Kinetics of the Reactions of Hydroxyl Radicals with Furan and Its Alkylated Derivatives 2-Methyl Furan and 2,5-Dimethyl Furan

Whelan, Charlotte Ann; Eble, Julia; Mir, Zara S.; Blitz, Mark A.; Seakins, Paul W.; Olzmann, Matthias; Stone, Daniel

doi:10.1021/acs.jpca.0c06321

Cited by 19 publications

(58 citation statements)

References 44 publications

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“…In untreated dried red pepper powder the furan level was 4.58 ng/g. In the previous study, furan production was found to be temperature-dependent in hot coffee samples ( 28 ). The furan levels in the roasted red pepper samples also increased with increasing temperature and time conditions.…”

Section: Resultsmentioning

confidence: 89%

Analysis of Furan in Red Pepper Powder Treated by Three Methods-Boiling, Roasting, and Frying

Kim

Lee

2022

Front. Nutr.

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In this study, furan analysis was conducted on dried red pepper powder treated by three cooking methods (boiling, roasting, and frying). A total of 144 samples were prepared and their furan levels were analysed using automated solid-phase micro-extraction gas chromatography-mass spectrometry. The furan concentration in boiled soup ranged from 1.26 to 4.65 ng/g, and from 7.37 to 27.68 ng/g for boiled red pepper samples. For the roasting method, a furan concentration between 6.66 and 761.37 ng/g was detected. For the frying method, the furan level of edible oils ranged from 3.93 to 125.88 ng/g, and a concentration ranging from 4.88 to 234.52 ng/g was detected for the fried red pepper samples. The cooking method using edible oil obtained a higher furan concentration than the water-based method. Samples using corn germ oil (linoleic acid-rich oil) obtained the highest furan concentration among the four edible oils. In all cooking methods, the higher the heating temperature and time, the higher the furan concentration detected. A kinetic study was conducted using the roasting model system and the apparent activation energy was 60.5 kJ/mol. The results of this study could be useful as a database for furan concentration in dried red pepper powder according to various cooking methods.

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Section: Resultsmentioning

confidence: 89%

Analysis of Furan in Red Pepper Powder Treated by Three Methods-Boiling, Roasting, and Frying

Kim

Lee

2022

Front. Nutr.

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“…A number of reference compounds were used for each VOC, chosen so that the reference rate was roughly within a factor of five of the expected unknown rate, and with an attempt to use different references that had both faster and slower NO 3 reaction rates than the VOC. Reaction rates of the reference compounds (Table 2) with NO 3 addition to the C2 carbon followed by O 2 addition to the C5 carbon (Berndt et al, 1996), analogous to the OH addition reaction (Bierbach et al, 1995;Mousavipour et al, 2009;Yuan et al, 2017;Whelan et al, 2020). However, some of the reference compounds used in the experiments will form such radicals.…”

Section: Discussionmentioning

confidence: 99%

“…Furan type compounds are removed from the atmosphere by reaction with the major oxidants OH, NO 3 and O 3 . There have been a number of studies on the rates of reaction of furan type compounds with the dominant daytime oxidant, OH (Lee and Tang, 1982;Atkinson et al, 1983;Wine and Thompson, 1984;Bierbach et al, 1992Bierbach et al, , 1994Bierbach et al, , 1995Aschmann et al, 2011;Ausmeel et al, 2017;Whelan et al, 2020). However, there have been fewer studies on the rates of reaction of furan type compounds with the major night-time oxidant, NO 3 (Atkinson et al, 1985;Kind et al, 1996;Cabañas et al, 2004;Colmenar et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

NO3 chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO3 radical

Newland

Ren

McGillen

et al. 2021

Preprint

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Abstract. Furans are emitted to the atmosphere during biomass burning from the pyrolysis of cellulose. They are one of the major contributing VOC classes to OH and NO3 reactivity in biomass burning plumes. The major removal process of furans from the atmosphere at night is reaction with the nitrate radical, NO3. Here we report a series of relative rate experiments in the 7300 L indoor simulation chamber at CNRS-ICARE, Orléans, using a number of different reference compounds to determine NO3 reaction rate coefficients for four furans, two furanones, and pyrrole. In the case of the two furanones, this is the first time that NO3 rate coefficients have been reported. The recommended values (cm3 molecule−1 s−1) are: furan (1.50 ± 0.23) × 10−12, 2-methylfuran (2.37 ± 0.55) × 10−11, 2,5-dimethylfuran (1.10 ± 0.33) × 10−10, furan-2-aldehyde (9.28 ± 2.3) × 10−14, 5-methyl-2(3H)-furanone (3.00 ± 0.45) × 10−12, 2(5H)-furanone < 1.410−16, and pyrrole (7.35 ± 2.06) × 10−11. The furan-2-aldehyde + NO3 reaction rate is found to be an order of magnitude lower than previously reported. We also recommend a faster rate for the α-terpinene+NO3 reaction ((2.70 ± 0.81) × 10−10 cm3 s−1). These experiments show that for furan, alkyl substituted furans, 5-methyl-2(3H)-furanone, and pyrrole, reaction with NO3 will be the dominant removal process at night, and may also contribute during the day. For 2(5H)-furanone, reaction with NO3 is not an important atmospheric sink.

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“…HO 2 could be generated in these experiments from the abstraction of an H atom by O 2 from a β-ONO 2 -RO radical with available H atoms. The initial NO 3 reaction with furans is not thought to form β-ONO 2 -RO 2 radicals, with NO 3 addition to the C 2 carbon followed by O 2 addition to the C 5 carbon (Berndt et al, 1997), analogous to the OH-addition reaction (Bierbach et al, 1995;Mousavipour et al, 2009;Yuan et al, 2017;Whelan et al, 2020). However, some of the reference compounds used in the experiments will form such radicals.…”

Section: Ln ([Vocmentioning

confidence: 99%

“…Furan-type compounds are removed from the atmosphere by reaction with the major oxidants OH, NO 3 , and O 3 . There have been a number of studies on the rates of reaction of furan-type compounds with the dominant daytime oxidant, OH (Lee and Tang, 1982;Atkinson et al, 1983;Wine and Thompson, 1984;Bierbach et al, 1992Bierbach et al, , 1994Bierbach et al, , 1995Aschmann et al, 2011;Ausmeel et al, 2017;Whelan et al, 2020). However, there have been fewer studies on the rates of reaction of furan-type compounds with the major nighttime oxidant, NO 3 (Atkinson et al, 1985;Kind et al, 1996;Cabañas et al, 2004;Colmenar et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

NO3 chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO3 radical

et al. 2022

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Abstract. Furans are emitted to the atmosphere during biomass burning from the pyrolysis of cellulose. They are one of the major contributing volatile organic compound (VOC) classes to OH and NO3 reactivity in biomass burning plumes. The major removal process of furans from the atmosphere at night is reaction with the nitrate radical, NO3. Here, we report a series of relative rate experiments in the 7300 L indoor simulation chamber at Institut de Combustion Aérothermique Réactivité et Environnement, Centre national de la recherche scientifique (ICARE-CNRS), Orléans, using a number of different reference compounds to determine NO3 reaction rate coefficients for four furans, two furanones, and pyrrole. In the case of the two furanones, this is the first time that NO3 rate coefficients have been reported. The recommended values (cm3 molec.−1 s−1) are as follows: furan, (1.49 ± 0.23) × 10−12; 2-methylfuran, (2.26 ± 0.52) × 10−11; 2,5-dimethylfuran, (1.02 ± 0.31) × 10−10; furfural (furan-2-aldehyde), (9.07 ± 2.3) × 10−14; α-angelicalactone (5-methyl-2(3H)-furanone), (3.01 ± 0.45) × 10−12; γ-crotonolactone (2(5H)-furanone), <1.4 × 10−16; and pyrrole, (6.94 ± 1.9) × 10−11. The furfural + NO3 reaction rate coefficient is found to be an order of magnitude smaller than previously reported. These experiments show that for furan, alkyl-substituted furans, α-angelicalactone, and pyrrole, reaction with NO3 will be the dominant removal process at night and may also contribute during the day. For γ-crotonolactone, reaction with NO3 is not an important atmospheric sink.

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Kinetics of the Reactions of Hydroxyl Radicals with Furan and Its Alkylated Derivatives 2-Methyl Furan and 2,5-Dimethyl Furan

Cited by 19 publications

References 44 publications

Analysis of Furan in Red Pepper Powder Treated by Three Methods-Boiling, Roasting, and Frying

Analysis of Furan in Red Pepper Powder Treated by Three Methods-Boiling, Roasting, and Frying

NO<sub>3</sub> chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO<sub>3</sub> radical

NO<sub>3</sub> chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO<sub>3</sub> radical

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Kinetics of the Reactions of Hydroxyl Radicals with Furan and Its Alkylated Derivatives 2-Methyl Furan and 2,5-Dimethyl Furan

Cited by 19 publications

References 44 publications

Analysis of Furan in Red Pepper Powder Treated by Three Methods-Boiling, Roasting, and Frying

Analysis of Furan in Red Pepper Powder Treated by Three Methods-Boiling, Roasting, and Frying

NO&lt;sub&gt;3&lt;/sub&gt; chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO&lt;sub&gt;3&lt;/sub&gt; radical

NO&lt;sub&gt;3&lt;/sub&gt; chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO&lt;sub&gt;3&lt;/sub&gt; radical

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NO<sub>3</sub> chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO<sub>3</sub> radical

NO<sub>3</sub> chemistry of wildfire emissions: a kinetic study of the gas-phase reactions of furans with the NO<sub>3</sub> radical