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(Updated on 16/02/2014)
[1] F. Cárdenas-Lizana, X.
Wang, D. Lamey, M. Li, M.A. Keane, K.-M. L., An examination of catalyst
deactivation in nitroarene hydrogenation over supported gold, Chemical
Engineering Journal, submitted.
[2] A. Foster, N. Barnes, R.
Speight, M.A. Keane, The repertoire of nitrogen assimilation in Rhodococcus:
catalysis, pathways and relevance in biotechnology and bioremediation,
Journal of Chemical Technology and Biotechnology, in press.
[3] X. Wang, M. Li, M.A.
Keane, Harnessing the selective catalytic action of supported gold in
hydrogenation applications, in: Z. Ma, S. Dai (Eds.) Heterogeneous Gold
Catalysts and Catalysis, Royal Society of Chemistry, in press.
[4] N. Perret, X. Wang, T.
Onfroy, C. Calers, M.A. Keane, Selectivity in the gas-phase hydrogenation of
4-nitrobenzaldehyde over supported Au catalysts, Journal of Catalysis 309
(2014) 333-342.
[5] M. Li, X. Wang, N. Perret,
M.A. Keane, Enhanced production of benzyl alcohol in the gas phase
continuous hydrogenation of benzaldehyde over Au/Al2O3,
Catalysis Communications 46 (2014) 187-191.
[6] F. Cárdenas-Lizana, S.
Gómez-Quero, C. Amorim, M.A. Keane, Gas phase hydrogenation of
p-chloronitrobenzene over Pd-Ni/Al2O3, Applied
Catalysis A-General 473 (2014) 41-50.
[7] X. Wang, N. Perret, M.A.
Keane, Gas phase hydrogenation of nitrocyclohexane over supported gold
catalysts, Applied Catalysis A-General 467 (2013) 575-584.
[8] X. Wang, N. Perret, J.J.
Delgado, G. Blanco, X. Chen, C.M. Olmos, S. Bernal, M.A. Keane, Reducible
support effects in the gas phase hydrogenation of p-chloronitrobenzene over
gold, Journal of Physical Chemistry C 117 (2013) 994-1005.
[9] S. Gomez-Quero, F.
Cardenas-Lizana, M.A. Keane, Unique selectivity in the hydrodechlorination
of 2,4-dichlorophenol over hematite-supported Au, Journal of Catalysis 303
(2013) 41-49.
[10] A. Foster, N. Barnes, R.
Speight, P.C. Morris, M.A. Keane, Role of amine oxidase expression to
maintain putrescine homeostasis in Rhodococcus opacus, Enzyme and Microbial
Technology 52 (2013) 286-295.
[11] A. Foster, N. Barnes, R.
Speight, M.A. Keane, Genomic organisation, activity and distribution
analysis of the microbial putrescine oxidase degradation pathway, Systematic
and Applied Microbiology 36 (2013) 457-466.
[12] F. Cardenas-Lizana, M.A.
Keane, The development of gold catalysts for use in hydrogenation reactions,
Journal of Materials Science 48 (2013) 543-564.
[13] F. Cardenas-Lizana, Y.
Hao, M. Crespo-Quesada, I. Yuranov, X. Wang, M.A. Keane, L. Kiwi-Minsker,
Selective gas phase hydrogenation of p-chloronitrobenzene over Pd catalysts:
role of the support, ACS Catalysis 3 (2013) 1386-1396.
[14] H.H.P. Yiu, M.A. Keane,
Enzyme-magnetic nanoparticle hybrids: new effective catalysts for the
production of high value chemicals, Journal of Chemical Technology and
Biotechnology 87 (2012) 583-594.
[15] X. Wang, N. Perret, M.A.
Keane, The role of hydrogen partial pressure in the gas phase hydrogenation
of p-chloronitrobenzene over alumina supported Au and Pd: A consideration of
reaction thermodynamics and kinetics, Chemical Engineering Journal 210
(2012) 103-113.
[16] N. Perret, X. Wang, L.
Delannoy, C. Potvin, C. Louis, M.A. Keane, Enhanced selective nitroarene
hydrogenation over Au supported on beta-Mo2C and beta-Mo2C/Al2O3,
Journal of Catalysis 286 (2012) 172-183.
[17] N. Perret, F.
Cardenas-Lizana, D. Lamey, V. Laporte, L. Kiwi-Minsker, M.A. Keane, Effect
of crystallographic phase (beta vs. gamma) and surface area on gas phase
nitroarene hydrogenation over Mo2N and Au/Mo2N, Topics
in Catalysis 55 (2012) 955-968.
[18] M.A. Keane, R. Larsson,
Isokinetic behavior in the gas phase hydrogenation of nitroarenes over
Au/TiO2: application of the selective energy transfer model,
Reaction Kinetics Mechanisms and Catalysis 106 (2012) 267-288.
[19] S. Gomez-Quero, F.
Cardenas-Lizana, M.A. Keane, Nano-scale Au supported on Fe3O4:
characterization and application in the catalytic treatment of
2,4-dichlorophenol, Nanotechnology 23 (2012).
[20] A. Foster, N. Barnes, R.
Speight, M.A. Keane, Identification, functional expression and kinetic
analysis of two primary amine oxidases from Rhodococcus opacus, Journal of
Molecular Catalysis B-Enzymatic 74 (2012) 73-82.
[21] F. Cardenas-Lizana, D.
Lamey, N. Perret, S. Gomez-Quero, L. Kiwi-Minsker, M.A. Keane, Au/Mo2N
as a new catalyst formulation for the hydrogenation of p-chloronitrobenzene
in both liquid and gas phases, Catalysis Communications 21 (2012) 46-51.
[22] F. Cardenas-Lizana, S.
Gomez-Quero, L. Kiwi-Minsker, M.A. Keane, Gold nano-particles supported on
hematite and magnetite as highly selective catalysts for the hydrogenation
of nitro-aromatics, International Journal of Nanotechnology 9 (2012) 92-112.
[23] F. Cardenas-Lizana, S.
Gomez-Quero, G. Jacobs, Y. Ji, B.H. Davis, L. Kiwi-Minsker, M.A. Keane,
Alumina supported Au-Ni: surface synergism in the gas phase hydrogenation of
nitro-compounds, Journal of Physical Chemistry C 116 (2012) 11166-11180.
[24] C. Amorim, M.A. Keane,
Catalytic hydrodechlorination of chloroaromatic gas streams promoted by Pd
and Ni: The role of hydrogen spillover, Journal of Hazardous Materials 211
(2012) 208-217.
[25] N. Perret, F.
Cardenas-Lizana, M.A. Keane, Selective hydrogenation of benzaldehyde to
benzyl alcohol over Au/Al2O3, Catalysis Communications
16 (2011) 159-164.
[26] M. Murdoch, G.I.N.
Waterhouse, M.A. Nadeem, J.B. Metson, M.A. Keane, R.F. Howe, J. Llorca, H.
Idriss, The effect of gold loading and particle size on photocatalytic
hydrogen production from ethanol over Au/TiO2 nanoparticles, Nature
Chemistry 3 (2011) 489-492.
[27] M.A. Keane, Supported
transition metal catalysts for hydrodechlorination reactions, ChemCatChem 3
(2011) 800-821.
[28] S. Gomez-Quero, F.
Cardenas-Lizana, M.A. Keane, Liquid phase catalytic hydrodechlorination of
2,4-dichlorophenol over Pd/Al2O3: Batch vs. continuous
operation, Chemical Engineering Journal 166 (2011) 1044-1051.
[29] F. Cardenas-Lizana, D.
Lamey, S. Gomez-Quero, N. Perret, L. Kiwi-Minsker, M.A. Keane, Selective
three-phase hydrogenation of aromatic nitro-compounds over beta-molybdenum
nitride, Catalysis Today 173 (2011) 53-61.
[30] F. Cardenas-Lizana, S.
Gomez-Quero, N. Perret, L. Kiwi-Minsker, M.A. Keane, beta-Molybdenum
nitride: synthesis mechanism and catalytic response in the gas phase
hydrogenation of p-chloronitrobenzene, Catalysis Science & Technology 1
(2011) 794-801.
[31] F. Cardenas-Lizana, S.
Gomez-Quero, N. Perret, M.A. Keane, Gold catalysis at the gas-solid
interface: role of the support in determining activity and selectivity in
the hydrogenation of m-dinitrobenzene, Catalysis Science & Technology 1
(2011) 652-661.
[32] C. Amorim, X. Wang, M.A.
Keane, Application of hydrodechlorination in environmental pollution
control: comparison of the performance of supported and unsupported Pd and
Ni catalysts, Chinese Journal of Catalysis 32 (2011) 746-755.
[33] M.A. Nadeem, M. Murdoch,
G.I.N. Waterhouse, J.B. Metson, M.A. Keane, J. Llorca, H. Idriss,
Photoreaction of ethanol on Au/TiO2 anatase: Comparing the micro
to nanoparticle size activities of the support for hydrogen production,
Journal of Photochemistry and Photobiology A: Chemistry 216 (2010) 250-255.
[34] M.A. Keane, "Catalytic
Transformation of Waste Polymers". Management, Recycling and Reuse of Waste
Composites. V. Goodship, Ed., Woodhead Publ., Cambridge,, (2010) pp.
122-151.
[35] S. Jujjuri, M.A. Keane,
Catalytic hydrodechlorination at low hydrogen partial pressures: Activity
and selectivity response, Chemical Engineering Journal 157 (2010) 121-130.
[36] S. Gomez-Quero, E. Diaz,
F. Cardenas-Lizana, M.A. Keane, Solvent effects in the catalytic
hydrotreament of haloaromatics over Pd/Al2O3 in
water+organic mixtures, Chemical Engineering Science 65 (2010) 3786-3797.
[37] S. Gomez-Quero, F.
Cardenas-Lizana, M.A. Keane, Solvent effects in the hydrodechlorination of
2,4-dichlorophenol over Pd/Al2O3, AICHE Journal 56
(2010) 756-767.
[38] F. Cardenas-Lizana, S.
Gomez-Quero, C.J. Baddeley, M.A. Keane, Tunable gas phase hydrogenation of
m-dinitrobenzene over alumina supported Au and Au-Ni, Applied Catalysis
A-General 387 (2010) 155-165.
[39] F. Cardenas-Lizana, Z.M.
de Pedro, S. Gomez-Quero, M.A. Keane, Gas phase hydrogenation of
nitroarenes: A comparison of the catalytic action of titania supported gold
and silver, Journal of Molecular Catalysis A-Chemical 326 (2010) 48-54.
[40] A. Nieto-Marquez, J.L.
Valverde, M.A. Keane, Selective low temperature synthesis of carbon
nanospheres via the catalytic decomposition of trichloroethylene, Applied
Catalysis A-General 352 (2009) 159-170.
[41] A. Nieto-Marquez, S. Gil,
A. Romero, J.L. Valverde, S. Gomez-Quero, M.A. Keane, Gas phase
hydrogenation of nitrobenzene over acid treated structured and amorphous
carbon supported Ni catalysts, Applied Catalysis A-General 363 (2009)
188-198.
[42] M.A. Keane, R. Larsson,
Application of the selective energy transfer model to account for an
isokinetic response in the gas phase reductive cleavage of hydroxyl,
carbonyl and carboxyl groups from benzene over nickel/ailica, Catalysis
Letters 129 (2009) 93-103.
[43] M.A. Keane, S.
Gomez-Quero, F. Cardenas-Lizana, W.Q. Shen, Alumina-supported Ni-Au: surface
synergistic effects in catalytic hydrodechlorination, ChemCatChem 1 (2009)
270-278.
[44] M.A. Keane, Catalytic
transformation of waste polymers to fuel oil, ChemSusChem 2 (2009) 207-214.
[45] E.R. Ding, M.R. Sturgeon,
A. Rath, X.N. Chen, M.A. Keane, S.G. Shore, Syntheses and structures of
alkaline earth-transition metal bimetallic complexes as heterogeneous
hydrodechlorination catalyst precursors, Inorganic Chemistry 48 (2009)
325-330.
[46] G.-Q. Cardenas-Lizana F,
S & Keane, M.A., Synthesis of an alumina supported Au-Ni alloy: application
in m-dinitrobenzene hydrogenation, Catalysis Letters 127 (2009) 25-32.
[47] F. Cardenas-Lizana, S.
Gomez-Quero, N. Perret, M.A. Keane, Support effects in the selective gas
phase hydrogenation of p-chloronitrobenzene over gold, Gold Bulletin 42
(2009) 124-132.
[48] F. Cardenas-Lizana, S.
Gomez-Quero, H. Idriss, M.A. Keane, Gold particle size effects in the
gas-phase hydrogenation of m-dinitrobenzene over Au/TiO2, Journal
of Catalysis 268 (2009) 223-234.
[49] F. Cardenas-Lizana, S.
Gomez-Quero, A. Hugon, L. Delannoy, C. Louis, M.A. Keane, Pd-promoted
selective gas phase hydrogenation of p-chloronitrobenzene over alumina
supported Au, Journal of Catalysis 262 (2009) 235-243.
[50] H.H.P. Yiu, M.A. Keane,
Z.A.D. Lethbridge, M.R. Lees, A.J. El Haj, J. Dobson, Synthesis of novel
magnetic iron metal-silica (Fe-SBA-15) and magnetite-silica (Fe3O4-SBA-15)
nanocomposites with a high iron content using temperature-programed
reduction, Nanotechnology 19 (2008).
[51] A. Kraft, A. Hartung, A.
Wiles, M.A. Keane, K.J. McCullough, ORGN 228-Advantages of a continuous flow
microreactor over a standard glass apparatus: The synthesis of
trans-1,2-cyclohexanediol, cycloheptene, and naphthvalene, Abstracts of
Papers of the American Chemical Society 235 (2008) 228-ORGN.
[52] M.A. Keane, B. Mutus, In
focus: catalysis, Journal of Chemical Technology and Biotechnology 83 (2008)
1445-1446.
[53] M.A. Keane, R. Larsson,
On the stepwise change of activation energies in the hydrodechlorination of
chlorobenzene over supported nickel, Catalysis Communications 9 (2008)
333-336.
[54] M.A. Keane, Ecological
Management via Catalysis: Detoxification of Chlorophenols in Water, Chapter
6, Ecological Management: New Research, M.S. Alonso and I.M. Rubio, Eds.,
Nova Science Publ. Inc., Hauppauge, NY (2008) 140-164.
[55] S. Gomez-Quero, F.
Cardenas-Lizana, M.A. Keane, Effect of metal dispersion on the liquid-phase
hydrodechlorination of 2,4-dichlorophenol over Pd/Al2O3,
Industrial & Engineering Chemistry Research 47 (2008) 6841-6853.
[56] E. Ding, S. Jujjuri, M.
Sturgeon, S.G. Shore, M.A. Keane, Novel one step preparation of silica
supported Pd/Sr and Pd/Ba catalysts via an organometallic precursor:
Application in hydrodechlorination and hydrogenation, Journal of Molecular
Catalysis A-Chemical 294 (2008) 51-60.
[57] F. Cardenas-Lizana, S.
Gomez-Quero, M.A. Keane, Ultra-selective gas phase catalytic hydrogenation
of aromatic nitro compounds over Au/Al2O3, Catalysis
Communications 9 (2008) 475-481.
[58] F. Cardenas-Lizana, S.
Gomez-Quero, M.A. Keane, Clean production of chloroanilines by selective gas
phase hydrogenation over supported Ni catalysts, Applied Catalysis A-General
334 (2008) 199-206.
[59] F. Cardenas-Lizana, S.
Gomez-Quero, M.A. Keane, Exclusive production of chloroaniline from
chloronitrobenzene over Au/TiO2 and Au/Al2O3,
ChemSusChem 1 (2008) 215-221.
[60] C. Amorim, M.A. Keane,
Palladium supported on structured and nonstructured carbon: A consideration
of Pd particle size and the nature of reactive hydrogen, Journal of Colloid
and Interface Science 322 (2008) 196-208.
[61] C. Amorim, M.A. Keane,
Effect of surface acid groups associated with amorphous and structured
carbon on the catalytic hydrodechlorination of chlorobenzenes, Journal of
Chemical Technology and Biotechnology 83 (2008) 662-672.
[62] G. Yuan, C. Louis, L.
Delannoy, M.A. Keane, Silica- and titania-supported Ni-Au: Application in
catalytic hydrodechlorination, Journal of Catalysis 247 (2007) 256-268.
[63] G. Yuan, M.A. Keane,
Aqueous-phase hydrodechlorination of 2,4-dichlorophenol over Pd/Al2O3:
Reaction under controlled pH, Industrial & Engineering Chemistry Research 46
(2007) 705-715.
[64] A. Nieto-Marquez, J.L.
Valverde, M.A. Keane, Catalytic growth of structured carbon from
chloro-hydrocarbons, Applied Catalysis A-General 332 (2007) 237-246.
[65] M.A. Keane, R. Larsson,
Isokinetic behaviour in gas phase catalytic hydrodechlorination of
chlorobenzene over supported nickel, Journal of Molecular Catalysis
A-Chemical 268 (2007) 87-94.
[66] M.A. Keane, Catalytic
conversion of waste plastics: Focus on waste PVC, Journal of Chemical
Technology and Biotechnology 82 (2007) 787-795.
[67] S. Jujjuri, E. Ding, S.G.
Shore, M.A. Keane, A characterization of Ln-Pd/SiO2 (Ln=La, Ce,
Sm, Eu, Gd and Yb): Correlation of surface chemistry with hydrogenolysis
activity, Journal of Molecular Catalysis A-Chemical 272 (2007) 96-107.
[68] A. Hartung, M.A. Keane,
A. Kraft, Advantages of synthesizing trans-1,2-cyclohexanediolin a
continuous flow microreactor over a standard glass apparatus, Journal of
Organic Chemistry 72 (2007) 10235-10238.
[69] S.M. Liu, P. Poplaukhin,
E. Ding, C.E. Plecnik, X.N. Chen, M.A. Keane, S.G. Shore, Extended
lanthanide-transition metal arrays with cyanide bridges: syntheses,
structures, and catalytic applications, Journal of Alloys and Compounds 418
(2006) 21-26.
[70] M.A. Keane, R. Larsson,
Isokinetic behaviour in gas phase catalytic haloarene hydrodehalogenation
reactions: Mechanistic considerations, Journal of Molecular Catalysis
A-Chemical 249 (2006) 158-165.
[71] M.A. Keane, G. Jacobs,
P.M. Patterson, Ni/SiO2 promoted growth of carbon nanofibers from
chlorobenzene: Characterization of the active metal sites, Journal of
Colloid and Interface Science 302 (2006) 576-588.
[72] M.A. Keane, Adsorption on
Activated Carbon and Zeolite Surfaces: Recovery of Chlorinated Organic
Compounds, Encyclopedia of Surface and Colloid Science, 2nd Edition, P.
Somasundaran, Ed., Taylor & Francis, New York (2006) 799-805.
[73] S. Jujjuri, E. Ding, E.L.
Hommel, S.G. Shore, M.A. Keane, Synthesis and characterization of novel
silica-supported Pd/Yb bimetallic catalysts: Application in gas-phase
hydrodechlorination and hydrogenation, Journal of Catalysis 239 (2006)
486-500.
[74] A.D. Consuegra, P.M.
Patterson, M.A. Keane, Use of unsupported and silica supported molybdenum
carbide to treat chloroarene gas streams, Applied Catalysis B-Environmental
65 (2006) 227-239.
[75] G. Yuan, J.L. Lopez, C.
Louis, L. Delannoy, M.A. Keane, Remarkable hydrodechlorination activity over
silica supported nickel/gold catalysts, Catalysis Communications 6 (2005)
555-562.
[76] K.V. Murthy, P.M.
Patterson, M.A. Keane, C-X bond reactivity in the catalytic
hydrodehalogenation of haloarenes over unsupported and silica supported Ni,
Journal of Molecular Catalysis A-Chemical 225 (2005) 149-160.
[77] M.A.P. Keane, P.M,
Catalytic Recycling of PVC Waste, Innovative Plastic Recycling Techniques,
M. Muller-Hagedom, Ed., Karlsruhe University Press, Karlsruhe (2005) 50-58.
[78] M.A. Keane, P.M.
Patterson, In situ production of nickel/graphitic carbon nanofiber
composites and application in catalytic hydrodechlorination, Catalysis
Letters 99 (2005) 33-39.
[79] M.A. Keane, A review of
catalytic approaches to waste minimization: case study - liquid-phase
catalytic treatment of chlorophenols, Journal of Chemical Technology and
Biotechnology 80 (2005) 1211-1222.
[80] C. Amorim, G. Yuan, P.M.
Patterson, M.A. Keane, Catalytic hydrodechlorination over Pd supported on
amorphous and structured carbon, Journal of Catalysis 234 (2005) 268-281.
[81] G. Yuan, M.A. Keane, Role
of base addition in the liquid-phase hydrodechlorination of
2,4-dichlorophenol over Pd/Al2O3 and Pd/C, Journal of
Catalysis 225 (2004) 510-522.
[82] G. Yuan, M.A. Keane,
Liquid phase hydrodechlorination of chlorophenols over Pd/C and Pd/Al2O3:
a consideration of HC1/catalyst interactions and solution pH effects,
Applied Catalysis B-Environmental 52 (2004) 301-314.
[83] S.G. Shore, E. Ding, C.
Park, M.A. Keane, The application of {(DMF)10Yb2[TM(CN)4]3}∞
(TM = Ni, Pd) supported on silica to promote gas phase phenol hydrogenation,
Journal of Molecular Catalysis A-Chemical 212 (2004) 291-300.
[84] C. Park, M.A. Keane,
Catalyst support effects in the growth of structured carbon from the
decomposition of ethylene over nickel, Journal of Catalysis 221 (2004)
386-399.
[85] C. Park, M.A. Keane,
Catalytic production of graphitic nanorods via the gas phase decomposition
of ethylene over supported nickel, Chemical Engineering Communications 191
(2004) 1456-1472.
[86] K.V. Murthy, P.M.
Patterson, G. Jacobs, B.H. Davis, M.A. Keane, An exploration of activity
loss during hydrodechlorination and hydrodebromination over Ni/SiO2,
Journal of Catalysis 223 (2004) 74-85.
[87] M.A. Keane, G. Pina, G.
Tavoularis, The catalytic hydrodechlorination of mono-, di- and
trichlorobenzenes over supported nickel, Applied Catalysis B-Environmental
48 (2004) 275-286.
[88] M.A. Keane, Carbon
Nanotubes and Nanofibers as Novel Metal Catalysts, Encyclopedia of
Nanoscience and Nanotechnology, J.A. Schwarz, C. Contescu and K. Putyera,
Eds., Marcel Dekker, New York (2004) 742-755.
[89] M.A. Keane,
Hydrodehalogenation of haloarenes over silica supported Pd and Ni - A
consideration of catalytic activity/selectivity and haloarene reactivity,
Applied Catalysis A-General 271 (2004) 109-118.
[90] L.D. Cherukuri, G. Yuan,
M.A. Keane, Catalytic growth of structured carbon via the decomposition of
chlorobenzene over NI/SiO2, Topics in Catalysis 29 (2004)
119-128.
[91] G. Yuan, M.A. Keane,
Liquid phase catalytic hydrodechlorination of 2,4-dichlorophenol over carbon
supported palladium: an evaluation of transport limitations, Chemical
Engineering Science 58 (2003) 257-267.
[92] G. Yuan, M.A. Keane,
Liquid phase catalytic hydrodechlorination of chlorophenols at 273 K,
Catalysis Communications 4 (2003) 195-201.
[93] G. Yuan, M.A. Keane,
Catalyst deactivation during the liquid phase hydrodechlorination of
2,4-dichlorophenol over supported Pd: influence of the support, Catalysis
Today 88 (2003) 27-36.
[94] G. Pina, C. Louis, M.A.
Keane, Nickel particle size effects in catalytic hydrogenation and
hydrodechlorination: phenolic transformations over nickel/silica, Physical
Chemistry Chemical Physics 5 (2003) 1924-1931.
[95] C. Park, M.A. Keane,
Catalyst support effects: gas-phase hydrogenation of phenol over palladium,
Journal of Colloid and Interface Science 266 (2003) 183-194.
[96] M.A. Keane, G.
Tavoularis, The role of spillover hydrogen in gas phase catalytic aromatic
hydrodechlorination and hydrogenation over nickel/silica, Reaction Kinetics
and Catalysis Letters 78 (2003) 11-18.
[97] M.A. Keane, C. Park, C.
Menini, Structure sensitivity in the hydrodechlorination of chlorobenzene
over supported nickel, Catalysis Letters 88 (2003) 89-94.
[98] M.A. Keane, C. Park,
Carbon nanofibers as novel metal supports: Phenol hydrogenation over
palladium, Abstracts of Papers of the American Chemical Society 226 (2003)
346-COLl.
[99] M.A. Keane, Interfacial
Applications in Environmental Engineering, Marcel Dekker, New York, 2003.
[100] M.A. Keane, Advances in
greener separation processes - case study: recovery of chlorinated aromatic
compounds, Green Chemistry 5 (2003) 309-317.
[101] M.A. Keane, Ceramics for
catalysis, Journal of Materials Science 38 (2003) 4661-4675.
[102] S. Jujjuri, E. Ding,
S.G. Shore, M.A. Keane, Gas-phase hydrodechlorination of chlorobenzenes over
silica-supported palladium and palladium-ytterbium, Applied Organometallic
Chemistry 17 (2003) 493-498.
[103] S.G. Shore, E.R. Ding,
C. Park, M.A. Keane, Vapor phase hydrogenation of phenol over silica
supported Pd and Pd-Yb catalysts, Catalysis Communications 3 (2002) 77-84.
[104] C. Park, C. Menini, J.L.
Valverde, M.A. Keane, Carbon-chlorine and carbon-bromine bond cleavage in
the catalytic hydrodehalogenation of halogenated aromatics, Journal of
Catalysis 211 (2002) 451-463.
[105] C. Park, M.A. Keane,
Growth of filamentous carbon from the surface of Ni/SiO2 doped
with alkali metal bromides, Journal of Colloid and Interface Science 250
(2002) 37-48.
[106] J.S. Kim, M.A. Keane,
The removal of iron and cobalt from aqueous solutions by ion exchange with
Na-Y zeolite: Batch, semi-batch and continuous operation, Journal of
Chemical Technology and Biotechnology 77 (2002) 633-640.
[107] M.A.M. Keane, D.Y.,
Kinetics of the Hydrodechlorination of Dichlorobenzenes, Catalysis of
Organic Reactions, D.G. Morrell, Ed., Marcel Dekker, New York (2002)
595-606.
[108] M.A. Keane, C. Park,
S.G. Shore, E. Ding, Application of {(DMF)10Yb2[TM(CN)4]3}∞
supported on silica to promote gas phase phenol hydrogenation, Abstracts of
Papers of the American Chemical Society 224 (2002) 612-INOR.
[109] M.A. Keane, Recovery of
Chlorinated Organic Compounds by Adsorption on Activated Carbon and Zeolite
Surfaces, Encyclopedia of Surface and Colloid Science, First Edition, A.T.
Hubbard, Ed., Marcel Dekker, New York (2002) 4479-4485.
[110] C. Park, M.A. Keane, Gas
phase dehydration of C-6 alcohols promoted by Y zeolite and supported nafion
catalysts, Journal of Molecular Catalysis A-Chemical 166 (2001) 303-322.
[111] C. Park, M.A. Keane,
Growth of filamentous carbon from lithium and cesium bromide doped Ni/SiO2
catalysts, Solid State Ionics 141 (2001) 191-195.
[112] C. Park, M.A. Keane,
Filamentous carbon growth on nickel/silica: Potassium and bromine as
catalyst promotors, ChemPhysChem 2 (2001) 733-741.
[113] C. Park, M.A. Keane,
Controlled growth of highly ordered carbon nanofibers from Y zeolite
supported nickel catalysts, Langmuir 17 (2001) 8386-8396.
[114] N. Mahata, K.V.
Raghavan, V. Vishwanathan, C. Park, M.A. Keane, Phenol hydrogenation over
palladium supported on magnesia: Relationship between catalyst structure and
performance, Physical Chemistry Chemical Physics 3 (2001) 2712-2719.
[115] N. Mahata, K.V.
Raghavan, V. Vishwanathan, M.A. Keane, Influence of the charge transfer
capacity of alkali and alkaline earth metals as promoters in the
hydrogenation of phenol over palladium and nickel catalysts, Reaction
Kinetics and Catalysis Letters 72 (2001) 297-302.
[116] J.S. Kim, L. Zhang, M.A.
Keane, Removal of iron from aqueous solutions by ion exchange with Na-Y
zeolite, Separation Science and Technology 36 (2001) 1509-1525.
[117] M.A. Keane, D.Y. Murzin,
A kinetic treatment of the gas phase hydrodechlorination of chlorobenzene
over nickel/silica: beyond conventional kinetics, Chemical Engineering
Science 56 (2001) 3185-3195.
[118] C.P.a.M.A. Keane,
Promotion of the yield and graphitic nature of filamentous carbon grown from
Ni/SiO2 doped with lithium bromide Catalysis Communications 2
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[119] M. Hart, G. Fuller, D.R.
Brown, C. Park, M.A. Keane, J.A. Dale, C.M. Fougret, R.W. Cockman, Acidities
and catalytic activities of persulfonated poly(styrene-co-divinylbenzene)
ion-exchange resins, Catalysis Letters 72 (2001) 135-139.
[120] C. Hall, D.S. Wales,
M.A. Keane, Copper removal from aqueous systems: Biosorption by pseudomonas
syringae, Separation Science and Technology 36 (2001) 223-240.
[121] E.J. Shin, M.A. Keane,
Gas phase catalytic hydroprocessing of trichlorophenols, Journal of Chemical
Technology and Biotechnology 75 (2000) 159-167.
[122] E.J. Shin, M.A. Keane,
Structure sensitivity in the hydrodechlorination of chlorophenols, Reaction
Kinetics and Catalysis Letters 69 (2000) 3-8.
[123] E.J. Shin, M.A. Keane,
Gas-phase hydrogenation/hydrogenolysis of phenol over supported nickel
catalysts, Industrial & Engineering Chemistry Research 39 (2000) 883-892.
[124] B. Okolo, C. Park, M.A.
Keane, Interaction of phenol and chlorophenols with activated carbon and
synthetic zeolites in aqueous media, Journal of Colloid and Interface
Science 226 (2000) 308-317.
[125] C. Menini, C. Park, E.J.
Shin, G. Tavoularis, M.A. Keane, Catalytic hydrodehalogenation as a
detoxification methodology, Catalysis Today 62 (2000) 355-366.
[126] C. Menini, C. Park, R.
Brydson, M.A. Keane, Low-temperature (553 K) catalytic growth of highly
ordered carbon filaments during hydrodechlorination reactions, Journal of
Physical Chemistry B 104 (2000) 4281-4284.
[127] A. Lopez-Martinez, M.A.
Keane, The gas phase hydrogenation of 2-butanone over supported nickel
catalysts: introduction of enantioselectivity, Journal of Molecular
Catalysis A-Chemical 153 (2000) 257-266.
[128] J.S. Kim, M.A. Keane,
Ion exchange of divalent cobalt and iron with Na-Y zeolite: Binary and
ternary exchange equilibria, Journal of Colloid and Interface Science 232
(2000) 126-132.
[129] P. Claus, H. Berndt, C.
Mohr, J. Radnik, E.J. Shin, M.A. Keane, Pd/MgO: Catalyst characterization
and phenol hydrogenation activity, Journal of Catalysis 192 (2000) 88-97.
[130] G.C. Bond, M.A. Keane,
H. Kral, J.A. Lercher, Compensation phenomena in heterogeneous catalysis:
General principles and a possible explanation, Catalysis Reviews-Science and
Engineering 42 (2000) 323-383.
[131] G. Tavoularis, M.A.
Keane, The gas phase hydrodechlorination of chlorobenzene over
nickel/silica, Journal of Chemical Technology and Biotechnology 74 (1999)
60-70.
[132] G. Tavoularis, M.A.
Keane, Gas phase catalytic dehydrochlorination and hydrodechlorination of
aliphatic and aromatic systems, Journal of Molecular Catalysis A-Chemical
142 (1999) 187-199.
[133] G. Tavoularis, M.A.
Keane, Direct formation of cyclohexene via the gas phase catalytic
dehydrohalogenation of cyclohexyl halides, Applied Catalysis A-General 182
(1999) 309-316.
[134] E.J. Shin, A. Spiller,
G. Tavoularis, M.A. Keane, Chlorine-nickel interactions in gas phase
catalytic hydrodechlorination: catalyst deactivation and the nature of
reactive hydrogen, Physical Chemistry Chemical Physics 1 (1999) 3173-3181.
[135] E.J. Shin, M.A. Keane,
Detoxification of dichlorophenols by catalytic hydrodechlorination using a
nickel/silica catalyst, Chemical Engineering Science 54 (1999) 1109-1120.
[136] E.J. Shin, M.A. Keane,
Gas-phase hydrodechlorination of pentachlorophenol over supported nickel
catalysts, Catalysis Letters 58 (1999) 141-145.
[137] E.J. Shin, M.A. Keane,
Detoxifying chlorine rich gas streams using solid supported nickel
catalysts, Journal of Hazardous Materials 66 (1999) 265-278.
[138] C. Menini, C. Park, R.
Brydson, M.A. Keane, in: C.J. Kiely (Ed.) Electron Microscopy and Analysis
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[139] M.A. Keane, P.M.
Patterson, The role of hydrogen partial pressure in the gas-phase
hydrogenation of aromatics over supported nickel, Industrial & Engineering
Chemistry Research 38 (1999) 1295-1305.
[140] M.A. Keane, Gas phase
reaction of hydrogen with carboxyl and carbonyl functions in aromatic
systems over Ni/SiO2, Journal of Molecular Catalysis A-Chemical
138 (1999) 197-209.
[141] E.J. Shin, M.A. Keane,
Catalytic hydrogen treatment of aromatic alcohols, Journal of Catalysis 173
(1998) 450-459.
[142] E.J. Shin, M.A. Keane,
Gas phase catalytic hydrodechlorination of chlorophenols using a supported
nickel catalyst, Applied Catalysis B-Environmental 18 (1998) 241-250.
[143] M.A. Keane, The removal
of copper and nickel from aqueous solution using Y zeolite ion exchangers,
Colloids and Surfaces a-Physicochemical and Engineering Aspects 138 (1998)
11-20.
[144] S. Ahmed, S. Chughtai,
M.A. Keane, The removal of cadmium and lead from aqueous solution by ion
exchange with Na-Y zeolite, Separation and Purification Technology 13 (1998)
57-64.
[145] M.A. Keane, Interaction
of optically active tartaric acid with a nickel-silica catalyst: Role of
both the modification and reaction media in determining enantioselectivity,
Langmuir 13 (1997) 41-50.
[146] M.A. Keane, The
hydrogenation of o-, m-, and p-xylene over Ni/SiO2, Journal of
Catalysis 166 (1997) 347-355.
[147] M.A. Keane, Gas phase
hydrogenation/hydrogenolysis of benzaldehyde and o-tolualdehyde over Ni/SiO2,
Journal of Molecular Catalysis A-Chemical 118 (1997) 261-269.
[148] M.A. Keane, A kinetic
treatment of heterogeneous enantioselective catalysis, Faraday Transactions
93 (1997) 2001-2007.
[149] M.A. Keane, P.M.
Patterson, Compensation behaviour in the hydrogenation of benzene, toluene
and o-xylene over Ni/SiO2 - Determination of true activation
energies, Faraday Transactions 92 (1996) 1413-1421.
[150] M.A. Keane, E.C. Alyea,
The application of metal oxide vapour synthesis to the preparation of
molybdena catalysts: The isomerization of 1-hexene, Journal of Molecular
Catalysis A-Chemical 106 (1996) 277-285.
[151] M.A. Keane, The role of
the alkali metal co-cation in the ion exchange of Y zeolites .4. Cerium ion
exchange equilibria, Microporous Materials 7 (1996) 51-59.
[152] E.C. Alyea, M.A. Keane,
The oxidative dehydrogenation of cyclohexane and cyclohexene over
unsupported and supported molybdena catalysts prepared by metal oxide vapor
deposition, Journal of Catalysis 164 (1996) 28-35.
[153] M.A. Keane, Gas-phase
hydrogenation hydrogenolysis of isophthaldehyde over Ni/SiO2,
Bulletin Des Societes Chimiques Belges 104 (1995) 63-67.
[154] M.A. Keane, Role of the
alkali-metal Co-cation in the ion-exchange of Y-zeolites .2. Copper
ion-exchange equilibria, Microporous Materials 3 (1995) 385-394.
[155] M.A. Keane, Role of the
alkali-metal Co-cation in the ion-exchange of Y-zeolites .3. Equilibrium
properties of the Ni/Cu/Na Y-zeolite and Ni/Cu/K Y-zeolite systems,
Microporous Materials 4 (1995) 359-368.
[156] M.A. Keane, Role of the
alkali metal co-cation in the ion exchange of Y zeolites: 1. Alkali metal
and nickel ion-exchange equilibria, Microporous Materials 3 (1994) 93-108.
[157] M.A. Keane, The role of
catalyst activation in the enantioselective hydrogenation of methyl
acetoacetate over silica-supported nickel-catalysts, Canadian Journal of
Chemistry-Revue Canadienne De Chimie 72 (1994) 372-381.
[158] M.A. Keane, Adsorption
of optically pure alanine on silica-supported nickel and the consequent
catalytic enantioselectivity, Langmuir 10 (1994) 4560-4565.
[159] M.A. Keane, The
liquid-phase hydrogenation of methylacetoacetate using nickel-exchanged
Y-zeolite catalysts .2. A kinetic-study, Zeolites 13 (1993) 22-33.
[160] M.A. Keane, The
liquid-phase hydrogenation of methylacetoacetate using nickel-exchanged
Y-zeolite catalysts .1. Structure sensitivity, Zeolites 13 (1993) 14-21.
[161] M.A. Keane, The
liquid-phase hydrogenation of methylacetoacetate using nickel-exchanged
Y-zeolite catalysts .3. The role ofsurface-acidity, Zeolites 13 (1993)
330-335.
[162] M.A. Keane, The
Importance of Modifier Ph in the Generation of Enantioselective
Nickel-Catalysts, Catalysis Letters 19 (1993) 197-209.
[163] M.A. Keane, G. Webb,
Asymmetric Hydrogenation of Methyl Acetoacetate Using Ni/SiO2
Modified with Tartaric Acid and Alanine, Journal of Molecular Catalysis 73
(1992) 91-95.
[164] M.A. Keane, G. Webb, The
Enantioselective Hydrogenation of Methyl Acetoacetate over Supported
Nickel-Catalysts .1. the Modification Procedure, Journal of Catalysis 136
(1992) 1-15.
[165] M.A. Keane, The
Competitive Hydrogenation of Benzene and Toluene over Nickel Loaded Y-Zeolites,
Indian Journal of Technology 30 (1992) 51-58.
[166] B. Coughlan, M.A. Keane,
Catalyst Deactivation During the Hydrogenation of Benzene over Nickel-Loaded
Y-Zeolites, Journal of Molecular Catalysis 71 (1992) 93-109.
[167] B. Coughlan, M.A. Keane,
Reduction of Ni2+ Cations in Y Zeolites .2. Effect of the
Environment, Journal of Catalysis 136 (1992) 170-181.
[168] B. Coughlan, M.A. Keane,
Benzene ethylation and cumene dealkylation over nickel-loaded Y-zeolites,
Journal of Catalysis 138 (1992) 164-178.
[169] M.A. Keane, G. Webb,
Tartaric acid modified nickel silica catalysts - the generation of
enantioselective catalytic species, Chemical Communications (1991)
1619-1621.
[170] B. Coughlan, M.A. Keane,
The hydrogenation of benzene over nickel-supported Y-zeolites .1. A kinetic
approach, Zeolites 11 (1991) 12-17.
[171] B. Coughlan, M.A. Keane,
The effects of the environment on the growth of nickel metal particles
supported on a range of Y-zeolites prepared by ion-exchange and
impregnation, Zeolites 11 (1991) 2-11.
[172] B. Coughlan, M.A. Keane,
The hydrogenation of benzene over nickel-supported Y-zeolites .2. A
mechanistic approach, Zeolites 11 (1991) 483-490.
[173] B. Coughlan, M.A. Keane,
An X-Ray-diffraction line-broadening study of copper metal supported on a
range of Y-zeolites, Zeolites 11 (1991) 854-857.
[174] C. Bennett A., S.,
Keane, M.A.,Peacock, R.D. & webb, G., The enantioselective hydrogenation of
methylacetoacetate over nickel catalysts modified with tartaric acid,
Catalysis Today 10 (1991) 363-368.
[175] B. Coughlan, M.A. Keane,
Catalytic oxidative dehydrogenation over Cu2+ exchanged Nay and
Ky zeolites, Catalysis Letters 4 (1990) 223-233.
[176] B. Coughlan, M.A. Keane,
Reduction of Cu2+ cations supported on Y zeolites, Faraday
Transactions 86 (1990) 1007-1012.
[177] B. Coughlan, M.A. Keane,
Reduction of Ni2+ cations in Y-zeolites .1. Effect of sample
pretreatment, Journal of Catalysis 123 (1990) 364-374.
[178] B. Coughlan, M.A. Keane,
A catalytic and characterization study of the surface-acidity generated on
the reduction of copper exchanged Y-zeolites, Catalysis Letters 5 (1990)
113-126.
[179] B. Coughlan, M.A. Keane,
The hydrogenation of toluene over nickel loaded Y-zeolites, Catalysis
Letters 5 (1990) 101-112.
[180] B. Coughlan, M.A. Keane,
The catalytic dehydrogenation of cyclohexane and methylcyclohexane over
nickel loaded Y-zeolites, Catalysis Letters 5 (1990) 89-100.
[181] B. Coughlan, M.A. Keane,
A characterization study of the surface-acidity generated on the calcination
and reduction of a range of Y-zeolites, Journal of Colloid and Interface
Science 137 (1990) 483-494.
[182] B. Coughlan, M.A. Keane,
A characterization and catalytic study of Y zeolite supported Ni/Cu
bimetallics, Canadian Journal of Chemistry-Revue Canadienne De Chimie 68
(1990) 1471-1476.
[183] B. Coughlan, M.A. Keane,
Adsorption of benzene on a range of activated Y-zeolites, Faraday
Transactions 86 (1990) 3961-3966.
[184] B. Coughlan, M.A. Keane,
The effects of alkali-metal hydroxide pretreatment on the hydrogenation
activity of nickel-loaded Y-zeolites, Journal of Molecular Catalysis 63
(1990) 193-199.
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