The reduction of water clusters H+(H2O)n to (OH-)(H2O)m by double electron transfer from Cs atoms

被引：3

作者：

Panja, Subhais ^{[3
]}

Hvelplund, Preben ^{[3
]}

Nielsen, Steen Brondsted ^{[3
]}

Uggerud, Einar ^{[1
,2
]}

机构：

[1] Univ Oslo, Dept Chem, Mass Spectrometry Lab, N-0315 Oslo, Norway

[2] Univ Oslo, Dept Chem, Ctr Theoret & Computat Chem, N-0315 Oslo, Norway

[3] Univ Aarhus, Dept Phys & Astron, DK-8000 Aarhus C, Denmark

来源：

PHYSICAL CHEMISTRY CHEMICAL PHYSICS | 2009年 / 11卷 / 29期

关键词：

CHARGED TUNGSTEN HEXACARBONYL; INTERNAL ENERGY DEPOSITION; DISSOCIATIVE RECOMBINATION; HYDRATED ELECTRONS; MOLECULAR-IONS; METAL-IONS; GAS-PHASE; CAPTURE; DYNAMICS; EXCHANGE;

D O I：

10.1039/b903517f

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

(H+)(H2O)(n) ions (n = 1-72) at 50 keV energies were brought to collide with caesium atoms. The analysis of the products formed for clusters having n 4 4 shows that this leads to the formation of a population of (OH-)(H2O)(m) ions with a variable number m. On average, more than half of the water molecules are lost from the cluster in the process. A model can explain the experimental observations where two successive collisions occur within a time period of less than 100 ns. One-electron transfer from caesium to water leading to the loss of one hydrogen atom occurs at each stage. While the first stage is by itself exothermic, the second stage requires additional energy from collisional energy transfer.

引用

页码：6125 / 6131

页数：7

共 50 条

[1] ABINITIO STUDIES OF NEGATIVE-ION MOLECULE(S) CLUSTERS PRESENT IN THE ATMOSPHERE .2. OH-(H2O)0, OH-(H2O)2, OH-(H2O)3, OH-(H2O)4
SAPSE, AM
OSORIO, L
SNYDER, G
INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY, 1984, 26 (02) : 223 - 230
[2] Protonated water clusters -structure and thermodynamics of H+(H2O)n (n ≤ 40), and electron recombination: H+(H2O)n + e-
Department of Chemistry, Physical Chemistry, Göteborg University, S-412 96 Göteborg, Sweden
J. Aerosol Sci., SUPPL 1 (S541-S542):
[3] The water dimer reaction OH + (H2O)2 → (H2O)-OH + H2O
Gao, Aifang
Li, Guoliang
Peng, Bin
Xie, Yaoming
Schaefer, Henry F., III
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2017, 19 (28) : 18279 - 18287
[4] MECHANISM OF THE FORMATION OF H+(H2O)N.OH CLUSTERS
ARIFOV, UA
POZHAROV, SL
HIGH ENERGY CHEMISTRY, 1978, 12 (05) : 327 - 331
[5] The effect of clustering water molecules on the rate and mechanism of the H3O+(H2O)(n)+OH-(H2O)(m) reaction
Cohen, MH
Schwope, T
Tissandier, M
Coe, JV
PROCEEDINGS OF THE 1995 WORKSHOP ON DISSOCIATIVE RECOMBINATION: THEORY, EXPERIMENT AND APPLICATIONS III, 1996, : 216 - 225
[6] Calculation of the Gibbs Energy of the Reaction OH-·(H2O)n-1 + H2O = OH-·(H2O)n by the Monte-Carlo Method
S. V. Shevkunov
Russian Journal of General Chemistry, 2002, 72 : 685 - 692
[7] Ground and Excited States Of OH-(H2O)n Clusters
Zanuttini, David
Gervais, Benoit
JOURNAL OF PHYSICAL CHEMISTRY A, 2015, 119 (29): : 8188 - 8201
[8] Spectroscopic determination of the OH- solvation shell in the OH-•(H2O)n clusters
Robertson, WH
Diken, EG
Price, EA
Shin, JW
Johnson, MA
SCIENCE, 2003, 299 (5611) : 1367 - 1372
[9] Electron impact ionization of Arn, (H2O)n, Arn(H2O)m clusters
M. A. Khodorkovskii
T. O. Artamonova
S. V. Murashov
D. Michael
L. P. Rakcheeva
A. A. Belyaeva
N. A. Timofeev
A. S. Mel’nikov
A. L. Shakhmin
I. A. Dement’ev
Technical Physics, 2009, 54 : 1 - 6
[10] Electron impact ionization of Arn, (H2O)n, Arn(H2O)m clusters
Khodorkovskii, M. A.
Artamonova, T. O.
Murashov, S. V.
Michael, D.
Rakcheeva, L. P.
Belyaeva, A. A.
Timofeev, N. A.
Mel'nikov, A. S.
Shakhmin, A. L.
Dement'ev, I. A.
TECHNICAL PHYSICS, 2009, 54 (01) : 1 - 6

← 1 2 3 4 5 →