CheM., & BennettC.O. (1989) The influence of particle size on the catalytic properties of supported metals. Advances in Catalysis [Review]: 36, 55–172.
HarutaM. (1997) Size- and support dependency in the catalysis of gold [Review]. Catalysis Today, 36, 1, 153–166.
4.
MohrC., HofmeisterH., LucasM., & ClausP. (2000) Gold catalysts for the partial hydrogenation of acrolein. Chemical Engineering Technology, 23(4), 324–328.
BeeckO. (1945) Catalysis – A Challenge to the Physicist [Review]. Rev. Mod. Phys., 17, 61.
7.
BondG.C., SermonP.A., WebbG., BuchananD.A., & WellsP.B. (1973) Hydrogenation over supported gold catalysts: JCS Chemical Communications, 444–445.
8.
ShibataM., KawataN., MasumotoT., & KimuraH. (1988) Selective hydrogenation of unsaturated carbonyl compounds over an oxidized gold-zirconium alloy:JCS Chemical Communications, 154–156.
9.
SchimpfS., LucasM., & ClausP. (2001) Selective hydrogenation of 1,3-buta-diene over supported gold nanoparticles. DGMK Conference Creating Value from Light Olefins, Oct. 10-12th, Hamburg, Proc. ISBN 3-931850-84-6.
(a) AugustineR. L. (1995) Heterogeneous Catalysts in Organic Synthesis, Dekker, New York; (b) Bauer, K. & Garbe, D. (2000) In: Ullmann's Encyclopedia of Industrial Chemistry, 6th edn., Electronic Release.
12.
ClausP. (1998) Selective hydrogenation of α,β-unsaturated aldehydes and other C = O and C = C bonds containing compounds [Review]. Topics in Catalysis, 5(1-4): 51–62.
PonecV. (1997) On the role of promoters in hydrogenations on metals: α,β-unsaturated aldehydes and ketons. Applied Catalysis A: General149, 27–48.
15.
(a) ClausP., & HofmeisterH. (1999) Electron microscopy and catalytic study of silver catalysts: Structure sensitivity of the hydrogenation of crotonaldehyde. Journal of Physical Chemistry B103, 14, 2766–2775; (b) Claus, P., Kraak, P. & Schödel, R. (1997) Selective hydrogenation of α,β-unsaturated aldehydes to allylic alcohols over supported monometallic and bimetallic Ag catalysts. Studies in Surface Science and Catalysis, 108: Heterogeneous Catalysis and Fine Chemicals IV (H.-U. Blaser, A. Baiker, R. Prins, eds), Elsevier, Amsterdam, 281-288.
16.
ClausP., & HofmeisterH. (1998) Silber-Nanopartikel als selektive Hydrierkatalysatoren, Proc. DECHEMA-Workshop Funktionalisierte Nanopartikel, 23.–24.04.1998, Frankfurt/Main, p. 3.2.
17.
TausterS. J., FungS. C., & GartenR. L. (1978), Strong Metal-Support Interactions. Group 8 noble metals supported on TiO2. Journal of the American Chemical Society, 100, 170.
18.
CoqB., & FiguerasF. (1998) Structure-activity relationships in catalysis by metals: some aspects of particle size, bimetallic and support effects [Review]. Coordination Chemistry Reviews, 178-180, 1753–1783.
19.
NeriG., MercadanteL., MiloneC., PietropaoloR., & GalvagnoS. (1996) Hydrogenation of citral and cinnamaldehyde over bimetallic Ru-Me/Al2O3 catalysts. Journal of Molecular Catalysis A: Chemical108, 41–50.
20.
ClausP., LucasM., & MünznerH. DE 195 33 578 C1, 29.08.1995.
21.
BailieJ.E., & HutchingsG.J. (1999) Promotion by sulfur of gold catalysts for crotyl alcohol formation from crotonaldehyde hydrogenation:Chemical Communications, 21, 2151–2152.
22.
ShibataM., KimuraH., & MasumotoT. (1990) Partial hydrogenations of unsaturated carbonyl compounds and unsaturated hydrocarbons over an oxidized gold-zirconium alloy. Journal of Chemical Society of Japan6, 628–635.
23.
ClausP., BrücknerA., MohrC., HofmeisterH. (2000) Supported gold nanoparticles from quantum dot to mesoscopic size scale: Effect of electronic and structural properties on catalytic hydrogenation of conjugated functional groups. Journal of the American Chemical Society, 122(46), 11430–11439.
24.
van HardefeldR., HartogF. (1969) Statistics of surface atoms and surface sites on metal crystals. Surface Science, 15(2): 189–230.
25.
HenryC.R. (1998) Surface studies of supported model catalysts [Review]. Surface Science Reports31, 235–325.
26.
BondG.C. (1991) Supported metal catalysts – Some unsolved problems [Review]. Chemical Society Reviews, 20(4): 441–475.
27.
MohrC., RadnikJ., HofmeisterH., & ClausP. (2001) Effect of indium addition on selective hydrogenation of acrolein on supported gold catalysts, in preparation.
28.
RadnikJ., MohrC., & ClausP. (2001) Influence of preparation and kind of support on the electronic state of supported gold nanoparticles, in preparation.
29.
StobinskiL., ZommerL., DusR. (1999) Molecular hydrogen interactions with discontinuous and continuous thin gold films. Applied Surface Science, 141(3-4), 319–325.
30.
MohrC., HofmeisterH., & ClausP. (2001) Structure sensitivity and influence of multiply twinned particles on partial hydrogenation of acrolein on Au/ZrO2 catalysts, in preparation.
31.
ValdenM., LaiX., & GoodmanD.W. (1998) Onset of catalytic activity of gold clusters on titania with the appearence of nonmetallic properties. Science281, 1647–1650.
32.
AkitaM., OsakaN., & ItohK. (1997) Infra-red reflection absorption spectro-scopic study on adsorption structures of acrolein on polycrystalline gold and Au(111) surfaces under ultra-high vacuum conditions. Surface Science405, 172–181.
33.
SomorjaiG.A., & RupprechterG. (1998) The flexible surface. Journal of Chemical Education75, 2, 161–176.
34.
van SantenR.A., & NeurockM. (1995) Concepts in theoretical heterogeneous catalytic reactivity. Catalytic Review-Science Engineering, 37, 557–698.
35.
DelbecqF., & SautetP. (1996) Competitive C=C and C=O adsorption of α,β-unsaturated aldehydes on Pt and Pd surfaces in relation with the selectivity of hydrogentation reactions – A theoretical approach. Journal of Catalysis, 164, 152–165.
36.
ClausP., & LucasM. (2001) Selective hydrogenation of acrolein to allyl alcohol over Ag-In/SiO2 catalysts, 5th European Congress on Catalysis, Symposium 19.Catalysis by silver and gold, Limerick, 02-07 Sept. 2001, submitted.
