References
Goodman DW, Kelley RD, Madey TE, Yates JT (1980) Kinetics of the hydrogenation of CO over a single-crystal nickel-catalyst. J Catal 63:226–234
Goodman DW, White JM (1979) Measurement of active-carbon on ruthenium(110)—relevance to catalytic methanation. Surf Sci 90:201–203
Goodman DW, Kelley RD, Madey TE, White JM (1980) Measurement of carbide buildup and removal kinetics on Ni(100). J Catal 64:479–481
Goodman DW, Kiskinova M (1981) Chemisorption and reactivity studies of H2 and CO on sulfided Ni(100). Surf Sci 105:L265–L270
Kiskinova M, Goodman DW (1981) Modification of chemisorption properties by electronegative adatoms—H2 and CO on chlorided, sulfided, and phosphided Ni(100). Surf Sci 108:64–76
Kiskinova M, Goodman DW (1981) Interaction of H2 and CO with carbided and nitrided Ni(100). Surf Sci 109:L555–L559
Campbell CT, Goodman DW (1982) A surface science investigation of the role of potassium additives in nickel catalysts for CO hydrogenation. Surf Sci 123:413–426
Berlowitz PJ, Peden CHF, Goodman DW (1988) Kinetics of CO oxidation on single-crystal Pd, Pt and Ir. J Phys Chem 92:5213–5221
Goodman DW, Peden CHF (1986) CO oxidation over Rh and Ru—a comparative-study. J Phys Chem 90:4839–4843
Oh SH, Fisher GB, Carpenter JE, Goodman DW (1986) Comparative kinetic-studies of CO–O2 and CO–NO reactions over single-crystal and supported rhodium catalysts. J Catal 100:360–376
Peden CHF, Goodman DW (1986) Kinetics of CO oxidation over Ru(0001). J Phys Chem 90:1360–1365
Peden CHF, Goodman DW, Blair DS, Berlowitz PJ, Fisher GB, Oh SH (1988) Kinetics of CO oxidation by O2 or NO on Rh(111) and Rh(100) single-crystals. J Phys Chem 92:1563–1567
Beebe TP, Goodman DW, Kay BD, Yates JT (1987) Kinetics of the activated dissociative adsorption of methane on the low index planes of nickel single-crystal surfaces. J Chem Phys 87:2305–2315
Sault AG, Goodman DW (1988) Dissociative adsorption of alkanes on Ni(100)—comparison with molecular-beam results. J Chem Phys 88:7232–7239
Engstrom JR, Goodman DW, Weinberg WH (1986) Hydrogenolysis of n-butane over the (111) and (110)-(1×2) surfaces of iridium— a direct correlation between catalytic selectivity and surface-structure. J Am Chem Soc 108:4653–4655
Greenlief CM, Berlowitz PJ, Goodman DW, White JM (1987) CO methanation and ethane hydrogenolysis over Ni thin-films supported on w(110) and w(100). J Phys Chem 91:6669–6673
Peden CHF, Goodman DW (1987) Kinetics of cyclohexane dehydrogenation and hydrogenolysis over Ru(0001) and Cu/Ru(0001). J Catal 104:347–358
Rodriguez JA, Goodman DW (1991) Surface science studies of the electronic and chemical-properties of bimetallic systems. J Phys Chem 95:4196–4206
Rodriguez JA, Campbell RA, Goodman DW (1991) Electron-donor electron-acceptor interactions in bimetallic surfaces–theory and XPS studies. J Phys Chem 95:5716–5719
Rodriguez JA, Goodman DW (1992) The nature of the metal metal bond in bimetallic surfaces. Science 257:897–903
Chen MS, Kumar D, Yi CW, Goodman DW (2005) The promotional effect of gold in catalysis by palladium-gold. Science 310:291–293
Wu MC, Corneille JS, Estrada CA, He JW, Goodman DW (1991) Synthesis and characterization of ultra-thin MgO films on Mo(100). Chem Phys Lett 182:472–478
He JW, Estrada CA, Corneille JS, Wu MC, Goodman DW (1992) CO adsorption on ultrathin MgO films grown on a MO(100) surface—an iras study. Surf Sci 261:164–170
Wu MC, Truong CM, Goodman DW (1992) Electron-energy-loss-spectroscopy studies of thermally generated defects in pure and lithium-doped MgO(100) films on Mo(100). Phys Rev B 46:12688–12694
Wu MC, Corneille JS, He JW, Estrada CA, Goodman DW (1992) Preparation, characterization, and chemical-properties of ultrathin MgO films on MO(100). J Vac Sci Technol A 10:1467–1471
Xu XP, Goodman DW (1992) New approach to the preparation of ultrathin silicon dioxide films at low-temperatures. Appl Phys Lett 61:774–776
Xu XP, Vesecky SM, Goodman DW (1992) Infrared reflection-absorption spectroscopy and STM studies of model silica-supported copper-catalysts. Science 258:788–790
Xu XP, Goodman DW (1993) An infrared and kinetic-study of CO oxidation on model silica-supported palladium catalysts from 10−9 to 15-torr. J Phys Chem 97:7711–7718
Chen PJ, Goodman DW (1994) Epitaxial-growth of ultrathin Al2O3 films on Ta(110). Surf Sci 312:L767–L773
Xu XP, Chen PJ, Goodman DW (1994) A comparative-study of the coadsorption of CO and NO on Pd(100), Pd(111), and silica-supported palladium particles with infrared reflection-absorption spectroscopy. J Phys Chem 98:9242–9246
Rainer DR, Vesecky SM, Koranne M, Oh WS, Goodman DW (1997) The CO + NO reaction over Pd: a combined study using single-crystal, planar-model-supported, and high-surface-area Pd/Al2O3 catalysts. J Catal 167:234–241
Street SC, Xu C, Goodman DW (1997) The physical and chemical properties of ultrathin oxide films. Annu Rev Phys Chem 48:43–68
Rainer DR, Goodman DW (1998) Metal clusters on ultrathin oxide films: model catalysts for surface science studies. J Mol Catal A 131:259–283
Chusuei CC, Lai X, Luo K, Goodman DW (2001) Modeling heterogeneous catalysts: metal clusters on planar oxide supports. Top Catal 14:71–83
Goodman DW (1995) Model studies in catalysis using surface science probes. Chem Rev 95:523–536
Xu C, Lai X, Zajac GW, Goodman DW (1997) Scanning tunneling microscopy studies of the TiO2(110) surface: structure and the nucleation growth of Pd. Phys Rev B 56:13464–13482
Lai X, St Clair TP, Valden M, Goodman DW (1998) Scanning tunneling microscopy studies of metal clusters supported on TiO2 (110): morphology and electronic structure. Prog Surf Sci 59:25–52
Valden M, Lai X, Goodman DW (1998) Onset of catalytic activity of gold clusters on titania with the appearance of nonmetallic properties. Science 281:1647–1650
Valden M, Pak S, Lai X, Goodman DW (1998) Structure sensitivity of CO oxidation over model Au/TiO2 catalysts. Catal Lett 56:7–10
Lai XF, Goodman DW (2000) Structure-reactivity correlations for oxide-supported metal catalysts: new perspectives from STM. J Mol Catal A 162:33–50
Choudhary TV, Goodman DW (2002) Oxidation catalysis by supported gold nano-clusters. Top Catal 21:25–34
Goodman DW (2003) Model catalysts: from imagining to imaging a working surface. J Catal 216:213–222
Chen MS, Goodman DW (2004) The structure of catalytically active gold on titania. Science 306:252–255
Meier DC, Goodman DW (2004) The influence of metal cluster size on adsorption energies: CO adsorbed on Au clusters supported on TiO2. J Am Chem Soc 126:1892–1899
Chen MS, Goodman DW (2006) Catalytically active gold: From nanoparticles to ultrathin films. Acc Chem Res 39:739–746
Chen MS, Goodman DW (2006) Structure-activity relationships in supported Au catalysts. Catal Today 111:22–33
Chen MS, Goodman DW (2008) Catalytically active gold on ordered titania supports. Chem Soc Rev 37:1860–1870
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Campbell, C.T. D. W. (“Wayne”) Goodman: A Pioneer in Elucidating the Relationships Between Surface Structure of Catalysts and Their Performance, and in Using Model Catalysts for That Purpose. Top Catal 56, 1273–1276 (2013). https://doi.org/10.1007/s11244-013-0136-9
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DOI: https://doi.org/10.1007/s11244-013-0136-9