| 1 |
Pulse Radiolysis of Supercritical Water. 3. Spectrum and Thermodynamics of the Hydrated Electron (vol 109, pg 1299, 2005)
Bartels DM, Takahashi K, Cline JA, Marin TW, Jonah CD
Journal of Physical Chemistry A, 124(28), 5993, 2020 |
| 2 |
Pulse radiolysis of supercritical water. 3. Spectrum and thermodynamics of the hydrated electron
Bartels DM, Takahashi K, Cline JA, Marin TW, Jonah CD
Journal of Physical Chemistry A, 109(7), 1299, 2005 |
| 3 |
Reaction rates of the hydrated electron with NO2-, NO3-, and hydronium ions as a function of temperature from 125 to 380 degrees C
Takahashi K, Bartels DM, Cline JA, Jonah CD
Chemical Physics Letters, 357(5-6), 358, 2002 |
| 4 |
Pulse radiolysis of supercritical water. 2. Reaction of nitrobenzene with hydrated electrons and hydroxyl radicals
Marin TW, Cline JA, Takahashi K, Bartels DM, Jonah CD
Journal of Physical Chemistry A, 106(51), 12270, 2002 |
| 5 |
Corrosion behavior of nickel-based alloys in supercritical water oxidation systems
Mitton DB, Yoon JH, Cline JA, Kim HS, Eliaz N, Latanision RM
Industrial & Engineering Chemistry Research, 39(12), 4689, 2000 |
| 6 |
Ab initio study of magnetic structure and chemical reactivity of Cr2O3 and its (0001) surface
Cline JA, Rigos AA, Arias TA
Journal of Physical Chemistry B, 104(26), 6195, 2000 |
