Search Results - "Eskola, A.J."

Probing the low-temperature chain-branching mechanism of n-butane autoignition chemistry via time-resolved measurements of ketohydroperoxide formation in photolytically initiated n-C4H10 oxidation by Eskola, A.J., Welz, O., Zádor, J., Antonov, I.O., Sheps, L., Savee, J.D., Osborn, D.L., Taatjes, C.A.

“…Ketohydroperoxide formation in Cl-atom initiated low-temperature (550–700K) oxidation of n-butane was investigated using a time-of-flight mass spectrometer and…”
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The impact of the third O2 addition reaction network on ignition delay times of neo-pentane by Hansen, N., Kukkadapu, G., Chen, B., Dong, S., Curran, H.J., Taatjes, C.A., Eskola, A.J., Osborn, D.L., Sheps, L., Pitz, W.J., Moshammer, K., Jasper, A.W., Chen, W., Yang, J., Wang, Z.

“…We studied the oxidation of neo-pentane by combining experiments, theoretical calculations, and mechanistic developments to elucidate the impact of the 3rd O2…”
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Kinetics and yields of OH radical from the CH 3OCH 2 + O 2 reaction using a new photolytic source by Eskola, A.J., Carr, S.A., Blitz, M.A., Pilling, M.J., Seakins, P.W.

“…Chemical scheme and experimental results for OH formation from CH 3OCH 2 + O 2 as a function of pressure. The methoxymethyl radical, CH 3OCH 2, formed from the…”
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Probing the low-temperature chain-branching mechanism of n -butane autoignition chemistry via time-resolved measurements of ketohydroperoxide formation in photolytically initiated n- C 4 H 10 oxidation by Eskola, A.J., Welz, O., Zádor, J., Antonov, I.O., Sheps, L., Savee, J.D., Osborn, D.L., Taatjes, C.A.

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Kinetics and yields of OH radical from the CH3OCH2+O2 reaction using a new photolytic source by Eskola, A.J., Carr, S.A., Blitz, M.A., Pilling, M.J., Seakins, P.W.

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Modelling alkali-vapour/particle deposition on cooled surfaces by Eskola, A.J., Jokiniemi, J.K., Pyykönen, J., Lehtinen, K.E.J.

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