan Chemical Journal, no. 2 (June 29, 2021): 80–93. http://dx.doi.org/10.32737/0005-2531-2021-2-80-93.

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The newest achievement in the synthesis of cobalt oxide nanoparticles are considered. Cobalt oxide nanoparticles have attracted a great attention due to their uncommon properties and application in a supercapacitor, optoelectronic device, Li-ion battery gas sensor and electrochromic devices. Recently, nanostructured transition metal oxides with valuable properties have become a new class of materials for many technological fields. Cobalt oxide nanoparticles obtained from various precursors show different size distribution as well as different optical, electrical, magnetic, and electrochemical properties. A reduction in particle size to nanometer-scale leads to changes in properties compared to bulk ones due to quantum size effects. Depending on the application area, the choice of an appropriate synthesis method for nanoparticles with desirable properties is a crucial factor. This work aims to provide additional information on the synthesis methods and properties of cobalt oxide nanoparticles
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Lendzion-Bieluń, Zofia, Roman Jędrzejewski, and Walerian Arabczyk. "The effect of aluminium oxide on the reduction of cobalt oxide and thermostabillity of cobalt and cobalt oxide." Open Chemistry 9, no. 5 (October 1, 2011): 834–39. http://dx.doi.org/10.2478/s11532-011-0059-x.

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AbstractDuring precipitation and calcination at 200°C nanocrystalline Co3O4 was obtained with average size crystallites of 13 nm and a well developed specific surface area of 44 m2 g−1. A small addition of a structural promoter, e.g. Al2O3, increases the specific surface area of the cobalt oxide (54 m2 g−1) and decreases the average size of crystallites (7 nm). Al2O3 inhibits the reduction process of Co3O4 by hydrogen. Reduction of cobalt oxide with aluminium oxide addition runs by equilibrium state at all the respective temperatures. The apparent activation energy of the recrystallization process of the nanocrystalline cobalt promoted by the aluminium oxide is 85 kJ mol−1. Aluminium oxide improves the thermostability of both cobalt oxide and the cobalt obtained as a result of oxide phase reduction.
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Kesavan, V., D. Dhar, Y. Koltypin, N. Perkas, O. Palchik, A. Gedanken, and S. Chandrasekaran. "Nanostructured amorphous metals, alloys, and metal oxides as new catalysts for oxidation." Pure and Applied Chemistry 73, no. 1 (January 1, 2001): 85–91. http://dx.doi.org/10.1351/pac200173010085.

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The oxidation of cyclohexane with molecular oxygen in the presence of isobutyraldehyde catalyzed by nanostructured iron and cobalt oxides and iron oxide supported on titania has been studied. Nanostructured cobalt oxide on MCM-41 is found to be efficient for catalytic aerobic epoxidation of olefins.
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Hacınecipoğlu, Ayşe V., Metin Gençten, Melih B. Arvas, and Yucel Sahin. "Preparation of Spinel Form Co3O4 and CoO2 Thin Film at Low Temperature by Electrochemical Method as a Thin Film Oxide Layer." ECS Journal of Solid State Science and Technology 11, no. 8 (August 1, 2022): 081014. http://dx.doi.org/10.1149/2162-8777/ac8a6f.

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In this work, thin films of cobalt oxides (CoO2, Co3O4) were prepared using the electrochemical method on the pencil graphite and indium tin oxide surfaces. The substrate effect in the production of both oxides has been studied in detail. While Co3O4 accumulates on the pencil graphite’s surface, CoO2 formation was observed on the indium tin oxide. The characterization of the cobalt oxides was carried out using the X-ray diffraction, Atomic force microscope, and Scanning electron microscope. In this context, the cobalt oxide crystal structure in the range of (−1.0 V)–(+1.9 V) was synthesized on different substrates and at extremely low temperatures (20 °C to 25 °C), using the cyclic voltammetry method, which is a simple one-stage way. Calculated band gap value for ITO/CoO2 as 2.5 eV shows a potential use of this electrode in solar cell applications.
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Badding, John V. "Cobalt oxide layers." Nature Materials 2, no. 4 (April 2003): 208–10. http://dx.doi.org/10.1038/nmat868.

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Young, Jay A. "Cobalt(II) Oxide." Journal of Chemical Education 78, no. 10 (October 2001): 1328. http://dx.doi.org/10.1021/ed078p1328.

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Sakhnenko, Nikolay, Maryna Ved’, and Ann Karakurkchi. "PECULIARITIES OF COBALT CONTAINING OXIDE COATINGS FORMATION ON SILUMIN." Ukrainian Chemistry Journal 86, no. 1 (February 5, 2020): 12–21. http://dx.doi.org/10.33609/0041-6045.86.1.2020.12-21.

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The process of mixed oxide coatings formation on a high-silicon aluminum alloy in a cobalt-containing pyrophosphate electrolyte by the plasma-electrolytic oxidation (PEO) method is studied. It was shown that AL25 chemical composition heterogeneity causes the consumption of a part of the anode current to homogenize the treated surface, which is reflected in minimizing the content of doping components at the initial processing stage. It was established that the growth of mixed oxides Al2O3·CoxOy relative mass is a function of time with a maximum at 55 minutes. The chemical, phase composition and surface morphology of the formed oxide layer depend on the oxidation time. The catalytic component content in the surface oxides varies from 0.2 to 23.3 at.% with an increase in processing time of 10 to 60 minutes. Maximum cobalt incorporation into the oxide layer occurs at PEO of 35–50 minutes, while the silicon content in the surface layers does not exceed 2 at.%, which is favorable for the catalytic properties. The cobalt oxide, preferably Co3O4, incorporation in the alumina α-Al2O3 matrix is visualized by the blue-violet color steroidal surface structures in the sites of micro-arc discharges. The alumina cobalt oxide mixture layers are characterized by a developed micro-globular surface which consists of spheroid conglomerate with an average size of 1–2 microns. There are some amorphous phases in the structure of mixed oxides due to non-equilibrium PEO conditions. The set of detected factors is a prerequisite for the high catalytic properties of oxide coatings. A promising field of Al2O3·CoxOy systems application is intra-cylinder catalysis in internal combustion engines.
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Aitugan, A. N., S. K. Tanirbergenova, Ye Tileuberdi, and D. Tugelbayeva. "MODIFIED COBALT CATALYSTS FOR HYDROGENATION OF HYDROCARBONS." Горение и Плазмохимия 18, no. 3 (September 29, 2020): 156–61. http://dx.doi.org/10.18321/cpc364.

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This work is devoted to the study of the influence of aluminum oxide content on the activity of cobalt catalysts in the reaction of selective hydrogenation of acetylene to ethylene. Cobalt catalysts modified with aluminum oxide having size between 50 to 500 nm were synthesized. Chemical contents and structure of carrier were investigated. The catalytic activity of 5 % Со /clay and 5% Co/SiAl catalysts at acetylene hydrogenation was studied in the temperature range 100-180 , with a ratio of 1:2 of acetylene and hydrogen. The ethylene yield is 87.8 % in modifying the cobalt catalyst with aluminum oxide, whereas with the same process parameters, the ethylene yield is 72 %. 5 % Cobalt catalysts modified with 1.5 % aluminum oxides are more active in hydrogenation acetylene process than 5 % Со /clay 450 ℃ catalyst.
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Koshtyal, Yury, Ilya Mitrofanov, Denis Nazarov, Oleg Medvedev, Artem Kim, Ilya Ezhov, Aleksander Rumyantsev, Anatoly Popovich, and Maxim Yu Maximov. "Atomic Layer Deposition of Ni-Co-O Thin-Film Electrodes for Solid-State LIBs and the Influence of Chemical Composition on Overcapacity." Nanomaterials 11, no. 4 (April 2, 2021): 907. http://dx.doi.org/10.3390/nano11040907.

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Nanostructured metal oxides (MOs) demonstrate good electrochemical properties and are regarded as promising anode materials for high-performance lithium-ion batteries (LIBs). The capacity of nickel-cobalt oxides-based materials is among the highest for binary transition metals oxide (TMOs). In the present paper, we report the investigation of Ni-Co-O (NCO) thin films obtained by atomic layer deposition (ALD) using nickel and cobalt metallocenes in a combination with oxygen plasma. The formation of NCO films with different ratios of Ni and Co was provided by ALD cycles leading to the formation of nickel oxide (a) and cobalt oxide (b) in one supercycle (linear combination of a and b cycles). The film thickness was set by the number of supercycles. The synthesized films had a uniform chemical composition over the depth with an admixture of metallic nickel and carbon up to 4 at.%. All samples were characterized by a single NixCo1-xO phase with a cubic face-centered lattice and a uniform density. The surface of the NCO films was uniform, with rare inclusions of nanoparticles 15–30 nm in diameter. The growth rates of all films on steel were higher than those on silicon substrates, and this difference increased with increasing cobalt concentration in the films. In this paper, we propose a method for processing cyclic voltammetry curves for revealing the influence of individual components (nickel oxide, cobalt oxide and solid electrolyte interface—SEI) on the electrochemical capacity. The initial capacity of NCO films was augmented with an increase of nickel oxide content.
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Eliseeva, E. A., S. L. Berezina, I. G. Gorichev, L. E. Slynko, and V. N. Goryacheva. "The Initial Surface Structure of Co3O4 as a Factor of Influence on Kinetic Features of the Dissolution of the Solid Phase." Herald of the Bauman Moscow State Technical University. Series Natural Sciences, no. 4 (91) (August 2020): 138–44. http://dx.doi.org/10.18698/1812-3368-2020-4-138-144.

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Due to the depletion of natural reserves of cobalt-containing ores, it is urgent to optimize the processes of cobalt replenishment, based on the leaching of its compounds, processing of industrial waste, regeneration of cobalt compounds from catalysts. The kinetic characteristics of the dissolution of metal oxides are influenced by the initial state of their surface structure, which requires the accumulation of experimental material and individual targeted studies. The paper presents the results of an experimental study of the surface structure of industrial Co3O4 cobalt oxide samples. The studies were carried out by electron microscopy and X-ray phase analysis and revealed the size and shape of the Co3O4 particles and the nature of their surface distribution. The correspondence of experimental and theoretical data has been established, Co3O4 cobalt oxide has been identified as an α-form of the cubic crystal system. The data obtained are of interest in the study of the effect of the surface characteristics of the solid phase of Co3O4 cobalt oxide on the dissolution kinetics under the chemical and electrochemical influence
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Dissertations / Theses on the topic "Cobalt oxide"

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Shukri, Rashid Jaber Asa'd. "Supported oxide catalysts : cobalt oxide and molybdena on titania." Thesis, Brunel University, 1989. http://bura.brunel.ac.uk/handle/2438/7385.

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TiO2 supported MoO3 catalysts were prepared by aqueous impregnation of low area anatase (10 m2g-1) with solutions of (NH4)6Mo7024,4H20 (MT/C series), and H2[Mo03(C204)].H20 (MOT /C series), Three series of CoOx/Ti02 catalysts were fabricated by aqueous impregnation of the same support with solutions of Co(N03)2,6H20 (CT/C series), and Co(CH3COO)2.4H20 (CAT/C series), and by homogeneous precipitation using Co(N03)2,6H20 (CT/HP series), CoO and Mo03 were deposited on Degussa P-25 (55 m2g-1) by aqueous impregnation using (NH4)6Mo7024,4H20 and Co(N03)2,6H20 in three ways: ( i) CoO impregnated first, Mo03 second (CMT series); (ii) Mo03 impregnated first, CoO second (MCT series); and (iii) CoO and Mo03 together (CMTg series). The catalysts were characterized by laser Raman spectroscopy (LRS) , temperature-programmed reduction (TPR) , X-ray photoelectron spectroscopy (XPS), and transmission electron microscopy (TEM), Monolayer coverage by XPS was independent of the precursor for the MoOx/Ti02 catalysts, but a function of the method of preparat ion and the precursor for the CoOx /Ti02 catalysts. XPS results for the CMTg series differed from those for the CMT and MCT series, suggesting different surface species had been formed by varying the mode of impregnation, Phase diagrams relating semiquantitatively to the oxide contents are presented. 2-propanol decomposition was studied to probe the acid-base properties of the catalysts, Ti02 and Mo03 exhibi ted dehydration activity, whereas CoO showed dehydrogenation activity, All the supported catalysts gave activation energies for dehydration higher than dehydrogenation. In the sub-monolayer region, the catalytic activity for dehydration was in the order: MCT > CMTg > CMT > MT/C > CT/C, while the selectivity remained almost unchanged, In the monolayer region, the activity was: MT/C > CMT > CMTg > MCT > CT/C and the selectivity increased compared with the sub-monolayer region. In the four-monolayer reg ion, the activity decreased compared with the sub-monolayer and monolayer regions, but the selectivity increased relative to the previous two regimes. "Compensation effect 0, plots revealed different types of active centres responsible for dehydration and dehydrogenation processes in the MoOx /Ti02 and CoO-Mo03/Ti02 catalysts, while active centres were almost identical with the CoOx /Ti02 system.
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Yar-Mukhamedova, G. Sh, M. V. Ved, A. V. Karakurkchi, and N. D. Sakhnenko. "Mixed alumina and cobalt containing plasma electrolytic oxide coatings." Thesis, IOP Publishing Ltd, 2017. http://repository.kpi.kharkov.ua/handle/KhPI-Press/30798.

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Principles of plasma electrolytic oxidation of the AL25 aluminum alloy in diphosphate alkali solutions containing cobalt(2+) cations are discussed. It has been established that a variation in the concentration of the electrolyte components provides the formation of mixed-oxide coatings consisting of the basic matrix materials and the cobalt oxides of different content. An increase in the cobalt oxide content in the coating is achieved by the variation in electrolysis current density as well as the treatment time due to both the electrochemical and thermo-chemical reactions at substrate surface and in spark region. Current density intervals that provide micro-globular surface formation and uniform cobalt distribution in the coating are determined. The composition and morphology of the surface causes high catalytic properties of synthesized materials, which confirmed the results of testing in model reaction CO and benzene oxidation as well as fuel combustion for various modes of engine operation.
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Pachuta, Kevin. "Accessing Controlled Nanostructures from Lithium Cobalt Oxide." Case Western Reserve University School of Graduate Studies / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=case1607704644249276.

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Owings, Robert Reed. "Polarons and impurities in nickel cobalt oxide." [Gainesville, Fla.] : University of Florida, 2003. http://purl.fcla.edu/fcla/etd/UFE0002242.

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Haffer, Stefanie [Verfasser]. "Mesoporous spinel-type cobalt oxide, cobalt ferrite and alumina by nanocasting / Stefanie Haffer." Paderborn : Universitätsbibliothek, 2014. http://d-nb.info/1046651994/34.

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Hao, Yalin. "Continuous Hydrothermal Production of Iron Oxide (Fe[subscript 2]0[subscript 3]) and Cobalt Oxide (Co[subscript 3]O[subscript 4])." Thesis, Georgia Institute of Technology, 2002. http://hdl.handle.net/1853/11217.

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Wong, Lai Ally, and 王麗. "Electronic spectroscopy of cobalt monohalides and nitric oxide." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2003. http://hub.hku.hk/bib/B29468127.

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Freese, Susan Delia. "A study of lithium/cobalt oxide electrochemical cells." Master's thesis, University of Cape Town, 1985. http://hdl.handle.net/11427/17048.

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Bibliography: pages 109-117.
The electrochemical behaviour of high temperature Li-Al/LiCl, KCl/cobalt oxide cells was investigated. Powder X-ray diffraction techniques were used for the qualitative analysis of the phases generated during charge and discharge of the cells.
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Åkre, Torjus. "Electrowinning of Cobalt from Chloride Solutions: Anodic Deposition of Cobalt Oxide on DSA®." Doctoral thesis, Norwegian University of Science and Technology, Department of Materials Technology, 2008. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-2200.

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Chodosovskaja, Ala. "Influence of cobalt oxide nanostructuring on electrochemical pseudo-capacitance." Doctoral thesis, Lithuanian Academic Libraries Network (LABT), 2012. http://vddb.laba.lt/obj/LT-eLABa-0001:E.02~2012~D_20120131_092732-72596.

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Design of high efficiency energy accumulators has recently become an important issue of science and technology. Electrochemical capacitors are distinguished for a greater power, a longer self-discharge time and a greater number of work cycles as compared to those of traditional electrochemical batteries. Effective supercapacitors are mainly produced of RuO2, which is distinguished from other metals for its nearly highest specific capacity, however its practical application is limited by its high price, therefore efforts are under way to find cheaper substitutes. Recently cobalt oxide has been intensively studied. It is important to find economically effective and simple methods which will make it possible to increase the pseudocapacities of cobalt oxides. The conditions of electrochemical cobalt deposition, under which the fiber Co nanostructure possessing a great surface area is formed, have been determined in the work. Cobalt hydro/oxide layers were formed by the anodic polarization method and their pseudocapacity was studied on various substrates: nanostructured, magnetron-sputtered coating and metallurgical cobalt. The pseudocapacitor behaviour of cobalt hydro/oxides was studied by using the cyclic voltammetry method along with electrochemical quartz crystal mocrobalance (EKKM). Oxide layers showed oxidation-reduction and corresponding pseudo-capacitor behaviour.It has been shown that the oxide layer is stable and it withstands a few thousand polarization cycles. It has... [to full text]
Energijos kaupiklių kūrimas pastaraisiais metais tapo svarbia mokslo aktualija. Elektrocheminiai kondensatoriai pasižymi didesne galia, ilgesniu savaiminio išsikrovimo laiku ir didesniu darbo ciklų skaičiumi negu tradicinės elektrocheminės baterijos. Didžiausia savitąja talpa pasižymi RuO2, tačiau jo praktinį taikymą riboja didelė kaina, todėl ieškoma pigesnių pakaitalų. Pastaraisiais metais aktyviai tiriamas kobalto oksidas. Svarbu yra surasti ekonomiškai efektyvius ir paprastus metodus, leidžiančius padidinti kobalto oksidų pseudotalpas. Darbe nustatytos elektrocheminio Co nusodinimo sąlygos, kurioms esant yra formuojama pluoštinė nanostruktūra, pasižyminti dideliu paviršiaus plotu. Anodinės poliarizacijos būdu buvo suformuoti kobalto hidro/oksido sluoksniai ir ištirta jų pseudotalpa ant skirtingų substratų: nanostruktūrinės, magnetroninės-plazminės dangos ir metalurginio Co. Pseudotalpinė kobalto hidro/oksidų elgsena buvo ištirta ciklinės voltamperometrijos metodu kartu su elektrocheminėmis kvarco kristalo svarstyklėmis (EKKM). Oksidiniai sluoksniai parodė grįžtamą redukcijos-reoksidacijos ir atitinkamą pseudotalpinę elgseną. Per kelis tūkstančius anodinių ciklų buvo parodyta, kad oksidinis sluoksnis išliko stabilus. Nustatyta, kad hidro/oksidų, suformuotų ant nanostruktūrinės Co dangos, talpa maždaug 5 kartus didesnė nei suformuotų ant metalurginio Co. Šiame darbe pasiūlytas naujas kobalto oksido formavimo būdas: sulfidinės Co(OH)2–CoS kompozicijos formavimas ir... [toliau žr. visą tekstą]
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Books on the topic "Cobalt oxide"

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Boose, C. A. Cobalt oxide spectral selective coatings. Luxembourg: Commission of the European Communities Directorate-General Information Market and Innovation, 1985.

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Shukri, Rashid Jaber Asa'd. Supported oxide catalysts: Cobalt oxide and molybdena on titania. Uxbridge: Brunel University, 1989.

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Bailey, Steven John. A study of the catalytic properties of unpromoted and promoted cobalt-iron oxide spinels. Uxbridge: BrunelUniversity, 1991.

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Raveau, Bernard, and Md Motin Seikh. Cobalt Oxides. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2012. http://dx.doi.org/10.1002/9783527645527.

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Malik, Mohammad Suleman. Comparative studies of the electronic properties of copper tellurite glasses containing nickel, cobalt and lutetium oxides and cupric chloride. Uxbridge: Brunel University, 1989.

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Preparation of metallic cobalt by reduction of the oxide. Ottawa: Govt. Print. Bureau, 1997.

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The World Market for Cobalt Oxides, Cobalt Hydroxides, and Commercial Cobalt Oxides: A 2004 Global Trade Perspective. Icon Group International, Inc., 2005.

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Parker, Philip M. The 2007 Import and Export Market for Cobalt Oxides, Cobalt Hydroxides, and Commercial Cobalt Oxides in China. ICON Group International, Inc., 2006.

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Parker, Philip M. The 2007 Import and Export Market for Cobalt Oxides, Cobalt Hydroxides, and Commercial Cobalt Oxides in United States. ICON Group International, Inc., 2006.

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Functional Cobalt Oxides: Fundamentals, Properties and Applications. Taylor & Francis Group, 2014.

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Book chapters on the topic "Cobalt oxide"

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Bährle-Rapp, Marina. "Cobalt Titanium Oxide." In Springer Lexikon Kosmetik und Körperpflege, 120. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-71095-0_2223.

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Nikam, Revannath D., Sharad S. Gaikwad, Ganesh E. Patil, Gotan H. Jain, and Vishwas B. Gaikwad. "Synthesis and Applications of Nano Size Titanium Oxide and Cobalt Doped Titanium Oxide." In Chemistry for Sustainable Development, 57–68. Dordrecht: Springer Netherlands, 2011. http://dx.doi.org/10.1007/978-90-481-8650-1_4.

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Wang, Jing, Jinglong Liang, Hui Li, and Jie Xu. "Reduction Mechanism of Metal Cobalt from Cathode Material of Waste Lithium Cobalt Oxide Battery." In TMS 2020 149th Annual Meeting & Exhibition Supplemental Proceedings, 1301–7. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-36296-6_120.

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Karakurkchi, Ann V., Nikolay D. Sakhnenko, Maryna V. Ved’, and Maryna V. Mayba. "Nanostructured Mixed Oxide Coatings on Silumin Incorporated by Cobalt." In Springer Proceedings in Physics, 269–91. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17759-1_19.

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Fergus, Jeffrey W., Yingjia Liu, and Yu Zhao. "Manganese Cobalt Spinel Oxide Based Coatings for SOFC Interconnects." In Ceramic Transactions Series, 141–45. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118511435.ch15.

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Kumar, Rahul, Prasanta Kumar Sahoo, and Ankur Soam. "In Situ Synthesis of Cobalt Oxide and Carbon Nanocomposite." In Lecture Notes in Mechanical Engineering, 443–48. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-9057-0_47.

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Fujii, Takenori, and Ichiro Terasaki. "Block-Layer Concept for the Layered Cobalt Oxide: A Design for Thermoelectric Oxides." In Chemistry, Physics, and Materials Science of Thermoelectric Materials, 71–87. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4419-9278-9_5.

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Pardasani, R. T., and P. Pardasani. "Magnetic properties of cobalt(II) trizene-1-oxide bis(chelates)." In Magnetic Properties of Paramagnetic Compounds, 1051–52. Berlin, Heidelberg: Springer Berlin Heidelberg, 2017. http://dx.doi.org/10.1007/978-3-662-54231-6_614.

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Pardasani, R. T., and P. Pardasani. "Magnetic properties of cobalt(II) triazene-1-oxide bis(chelates)." In Magnetic Properties of Paramagnetic Compounds, 1053–54. Berlin, Heidelberg: Springer Berlin Heidelberg, 2017. http://dx.doi.org/10.1007/978-3-662-54231-6_615.

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Pardasani, R. T., and P. Pardasani. "Magnetic properties of cobalt(II) triazene-1-oxide bis(chelates)." In Magnetic Properties of Paramagnetic Compounds, 1055–56. Berlin, Heidelberg: Springer Berlin Heidelberg, 2017. http://dx.doi.org/10.1007/978-3-662-54231-6_616.

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Conference papers on the topic "Cobalt oxide"

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Jadhav, S. L., A. L. Jadhav, V. S. Jamdade, K. R. Kharat, A. A. Deshmane, and A. V. Kadam. "Controlled Synthesis of Cobalt Oxide Electrode by Electrodeposition for Supercapacitor Application." In National Conference on Relevance of Engineering and Science for Environment and Society. AIJR Publisher, 2021. http://dx.doi.org/10.21467/proceedings.118.56.

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Cobalt oxide (Co3O4) electrodes were prepared on conductive stainless still (SS) substrate using cobalt nitrate as a cobalt source by implementing simple and cost-effective chemical electrodeposition method and here, characterized for structural and electrochemical analysis for supercapacitor applications. The effect of different deposition potential on capacitance and charging-discharging stability of cobalt oxide electrode were studied. X-ray diffractions confirms the face centered cubic crystal structure of Co3O4 electrodes. Electrochemical capacitive analysis of cobalt oxide electrode was studied in 1MKOH aqueous electrolyte solution. The observed maximum specific capacitance attained with cobalt oxide was 273.3 F/g at scan rate 5mV/s. The observed specific power, specific energy and coulomb efficiency were 12.12W/kg, 74.75 Wh/kg, and 99.63%, respectively. The cycling stability of the cobalt oxides shows 62% up to 500 cycles.
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Rebello, Valeta, Shamshad Shaikh, and P. V. Desai. "Toxicity of cobalt Oxide Nanoparticles." In 2010 International Conference on Environmental Engineering and Applications (ICEEA). IEEE, 2010. http://dx.doi.org/10.1109/iceea.2010.5596127.

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Ramachandran, T., N. E. Rajeevan, P. P. Pradyumnan, Alka B. Garg, R. Mittal, and R. Mukhopadhyay. "Thermoelectric Property of Cobalt Oxide Films." In SOLID STATE PHYSICS, PROCEEDINGS OF THE 55TH DAE SOLID STATE PHYSICS SYMPOSIUM 2010. AIP, 2011. http://dx.doi.org/10.1063/1.3606207.

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Chang, Y. M., Y. J. Hsu, T. M. Liu, H. W. Chu, Y. J. Chuo, J. G. Lin, and C. H. Chen. "Magnetization-induced second-harmonic generation of cobalt and cobalt oxide nanoparticles." In Integrated Optoelectronic Devices 2006, edited by Kong-Thon Tsen, Jin-Joo Song, and Hongxing Jiang. SPIE, 2006. http://dx.doi.org/10.1117/12.657821.

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Li, Muchan, Zhongzheng Tian, Xuemin Yu, Dacheng Yu, Zhongyang Ren, Liming Ren, and Yunyi Fu. "Single-Electron Transistor Based on Cobalt Oxide." In 2021 IEEE International Symposium on Circuits and Systems (ISCAS). IEEE, 2021. http://dx.doi.org/10.1109/iscas51556.2021.9401306.

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Manteghi, Faranak, and Masoud Peyvandipour. "Oxalate-assisted synthesis of nano cobalt oxide." In The 17th International Electronic Conference on Synthetic Organic Chemistry. Basel, Switzerland: MDPI, 2013. http://dx.doi.org/10.3390/ecsoc-17-a015.

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Koziarskyi, Ivan P., Eduard V. Maistruk, Dmytro P. Koziarskyi, and Pavlo D. Maryanchuk. "Optical Properties of Cobalt Oxide Thin Films." In 2020 IEEE 10th International Conference Nanomaterials: Applications & Properties (NAP). IEEE, 2020. http://dx.doi.org/10.1109/nap51477.2020.9309681.

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Deotale, Anjali Jain, A. K. Sinha, M. N. Singh, Anuj Upadhyay, and R. V. Nandedkar. "Annealing effects on microstrain of cobalt oxide nanoparticles." In SOLID STATE PHYSICS: Proceedings of the 58th DAE Solid State Physics Symposium 2013. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4872589.

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Levi, C., T. Pollock, R. Rhein, C. Stewart, and A. Suzuki. "Oxide Scale Formation in Novel ?-?' Cobalt-Based Alloys." In Superalloys 2016. The Minerals, Metals & Materials Society, 2016. http://dx.doi.org/10.7449/superalloys/2016/superalloys_2016_991_999.

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Abaas, Ahmed K., and Iftikhar M. Ali. "Effect of cobalt Ions precursor on the nanostructure of sprayed cobalt oxide thin films." In PROCEEDINGS OF THE III INTERNATIONAL CONFERENCE ON ADVANCED TECHNOLOGIES IN MATERIALS SCIENCE, MECHANICAL AND AUTOMATION ENGINEERING: MIP: Engineering-III – 2021. AIP Publishing, 2021. http://dx.doi.org/10.1063/5.0068678.

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Reports on the topic "Cobalt oxide"

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Bai, C. S., S. Soled, K. Dwight, and A. Wold. Preparation and Characterization of Dispersed 'Cobalt Oxide' Supported on Gamma-Al2O3. Fort Belvoir, VA: Defense Technical Information Center, December 1990. http://dx.doi.org/10.21236/ada231269.

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Morris D. Argyle. Supported, Alkali-Promoted Cobalt Oxide Catalysts for NOx Removal from Coal Combustion Flue Gases. Office of Scientific and Technical Information (OSTI), December 2005. http://dx.doi.org/10.2172/913563.

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You might also be interested in the extended bibliographies on the topic 'Cobalt oxide' for particular source types:
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