Oxygen trioxygen

Dioxygenyl tetrafluoroborate Organic materials Oxygen (Liquid) Hydrocarbons, or Liquefied gases Trioxygen difluoride Various materials... 

Dioxygen dilluoride, 4320 Hexaoxygen dilluoride, 4327 Oxygen dilluoride, 4317 Trioxygen difluoride , 4323 See other halogen oxides... 

In the atmosphere, ozone (trioxygen, 03) is produced by reaction of atomic oxygen with molecular oxygen and is mainly destroyed by photolysis ... 

Trioxygen Difluoride. (Fluorine Ozonide). See in Vol 6, F135-L and the following AddnlRefs 1) A.G. Streng, The Oxygen Fluorides , ChemRev 63 (6), 607-24 (I960) CA 60, 1318(1964) [The author reports in this sum-... 

Bromine bromate, 0275 Bromine dioxide, 0258 Bromine perchlorate, 0235 Bromine trioxide, 0259 Bromyl fluoride, 0239 Chlorine dioxide, 4036 Chlorine perchlorate, 4095 Chlorine trifluoride oxide, 3976 Chlorine trioxide, 4038 Chloryl hypofluorite, 3967 Chloryl perchlorate, 4098 Dichlorine oxide, 4089 Dichlorine trioxide, 4094 Dicyanogen A,A -dioxide, 0994 Dioxygen difluoride, 4314 Fluorine perchlorate, 3970 Hexaoxygen difluoride, 4321 Iodine dioxide trifluoride, 4328 Iodine(V) oxide, 4622 Iodine(VII) oxide, 4623 Oxygen difluoride, 4311 Perbromyl fluoride, 0240 Perchloryl fluoride, 3968 Perchloryl perchlorate, 4101 Tetrafluoroiodosyl hypofluorite, 4350 Trioxygen difluoride , 4317... 

Dioxygen difluoride, 4314 Hexaoxygen difluoride, 4321 Oxygen difluoride, 4311 Trioxygen difluoride , 4317 See other HALOGEN OXIDES... 

Oxygen (dioxygen), O2, and ozone (trioxygen), O3, are the two small gaseous allotrope molecules of the element oxygen. 

D) G.A.W. Boehm, Fortune, Dec 1957, pp 170—72 (Fluorine is the best oxidizer after ozone one of the most corrosive substances known. Specific impulse of F with hydrogen is 374. Less energetic but less cantankerous oxidizers are oxygen difluoride (OF2) and trioxygen difluoride (08F 2)... 

Explosive reaction with acetylene, antimony powder, hafnium powder + heat, tetraamine copper(II) sulfate + ethanol, trioxygen difluoride (possibly ignition), polyacetylene (at 113°C). Forms sensitive, explosive mixtures with potassium (impact-and heat-sensitive), sodium (shock-sensitive), oxygen difluoride (heat-sensitive). Reacts to form explosive products with ammonia, ammonia + Uthium 1-heptynide, ammonia + potassium, butadiene + ethanol + mercuric oxide, silver azide. 

Illustrate each of the following with the appropriate diagram using pairs of dots for electron pairs (a) a double bond between two oxygen atoms (b) nonbonding pairs of electrons in the F2 molecule (c) resonance in the trioxygen (ozone) molecule, 03. 

IODINE (7553-56-2) A powerful oxidizer. Material or vapors react violently with reducing agents, combustible materials, alkali metals, acetylene, acetaldehyde, antimony, boron, bromine pentafluoride, bromine trifluoride, calcium hydride, cesium, cesium oxide, chlorine trifluoride, copper hydride, dipropylmercury, fluoride, francium, lithium, metal acetylides, metal carbides, nickel monoxide, nitryl fluoride, perchloryl perchlorate, polyacetylene, powdered metals, rubidium, phosphorus, sodium, sodium phosphinate, sulfur, sulfur trioxide, tetraamine, trioxygen difluoride. Forms heat- or shock-sensitive compounds with ammonia, silver azide, potassium, sodium, oxygen difluoride. Incompatible with aluminum-titanium alloy, barium acetylide, ethanol, formamide, halogens, mercmic oxide, mercurous chloride, oxygen, pyridine, pyrogallic acid, salicylic acid sodium hydride, sodium salicylate, sulfides, and other materials. 

A 16,18,20-trioxygenated withanolide, 13p-hydroxymethyl-subtrifloralactone E (43) was isolated from plants of Deprea subtriflora (Riz Pavon) D Arcy collected in Peru together with a series of highly oxygenated C-18 norwithanolides, subtrifloralactones A-L (44-55). Compounds A, B, C, K and L (44, 45, 46, 54, 55) incorporate a hemiketal bridge like that found in the trechonolide group, while subtrifloralactones H, I and J (51-53) presented a new type of hemiketal bridge between C-20 and C-12 [30,31]. 

The most common example of gas phase catalysis is the decomposition of ozone (O3) into oxygen (02). This is catalysed by CFC s (chloroflourocarbons), VOC or nitric oxide (NO). These both catalyse the decomposition of trioxygen (03 or ozone). 

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