Chemistry Reference
In-Depth Information
259. Li FX, Gorham K, Armentrout PB (2010) Oxidation of atomic gold ions: thermochemistry for
the activation of O
2
and N
2
ObyAu
+
(1S 0and 3D). J Phys Chem A 114(42):11043-11052
260. Li FX, Armentrout PB (2006) Activation of methane by gold cations: guided ion beam and
theoretical studies. J Chem Phys 125(13):188114
261. Schwarz H (2003) Relativistic effects in gas-phase ion chemistry: an experimentalist's view.
Angew Chem Int Ed 42(37):4442-4454
262. Schroeder D, Schwarz H, Hrusak J, Pyykkoe P (1998) Cationic gold(I) complexes of xenon
and of ligands containing the donor atoms oxygen, nitrogen, phosphorus, and sulfur.
Inorg Chem 37(4):624-632. doi:
10.1021/IC970986M
263. Neumaier M, Weigend F, Hampe O, Kappes MM (2005) Binding energies of CO on gold
cluster cations Au
n
+
(n
¼
1-65): a radiative association kinetics study. J Chem Phys 122(10):
104702
264. Neumaier M, Weigend F, Hampe O, Kappes MM (2006) Reactions of mixed silver-gold
cluster cations AgmAu n + (m + n
¼
4,5,6) with CO: Radiative association kinetics and
density functional theory computations. J Chem Phys 125(10):104308
265. Lang SM, Bernhardt TM, Barnett RN, Landman U (2010) Size-dependent binding energies of
methane to small gold clusters. ChemPhysChem 11(7):1570-1577
266. Popolan DM, N
¨
ssler M, Mitri
´
R, Bernhardt TM, Bona
ˇ
i
´
-Kouteck
´
V (2011) Tuning
cluster reactivity by charge state and composition: experimental and theoretical investigation
of CO binding energies to Ag nAu m +/- (n + m ¼ 3). J Phys Chem A 115(6):951-959
267. Popolan DM, N¨ßler M, Mitri´ R, Bernhardt TM, Bonai´-Kouteck´ V (2010) Composition
dependent adsorption of multiple CO molecules on binary silver-gold clusters Ag
n
Au
m
+
(n + m ¼ 5): theory and experiment. Phys Chem Chem Phys 12(28):7865-7873
268. Bernhardt TM, Hagen J, Lang SM, Popolan DM, Socaciu-Siebert LD, W¨ste L (2009) Binding
energies of O
2
and CO to small gold, silver, and binary silver-gold cluster anions from
temperature dependent reaction kinetics measurements. J Phys Chem A 113(12):2724-2733
269. Cox DM, Brickman R, Creegan K, Kaldor A (1991) Gold clusters: reactions and deuterium
uptake. Z Phys D At Mol Clusters 19(1-4):353-355. doi:
10.1007/BF01448327
270. Lian L, Hackett PA, Rayner DM (1993) Relativistic effects in reactions of the coinage metal
dimers in the gas phase. J Chem Phys 99(4):2583-2590. doi:
10.1063.1.4652.1
271. Lang SM, Bernhardt TM, Barnett RN, Yoon B, Landman U (2009) Hydrogen-promoted
oxygen activation by free gold cluster cations. J Am Chem Soc 131(25):8939-8951. doi:
10.
272. Dietrich G, Luetzenkirchen K, Becker S, Hasse HU, Kluge HJ, Lindinger M, Schweikhard L,
Ziegler J, Kuznetsov S (1994) Au
n
+
-induced decomposition of N
2
O. Ber Bunsen Ges 98(12):
1608-1612
273. Lee TH, Ervin KM (1994) Reactions of copper group cluster anions with oxygen and carbon
monoxide. J Phys Chem 98(40):10023-10031
274. Cox DM, Brickman RO, Creegan K, Kaldor A (1991) Studies of the chemical properties of
size selected metal clusters: kinetics and saturation. Mater Res Soc Symp Proc (Clusters
Cluster-Assem Mater) 206:43-48
275. Salisbury BE, Wallace WT, Whetten RL (2000) Low-temperature activation of molecular
oxygen by gold clusters: a stoichiometric process correlated to electron affinity. Chem Phys
262(1):131-141. doi:
10.1016/S0301-0104(00)00272-X
276. Wallace WT, Whetten RL (2002) Coadsorption of CO and O
2
on selected gold clusters:
evidence for efficient room-temperature CO
2
generation. J Am Chem Soc 124(25):
7499-7505. doi:
10.1021/ja0175439
277. Su T, Chesnavich WJ (1982) Parametrization of the ion-polar molecule collision rate constant
by trajectory calculations. J Chem Phys 76(10):5183-5185. doi:
10.1063.1.4428.8
278. Wallace WT, Wyrwas RB, Leavitt AJ, Whetten RL (2005) Adsorption of carbon monoxide
on smaller gold-cluster anions in an atmospheric-pressure flow-reactor: temperature and
humidity dependence. Phys Chem Chem Phys 7(5):930-937. doi:
10.1039/b500398a
