J
James B. Burkholder
Researcher at Earth System Research Laboratory
Publications - 84
Citations - 4332
James B. Burkholder is an academic researcher from Earth System Research Laboratory. The author has contributed to research in topics: Absorption spectroscopy & Absorption (electromagnetic radiation). The author has an hindex of 36, co-authored 84 publications receiving 4185 citations. Previous affiliations of James B. Burkholder include Cooperative Institute for Research in Environmental Sciences.
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Rate coefficients for the gas-phase reaction of OH with Z-3-hexen-1-ol, 1-penten-3-ol, E-2-penten-1-ol, and E-2-hexen-1-ol between 243 and 404 K
TL;DR: In this article, rate coefficients for the gas phase reaction of the OH radical with (Z )-3-hexen-1-ol ( Z )-CH 3 CH 2 CH = CHCH 2 CH 2 OH) ( k 1 ), 1-penten-3ol (CH 3CH 2CH(OH)CH = CH 2 ) ( k 2 ), (E )-2-pentEN-1 -ol (( E )- CH 3 CH2 CH 2 = CH CH 2OH) (k 4 ), unsaturated alcohols that are emitted into the
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Atmospheric Lifetime of CHF2Br, a Proposed Substitute for Halons.
Ranajit K. Talukdar,Abdelwahid Mellouki,Tomasz Gierczak,James B. Burkholder,Stuart A. McKeen,A. R. Ravishankara +5 more
TL;DR: The rate coefficients, k1, and σ values were used in a one-dimensional model to obtain an atmospheric lifetime of approximately 7 years for CHF2Br, which is shorter than those for CF3Br and CF2ClBr, respectively.
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Rate coefficients for the OH + acetaldehyde (CH3CHO) reaction between 204 and 373 K
Lei Zhu,Lei Zhu,Ranajit K. Talukdar,Ranajit K. Talukdar,James B. Burkholder,A. R. Ravishankara +5 more
TL;DR: In this paper, the rate coefficient for the gas-phase reaction OH + CH3CHO (acetaldehyde) was measured over the temperature range 204-373 K using pulsed laser photolytic production of OH coupled with its detection via laser-induced fluorescence.
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Photodissociation of ClONO2: 2. Time-Resolved Absorption Studies of Product Quantum Yields
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Cl2O photochemistry: Ultraviolet/vis absorption spectrum temperature dependence and O(3P) quantum yield at 193 and 248 nm
TL;DR: The photochemistry of Cl(2)O (dichlorine monoxide) was studied using measurements of its UV/vis absorption spectrum temperature dependence and the O((3)P) atom quantum yield, Φ(Cl( 2)O)(O)(λ), in its photolysis at 193 and 248 nm to establish a <5% upper-limit for the O + Cl (2) photodissociation channel.