The heterogeneous hydrolysis of NO2 in laboratory systems and in outdoor and indoor atmospheres: An integrated mechanism

Finlayson-Pitts, Barbara J.; Wingen, L. M.; Sumner, Ann Louise; Syomin, Dennis; Ramazan, K. A.

doi:10.1039/b208564j

Cited by 602 publications

(819 citation statements)

References 207 publications

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“…[12] Am anifestation of the presence of water in the trap is surface-catalyzed hydrolysis of NO 2 to yield HNO 2 and HNO 3 . [13] The presence of HNO 2 was confirmed by its addition to PuO(NO 3 ) 3 À ,p roduced as described previously, [14] to yield Pu(OH)(NO 2 )(NO 3 ) 3 À .A lthough the presence of HNO 3 was not similarly demonstrated by the appearance of Pu(OH)(NO 3 ) 4 À ,t his negative result does not exclude HNO 3 as a possible reactant gas in the ion trap.…”

Section: Methodsmentioning

confidence: 65%

“…Each of the MO + was isolated by ejection of all other ions from the QIT andt hen exposed to an indeterminate but constantp ressure of NO 2 for reactiont imes ranging from 0.05 to 0.55 s. The resultsa re shown in Figure 1w here it is apparent that each of the five studied monoxide cations abstracted an oxygen atom to yield MO 2 + .T he formationo ft he dioxides occurs by O-atom abstraction from some neutrals pecies RO in the ion trap under thermal conditions:M O + + RO! MO 2 + + R. As noted below,a nd expected based on the presence of H 2 Oi nt he ion trap, [12,13] hydrolysis of NO 2 yielded HNO 2 ,a sd emonstrated by its addition [14] to PuO(NO 3 ) 3 À to yield Pu(OH)(NO 2 )(NO 3 ) À .I tc an be inferredt hat HNO 3 was also produced, [13] and it is known that O 2 is also present in the trap. [12] The bond dissociation energies (D) for abstraction of an Oatom from the various neutralR Om olecules (potentially)p resent in the ion trap are as follows (in kcal mol À1 ): [15] …”

Section: Synthesis Of Mo 2 + + Cationsmentioning

confidence: 89%

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Remarkably High Stability of Late Actinide Dioxide Cations: Extending Chemistry to Pentavalent Berkelium and Californium

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Section: Methodsmentioning

confidence: 65%

Section: Synthesis Of Mo 2 + + Cationsmentioning

confidence: 89%

Remarkably High Stability of Late Actinide Dioxide Cations: Extending Chemistry to Pentavalent Berkelium and Californium

Dau

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et al. 2017

Chemistry A European J

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“…This includes different surfaces (ground and aerosols) such as the photocatalytic conversion of NO 2 on mineral dust (Ndour et al 2008), the dark heterogeneous conversion of NO 2 on suspended soot particles (Ammann et al 1998;Arens et al 2001), the heterogeneous hydrolysis of NO 2 (Finlayson-Pitts et al 2003), the photosensitized reduction of NO 2 on organic surfaces (George et al 2005;Stemmler et al 2006), the photolysis of adsorbed nitric acid (HNO 3 ) (Zhou et al 2003) and nitrate (NO 3 − ) (Zhou et al 2001), the HNO 3 conversion on primary organic aerosols (Ziemba et al 2010) and from soilemitted nitrite (Su et al 2011). Direct emissions from combustion processes (i.e.…”

Section: Responsible Editor: Gerhard Lammelmentioning

confidence: 99%

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Bernard

Cazaunau

Grosselin

et al. 2015

Environ Sci Pollut Res

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Nitrous acid (HONO), as a precursor of the hydroxyl radical (OH), plays an important role in the photochemistry of the troposphere, especially in the polluted urban atmosphere. A field campaign was conducted to measure atmospheric HONO concentration and that of other pollutants (such as NO 2 and particle mass concentration) in the autumn of 2009 at Shanghai urban areas. HONO mixing ratios were simultaneously measured by three different techniques: long path absorption photometer (LOPAP), differential optical absorption spectroscopy (DOAS) and chemical ionization mass spectrometer (CIMS). The measurements showed that the mixing ratios of HONO were highly variable and depended strongly on meteorological parameters. The HONO levels ranged from 0.5 to 7 ppb with maximum values during early morning and minimum levels during late afternoon. The three instruments reproduced consistent diurnal pattern of HONO concentrations with higher concentration during the night compared to the daylight hours. Comparison of HONO LOPAP /HONO CIMS ratios during daytime and nighttime periods exhibited a non-systematic disagreement of 0.93 and 1.16, respectively. This would indicate different chemical compositions of sampled air for the LOPAP and the CIMS instruments during daytime and nighttime periods, which have possibly affected measurements. Mean HONO concentration reported by LOPAP was 33 % higher than by DOAS on the whole period with no significant difference between daytime and nighttime periods. This revealed a systematic deviation from both instruments. The present data provides complementary information of HONO ambient levels in the atmosphere of Shanghai urban areas.

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“…The proposed mechanism involves the asymmetric NO 2 dimer and NO + NO 3 -as key surface-bound intermediates. 9 Figure 1, for example, shows that a band due to ClNO (centered at 1805 cm -1 ) appears when HCl and water vapor are added to a reaction cell containing NO 2 (seen initially at ∼1600 cm -1 ) and high surface area silica. The reaction is essentially immediate under these conditions and results in the formation of ClNO in a yield of 47 ( 1% (2 s) relative to the amount of NO 2 consumed.…”

Section: Introductionmentioning

confidence: 99%

“…9,[12][13][14] This hydrolysis reaction merits computational studies for several reasons. First, nitrous acid Figure 1.…”

Section: Introductionmentioning

confidence: 99%

Catalytic Role for Water in the Atmospheric Production of ClNO

et al. 2010

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High level ab initio calculations of clusters comprised of water, HCl, and ON-ONO2 are used to study nitrosyl chloride (ClNO) formation in gas phase water clusters, which are also mimics for thin water films present at environmental interfaces. Two pathways are considered, direct formation from the reaction of gaseous HCl with ON-ONO2 and an indirect pathway involving the hydrolysis of ON-ONO2 to form HONO, followed by the reaction of HONO with HCl to form ClNO. Surprisingly, direct formation of ClNO is found to be the dominant channel in the presence of water despite the possibility of a competing hydrolysis of ON-ONO2 to form HONO. A single water molecule effectively catalyzes the ON-ONO2 + HCl reaction, and in the presence of two or more water molecules the reaction to form ClNO becomes spontaneous. Direct formation of ClNO is fast at room and ice temperatures, indicating the possible significance of this pathway for chlorine activation chemistry in both the polar and midlatitude troposphere, in volcanic plumes and indoors. The reaction enthalpies, activation energies, and rate constants for all studied reactions are reported. The results are discussed in light of recent experiments. Disciplines Chemistry CommentsReprinted (adapted) Jerusalem, 91904, Israel ReceiVed: December 24, 2009; ReVised Manuscript ReceiVed: February 21, 2010 High level ab initio calculations of clusters comprised of water, HCl, and ON-ONO 2 are used to study nitrosyl chloride (ClNO) formation in gas phase water clusters, which are also mimics for thin water films present at environmental interfaces. Two pathways are considered, direct formation from the reaction of gaseous HCl with ON-ONO 2 and an indirect pathway involving the hydrolysis of ON-ONO 2 to form HONO, followed by the reaction of HONO with HCl to form ClNO. Surprisingly, direct formation of ClNO is found to be the dominant channel in the presence of water despite the possibility of a competing hydrolysis of ON-ONO 2 to form HONO. A single water molecule effectively catalyzes the ON-ONO 2 + HCl reaction, and in the presence of two or more water molecules the reaction to form ClNO becomes spontaneous. Direct formation of ClNO is fast at room and ice temperatures, indicating the possible significance of this pathway for chlorine activation chemistry in both the polar and midlatitude troposphere, in volcanic plumes and indoors. The reaction enthalpies, activation energies, and rate constants for all studied reactions are reported. The results are discussed in light of recent experiments.

show abstract

The heterogeneous hydrolysis of NO2 in laboratory systems and in outdoor and indoor atmospheres: An integrated mechanism

Cited by 602 publications

References 207 publications

Remarkably High Stability of Late Actinide Dioxide Cations: Extending Chemistry to Pentavalent Berkelium and Californium

Remarkably High Stability of Late Actinide Dioxide Cations: Extending Chemistry to Pentavalent Berkelium and Californium

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Catalytic Role for Water in the Atmospheric Production of ClNO

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