Reactions with NO

Tin(IV) in aqueous acid gives a yellow precipitate with hydrogen sulphide, and no reaction with mercury(II) chloride. 

No reaction with nitrogen oxide Phosphorus burns leaving an equal volume of gas (nitrogen)... 

Despite its electrode potential (p. 98), very pure zinc has little or no reaction with dilute acids. If impurities are present, local electrochemical cells are set up (cf the rusting of iron. p. 398) and the zinc reacts readily evolving hydrogen. Amalgamation of zinc with mercury reduces the reactivity by giving uniformity to the surface. Very pure zinc reacts readily with dilute acids if previously coated with copper by adding copper(II) sulphate ... 

CH,),CHNO, -h HONO = (CH,),C(NO)NO, -h H,0 producing a blue solution. A tertiary nitro paraffin such as trimethylnitro-methane, (CH )jCNO, gives no reaction with nitrous acid. 

Sodium carbonate solution [cf. Section 5, p. 330). Note that phenols (except those containing acidic groups, e.., nitrophenols) give no reaction with sodium carbonate solution. 

Aqueous solutions (when obtainable) give no reaction with ferric chloride. This is an important distinction from ammonium salts (sec above). Salicylamide, being also a phenol, is however an exception (p. 344). 

Based on the above-mentioned stereochemistry of the allylation reactions, nucleophiles have been classified into Nu (overall retention group) and Nu (overall inversion group) by the following experiments with the cyclic exo- and ent/n-acetales 12 and 13[25], No Pd-catalyzed reaction takes place with the exo-allylic acetate 12, because attack of Pd(0) from the rear side to form Tr-allyl-palladium is sterically difficult. On the other hand, smooth 7r-allylpalladium complex formation should take place with the endo-sWyWc acetate 13. The Nu -type nucleophiles must attack the 7r-allylic ligand from the endo side 14, namely tram to the exo-oriented Pd, but this is difficult. On the other hand, the attack of the Nu -type nucleophiles is directed to the Pd. and subsequent reductive elimination affords the exo products 15. Thus the allylation reaction of 13 takes place with the Nu nucleophiles (PhZnCl, formate, indenide anion) and no reaction with Nu nucleophiles (malonate. secondary amines, LiP(S)Ph2, cyclopentadienide anion). 

Sinks, chemical species, or method OH, reaction with OH radical S, sedimentation P, precipitation scavenging NO, reaction with NO radical uv, photolysis by ultraviolet radiation Sr, destmction at surfaces O, adsorption or destmction at oceanic surface. 

Ammonia—Gas-Cured Flame Retardants. The first flame-retardant process based on curing with ammonia gas, ie, THPC—amide—NH, consisted of padding cotton with a solution containing THPC, TMM, and urea. The fabric was dried and then cured with either gaseous ammonia or ammonium hydroxide (96). There was Httle or no reaction with cellulose. A very stable polymer was deposited in situ in the cellulose matrix. Because the fire-retardant finish did not actually react with the cellulose matrix, there was generally Httle loss in fabric strength. However, the finish was very effective and quite durable to laundering. 

With incandescence. Further reaction. Even when subjected to pressure for a considerable length of time also no reaction with red-hot iron. ... 

The use of CIF and BrF as ionizing solvents has been studied (102,103). At 100°C and elevated pressures, significant yields of KCIF [19195-69-8] CsClF [15321-04-7], RbClF [15321-10-5], I-CBrF [32312-224], RbBrF [32312-224], and CsBrF [26222-924]obtained. Chlorine trifluoride showed no reaction with lithium fluoride or sodium fluoride. 

Me3SiCH2CH=CH2i TsOH, CH3CN, 70-80°, 1-2 h, 90-95% yield. This silylating reagent is stable to moisture. Allylsilanes can be used to protect alcohols, phenols, and carboxylic acids there is no reaction with thiophenol except when CF3S03H is used as a catalyst. The method is also applicable to the formation of r-butyldimethylsilyl derivatives the silyl ether of cyclohexanol was prepared in 95% yield from allyl-/-butyldi-methylsilane. Iodine, bromine, trimethylsilyl bromide, and trimethylsilyl iodide have also been used as catalysts. Nafion-H has been shown to be an effective catalyst. 

DMSO, NaCN, 125-180°, 5-48 h, 65-90% yield.This cleavage reaction is successful for aromatic systems containing ketones, amides, and carboxylic acids mixtures are obtained from nitro-substituted aromatic compounds there is no reaction with 5-methoxyindole (180°, 48 h). 

BCI3, CH2CI2, 0°, rapid orTiCU, CH2CI2, 0°, slower. There was no reaction with SnCl4. ... 

It is known that not all reactions proceed in the same manner on all adsorbent layers because the material in the layer may promote or retard the reaction. Thus, Ganshirt [209] was able to show that caffeine and codeine phosphate could be detected on aluminium oxide by chlorination and treatment with benzidine, but that there was no reaction with the same reagent on silica gel. Again the detection of amino acids and peptides by ninhydrin is more sensitive on pure cellulose than it is on layers containing fluorescence indicators [210]. The NBP reagent (. v.) cannot be employed on Nano-Sil-Ci8-100-UV2S4 plates because the whole of the plate background becomes colored. 

In the case of t-butyl substituted a,/3-unsaturated ketones, however, no reaction with ketones occurred in the presence of triphenylmethyl fluoroborate instead, a 1,2-methyl shift in the unsaturated ketone accompanied by cyclization afforded a crystalline dihydro-furylium salt. ... 

The methiodide and ethiodide of 4-methylcinnoline possess methyl groups which condense easily with aldehydes, and even with ethyl orthoformate,to give polymethine derivatives. These reactions, particularly that with the ortho ester, suggest that the salts have structure 55 (R = Me or Et, R = Me). The methiodide of 3-methylcinnoline also reacts with aldehydes, although more slowly, but no reaction with ethyl orthoformate has been reported. Although 55 (R = Me) appears to be the most likely structure for the product, the 4-methyl group may direct the quatemization on and,... 

There is usually no reaction with nitrobenzene as solvent. However, in this medium acetoxybenzylidene azlactones undergo a Fries rearrangement [Eq. (16)]. 

Attempted selective displacement (96) of the primary tosylate function in 34 with sodium iodide in refluxing 2-butanone led to the 6-deoxy-6-iodo derivative 35 in 32% yield only, while the di-iodo derivative 36 was formed in 45% yield. These results are to be compared with those reported by Owen and Ragg (85) who observed no reaction with either potassium thiolacetate or potassium thiocyanate in the corresponding / -series. 

The compd burns explosively at 470° and produces a flaming expln when heated quickly to 500° in air. It is not decompd by percussion or friction. Cu3N is violently decompd on reaction with w, ale, coned nitric sulfuric acids. Decomps with dil mineral acids, no reaction with dll or coned alkalies. Qf —17.8kcal/mole sp ht 0.1059cal/g/°C... 

Two studies have been made of the reductions of NH2OH and its analogues by Cr(ri) perchlorate which dilfer seriously both as regards the results and their interpretation. The results of both studies are combined in Table 22. Wells and Salam find NH2OH and N2H4 to be much more reactive towards Cr(II) than do Taube et (who find no reaction with N2H4 in 24 h at 25 °C). 

In liquid medium, the thiobarbuturic acid test was used to determine polygalacturonase and pectate lyase activity (Sherwood, 1965). 1 ml of the crude enzyme preparation was added to 2 ml of 0.5 N HCl in a test tube. 4 ml of 0.01 M thiobarbuturic acid, dissolved in distilled water, were added. The tubes were heated in a boiling water for Ih and centrifuged. The absorption of the supernatant was determined in the spectrophotometer over the range 480-580 nm. Reaction mixtures without enzyme, which showed no reaction with thiobarbuturic acid, were used as controls. 

NO Reactions. The most informative derivitization reaction of oxidized polyolefins that we have found for product identification is that with NO. The details of NO reactions with alcohols and hydroperoxides to give nitrites and nitrates respectively have been reported previously, and only the salient features are discussed here (23). The IR absorption bands of primary, secondary and tertiary nitrites and nitrates are shown in Table I. After NO treatment, y-oxidized LLDPE shows a sharp sym.-nitrate stretch at 1276 cm-1 and an antisym. stretch at 1631 cm-1 (Fig. 1), consistent with the IR spectra of model secondary nitrates. Only a small secondary or primary nitrite peak was formed at 778 cm-1. NO treatment of y-oxidized LLDPE which had been treated by iodometry (all -OOH converted to -OH) showed strong secondary nitrite absorptions, but only traces of primary nitrite, from primary alcohol groups (distinctive 1657 cm-1 absorption). However, primary products were more prominent in LLDPE after photo-oxidation. 

Hydroperoxide groups react with NO to give only nitrates as the dominant products, with only traces (< 5%) of nitrite in both oxidized polyolefins and in concentrated solutions of model hydroperoxides (-OOH levels from iodometry -ONO and -ON02 levels by IR). As reported by Shelton and Kopczewski we have confirmed that both nitrate and nitrite result from NO reaction with dilute hydroperoxide solutions (24). Rather than the NO-induced 0-0 scission proposed by these authors, our evidence points to hydrogen abstraction by NO (reaction 4). (A similar scheme may explain nitrite formation from alcohols.) Both e.s.r. and FTIR evidence is... 

A sample of hops which had been treated with tetraethyl pyrophosphate showed a negative chemical analysis. The plant material was also extracted and the extract added to the drinking water of test animals and sensitive insects. The animals and insects that drank this treated water for several days showed no reaction. With the sensitive insects it would have been possible to detect even a few parts per million. In addition, there have been extensive commercial field applications of the chemical in dust and spray form to crops such as apples, pears, grapes, celery, broccoli, Brussels sprouts, and others up to within a few days of harvest there has been no detectable poison residue on any of the crops. The lack of poison residue with use of tetraethyl pyrophosphate is due to the fact that it hydrolyzes within a few hours of application, breaking down into transient nonresidual and nonpoisonous chemicals. Thus it is possible to use tetraethyl pyrophosphate well up to harvest time of food products without danger of residual poison on crops. The fact that the chemical is used in extremely small amounts is a definite advantage in respect to freedom from poison residue. 

Other authors also determined by FTIR that organic nitrocompounds are formed as primary products of the NO CH4-SCR reaction on ZSM-5-based catalysts [121-124], They preadsorbed nitromethane on the sample placed in the IR cell and followed by IR its transformation into other intermediates under 02 and NO versus time at different temperatures. For Cu- and Co-ZSM-5, it was shown that around 300°C adsorbed nitromethane is easily converted into isocyanates and then melamine via polymerization of the former species. Both species easily interact with molecular oxygen, while no reaction with NO is observed and the reactivity depends on the temperature and the nature of the transition metal cation. 

Fig. 4. Room temperature second-order rate constants for the M + N2O reaction for all three transition metal rows. Values taken from Refs. 73 and 76. Missing points were either not studied or exhibited no reaction with N2O.

The reaction of benzyne with cyclohexadiene has been known for some time 4>, but although a number of steroidal cis-dienes are readily available no reactions with arynes had been reported prior to our beginning such investigations 145>. This was somewhat surprising in view of the number of reports concerning the modification of steroids by means of reactions with carbenes 146 i49) and the known Diels-Alder reactions of steroidal dienes and trienes iso.isi). 

Figure 2 Comparison of NO + 03 and NO + O chemiluminescence spectra with blue and red optical filter transmissions and the response of a blue-sensitive photomultiplier tube. Note the blue shift of the NO reaction with O compared to that with 03 and that the addition of a blue filter effectively removes emission from NO + 03, while the red filter effectively removes emission from NO + O.

The values of calculated activation energies and rate constants of the >NO reactions with chosen phenols and amines are given in Table 18.6. The hydroxylamine formed by the reaction of the nitroxyl radical with InH reacts with peroxyl radicals very rapidly (see Table 18.7). So, two reactions of chain termination occur in oxidized RH in the presence of >NO and InH and chain termination includes the following cycles of reactions. 

In contrast to superoxide, which participates in one-electron transfer reactions as a reductant, nitric oxide is apparently able to oxidize various transition metal-containing proteins and enzymes. The study of NO reaction with hemoglobin has been started many years ago when... 

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