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Properties of the Elements and Inorganic Compounds
Published in W. M. Haynes, David R. Lide, Thomas J. Bruno, CRC Handbook of Chemistry and Physics, 2016
W. M. Haynes, David R. Lide, Thomas J. Bruno
Carbon (graphite) Carbon (diamond) Carbon black Carbon [fullerene-C60] Carbon [fullerene-C70] Carbon dioxide Carbon diselenide Carbon disulfide Carbon monoxide Carbon oxyselenide Carbon oxysulfide Carbon suboxide Carbon subsulfide Carbon sulfide selenide Carbon sulfide telluride Carbonyl bromide Carbonyl chloride Carbonyl fluoride Cerium Cerium(III) acetate sesqihydrate Cerium(IV) ammonium nitrate Cerium(III) ammonium nitrate tetrahydrate Cerium(IV) ammonium sulfate dihydrate Cerium(III) ammonium sulfate tetrahydrate Cerium boride Cerium(III) bromide Cerium(III) bromide heptahydrate Cerium carbide Cerium carbide Cerium(III) carbonate Cerium(III) carbonate pentahydrate Cerium(III) chloride Cerium(III) chloride heptahydrate Cerium(III) fluoride Cerium(IV) fluoride Cerium(II) hydride Cerium(III) hydride Cerium(III) hydroxide Cerium(IV) hydroxide Cerium(II) iodide Cerium(III) iodide Cerium(III) iodide nonahydrate Cerium(III) nitrate hexahydrate Cerium nitride Cerium(III) oxalate nonahydrate Cerium(III) oxide Cerium(IV) oxide Cerium(III) 2,4-pentanedioate trihydrate Cerium(III) perchlorate hexahydrate Cerium(III) selenate Cerium silicide Cerium(III) sulfate Cerium(III) sulfate octahydrate Cerium(IV) sulfate tetrahydrate Cerium(II) sulfide Cerium(III) sulfide Cerium(III) tungstate Cesium Cesium acetate Cesium aluminum sulfate dodecahydrate C C C C60 C70 CO2 CSe2 CS2 CO OCSe OCS C3O2 C3S2 CSSe SCTe COBr2 COCl2 COF2 Ce
Contending Philosophical Frameworks Within Artificial Intelligence
Published in Alessio Plebe, Pietro Perconti, The Future of the Artificial Mind, 2021
Alessio Plebe, Pietro Perconti
Something very similar happens in chemical reactions. The B-Z reaction, for example, named by its discoverers Belousov (1959) and Zhabotinsky (1964), is well known. It is a mix of potassium bromate, cerium(IV) sulfate, malonic acid and citric acid in dilute sulfuric acid. The malonic acid reduces cerium(IV) ions into cerium(III), which in turn tends to be oxidized back to cerium(IV) ions by the potassium bromate. Here again, the alternate disposition of the two ion types of cerium is initially random, but gradually tends to organize into macroscopic patterns, like those shown in the middle in Figure 4.8.
Recovery and Recycling of Cerium from Primary and Secondary Resources- a Critical Review
Published in Mineral Processing and Extractive Metallurgy Review, 2020
The readily occurring transition from colorless Ce(III) to bright yellow or orange Ce(IV) forms the basis for the use of cerium(IV) sulfate solutions in redox titrations. The ease of access to various tetravalent cerium compounds makes cerium(IV) most valuable in research as well as in various practical applications (Farid and Edelmann 2011; Shamsipur et al. 2002).