Chemistry Reference
In-Depth Information
337. Thune E, Carpene E, Sauthoff K, Seibt M, Reinke P (2005) Gold nanoclusters on amorphous
carbon synthesized by ion-beam deposition. J Appl Phys 98(3):034304/034301-034304/
034309. doi:
10.1063.1.19859.7
338. DiCenzo SB, Berry SD, Hartford EH Jr (1988) Photoelectron spectroscopy of single-size Au
clusters collected on a substrate. Phys Rev B 38(12):8465-8468
339. Perez A, Melinon P, Dupuis V, Jensen P, Prevel B, Tuaillon J, Bardotti L, Martet C,
Treilleux M, Broyer M, Pellarin M, Vaille JL, Palpant B, Lerme J (1997) Cluster assembled
materials: a novel class of nanostructured solids with original structures and properties.
J Phys D Appl Phys 30(5):709-721. doi:
10.1088/0022-3727/30/5/003
340. Bardotti L, Prevel B, Melinon P, Perez A, Hou Q, Hou M (2000) Deposition of AuN clusters
on Au(111) surfaces. II. Experimental results and comparison with simulations. Phys Rev B
Condens Matter Mater Phys 62(4):2835-2842
341. Tong X, Benz L, Kemper P, Metiu H, Bowers MT, Buratto SK (2005) Intact size-selected
Aun clusters on a TiO
2
(110)-(1
ʼ
e 1) surface at room temperature. J Am Chem Soc 127(39):
13516-13518. doi:
10.1021/ja052778w
342. Vajda S, Winans RE, Elam JW, Lee B, Pellin MJ, Seifert S, Tikhonov GY, Tomczyk NA
(2006) Supported gold clusters and cluster-based nanomaterials: characterization, stability
and growth studies by in situ GISAXS under vacuum conditions and in the presence of
hydrogen. Top Catal 39(3-4):161-166. doi:
10.1007/s11244-006-0052-3
343. DiVece M, Young NP, Li Z, Chen Y, Palmer RE (2006) Co-deposition of atomic clusters of
different size and composition. Small 2(11):1270-1272. doi:
10.1002/smll.200600065
344. Bardotti L, Tournus F, Melinon P, Pellarin M, Broyer M (2011) Mass-selected clusters
deposited on graphite. Spontaneous organization controlled by cluster surface reaction.
Phys Rev B Condens Matter Mater Phys 83(3):035425/035421-035425/035428. doi:
10.
345. Johnson GE, Priest T, Laskin J (2012) Charge retention by gold clusters on surfaces prepared
using soft landing of mass selected ions. ACS Nano 6(1):573-582. doi:
10.1021/nn2039565
346. Johnson GE, Priest T, Laskin J (2012) Coverage-dependent charge reduction of cationic gold
clusters on surfaces prepared using soft landing of mass-selected ions. J Phys Chem C 116
(47):24977-24986
347. Cox DM, Eberhardt W, Fayet P, Fu Z, Kessler B, Sherwood RD, Sondericker D, Kaldor A
(1991) Electronic structure of deposited monosized metal-clusters. Z Phys D At Mol Clusters
20(1-4):385-386. doi:
10.1007/BF01544017
348. Heiz U, Bullock EL (2004) Fundamental aspects of catalysis on supported metal clusters.
J Mater Chem 14(4):564-577. doi:
10.1039/b313560h
349. Sanchez A, Abbet S, Heiz U, Schneider WD, H¨kkinen H, Barnett RN, Landman U (1999)
When gold is not noble: nanoscale gold catalysts. J Phys Chem A 103(48):9573-9578
350. Heiz U, Sanchez A, Abbet S, Schneider WD (2000) Tuning the oxidation of carbon monoxide
using nanoassembled model catalysts. Chem Phys 262(1):189-200. doi:
10.1016/S0301-0104
351. Lee S, Fan C, Wu T, Anderson SL (2004) CO oxidation on Aun/TiO
2
catalysts produced by
size-selected cluster deposition. J Am Chem Soc 126(18):5682-5683. doi:
10.1021/ja049436v
352. Yoon B, Haekkinen H, Landman U, Woerz AS, Antonietti J-M, Abbet S, Judai K, Heiz U
(2005) Charging effects on bonding and catalyzed oxidation of CO on Au
8
clusters on MgO.
Science (Washington, DC, U S) 307(5708):403-407. doi:
10.1126/science.1104168
353. Leung C, Xirouchaki C, Berovic N, Palmer RE (2004) Immobilization of protein molecules
by size-selected metal clusters on surfaces. Adv Mater (Weinheim, Ger) 16(3):223-226.
354. Lim DC, Dietsche R, Bubek M, Ketterer T, Gantef¨r G, Kim YD (2007) Chemistry of mass-
selected Au clusters deposited on sputter-damaged HOPG surfaces: the unique properties of
Au
8
clusters. Chem Phys Lett 439(4-6):364-368
355. Lim DC, Dietsche R, Bubek M, Gantefor G, Kim YD (2006) Oxidation and reduction of
mass-selected Au clusters on SiO
2
/Si. ChemPhysChem 7(9):1909-1911
