-1999
1986-1995
(1) “Transition metal ketene complexes as an active intermediate for catalytic carbonylation of geminal dibromoalkanes”
A. Miyashita, T. Kihara, K. Nomura, H. Nohira
Chem. Lett., 1607-1610 (1986).
(2) “n-Alkene and dihydrogen formation from n-alkanes by photocatalysis using carbonyl(chloro)phosphine-rhodium complexes”
K. Nomura, Y. Saito
J. Chem. Soc., Chem. Commun., 161-162 (1988).
(3) “Vaska型ロジウム錯体の光触媒作用による飽和炭化水素の液相脱水素反応とその機構”
野村琴広, 熊谷彦俊, 斎藤泰和
触媒, 30, 204-207 (1988).
(4) “Photoenhanced catalytic dehydrogenation of methanol with tin(II)-coordinated iridium complexes”
K. Nomura, S. Shinoda, Y. Saito
J. Mol. Catal., 50, 303-313 (1989).
(5) “Photocatalytic dehydrogenation of 2-propanol with carbonyl(halogeno)phosphine-rhodium complexes” Special issue for selected paper in this journal
K. Nomura, S. Shinoda, Y. Saito
J. Mol. Catal., 52, 99-111 (1989).
(6) “Alkene and dihydrogen formation by catalytic dehydrogenation of alkane with RhCl(PR3)2 photogenerated from RhCl(CO)(PR3)2”
K. Nomura, Y. Saito
J. Mol. Catal., 54, 57-64 (1989).
(7) “Co2(CH2C=O)(CO)7 as an active intermediate for cobalt-catalyzed alkoxycarbonylation of CH2Br2”
A. Miyashita, K. Nomura, S. Kaji, H. Nohira
Chem. Lett., 1983-1986 (1989).
(8) “Cobalt-catalyzed aminocarbonylation of geminal dibromoalkanes. Formation of 2-aminoamides and maloamide derivatives”
A. Miyashita, T. Kawashima, S. Kaji, K. Nomura, H. Nohira
Tetrahedron Lett., 32, 781-784 (1991).
(9) “Selective reduction of aromatic nitro compounds using CO and water with highly active rhodium-phosphine chelate complexes”
K. Nomura, M. Ishino, M. Hazama
J. Mol. Catal., 65, L5-L7 (1991).
(10) “Facile selective reduction of aromatic nitro compounds affording amines using Rh4(CO)12 – 9,10-diaminophenanthrene catalyst system under CO/H2O conditions: the effect of 9,10-diaminophenanthrene”
K. Nomura, M. Ishino, M. Hazama
J. Mol. Catal., 66, L1-L4 (1991).
(11) “Extremely efficient catalytic reduction of aromatic nitro compounds affording amines using amine-added Rh6(CO)16 catalyst system under CO/H2O conditions”
K. Nomura, M. Ishino, M. Hazama
J. Mol. Catal., 66, L11-L13 (1991).
(12) “Novel reduction of aromatic nitro compounds affording amines using CO and water catalyzed by phosphine-added Rh(CO)2(acac) complexes”
K. Nomura, M. Ishino, M. Hazama
J. Mol. Catal., 66, L19-L21 (1991).
(13) “Efficient selective reduction of aromatic nitro compounds affording aromatic amines under CO/H2O conditions catalyzed by amine-added rhodium-carbonyl complexes”
K. Nomura, M. Ishino, M. Hazama
Bull. Chem. Soc. Jpn., 64, 2624-2628 (1991).
(14) “Selective heal-to-tail dimer formation from acrylonitrile catalyzed by phosphine-added nickel(0) complexes”
K. Nomura, M. Ishino
J. Mol. Catal., 68, L5-L7 (1991).
(15) “Selective catalytic reduction of aromatic nitro compounds affording amines under CO/H2O conditions using amine-added ruthenium-carbonyl complexes”
K. Nomura
Chem. Lett., 1679-1682 (1991).
(16) “Novel selective catalytic reduction of aromatic nitro compounds affording amines using ruthenium-carbonyl complex in the presence of NEt3 under CO/H2O conditions”
K. Nomura
J. Mol. Catal., 73, L1-L4 (1992).
(17) “Phosphine-added nickel(0) complexes catalyzed selective dimerization of acrylonitrile affording methyleneglutaronitrile (2,4-dicyanobutene)”
K. Nomura, M. Ishino
J. Mol. Catal., 73, L15-L19 (1992).
(18) “Selective reduction of aromatic nitro compounds affording aromatic amines under CO/H2O conditions catalyzed by phosphine-added rhodium-, ruthenium-carbonyl complexes”
K. Nomura, M. Ishino, M. Hazama
J. Mol. Catal., 78, 273-282 (1993).
(19) “遷移金属錯体触媒を用いる芳香族ニトロ化合物の一酸化炭素/水系での高選択的還元反応”
野村琴広, 石野 勝, 間 資雄, 鈴鴨剛夫, 住友化学, I, 41-51 (1993).
(20) “Photoenhanced catalytic dehydrogenation of methanol with (NEt4)3[IrH(SnCl3)5] complex”
K. Makita, K. Nomura, Y. Saito
J. Mol. Catal., 89, 143-149 (1994).
(21) “Efficient selective reduction of aromatic nitro compounds catalyzed by ruthenium-carbonyl complexes in the presence of amines under CO/H2O conditions”
K. Nomura
J. Mol. Catal. A, 95, 203-210 (1995).
1996
(22) “Preparation of ‘sugar-coated’ homopolymers and multiblock ROMP copolymers”
K. Nomura, R.R. Schrock
Macromolecules, 29, 540-545 (1996).
(23) “Synthesis of vanadium(III), -(IV), and -(V) complexes that contain the pentafluorophenyl-substituted triamidoamine ligand [(C6F5NCH2CH2)3N]3-”
K. Nomura, R. R. Schrock, W. M. Davis
Inorg. Chem., 35, 3695-3701 (1996).
1997
(24) “A practical convenient homogeneous palladium-phosphine catalysis for hydrocarbonylation of chlorobenzenes”
T. Miyawaki, K. Nomura, M. Hazama, G. Suzukamo
J. Mol. Catal. A, 120, L9-L11 (1997).
(25) “Efficient dimerization of propylene affording 2,3-dimethylbutenes by fluorinated alcohol modified nickel-phosphine catalyst system containing strong sulfonic acids and/or dialkyl sulfates”
K. Nomura, M. Itagaki, M. Ishino, M. Yamamoto, G. Suzukamo
Catal. Lett., 47, 47-49 (1997).
(26) “Efficient synthesis of 2,3-dimethylbutenes by dimerization of propylene using nickel-phosphine catalysis in the presence of strong sulfonic acids and/or dialkyl sulfates – Remarkable effect of strong sulfonic acids and/or dialkyl sulfates -“
K. Nomura, M. Ishino, M. Hazama, G. Suzukamo
J. Mol. Catal. A, 126, L93-L97 (1997).
(27) “Synthesis of 2,3-dimethylbutenes by dimerization of propylene using highly active
nickel-phosphine catalysts in the presence of strong sulfonic acids and/or dialkyl sulfates”
K. Nomura, M. Ishino, G. Suzukamo
Bull. Chem. Soc. Jpn., 70, 2671-2676 (1997).
1998
(28) “Efficient dimerization of propylene by nickel-phosphine catalysts in the presence of strong sulfonic acids and/or dialkyl sulfates. – Effect of phosphine ligand and additives -“
M. Itagaki, G. Suzukamo, K. Nomura
Bull. Chem. Soc. Jpn., 71, 79-82 (1998).
(29) “Synthesis of titanium(IV) complexes that contain the bis(silylamide) ligand of the type [1,8-C10H6(NR)2]2-, and alkene polymerization catalyzed by [1,8-C10H6(NR)2]TiCl2 – cocatalyst system”
K. Nomura, N. Naga, K. Takaoki, A. Imai
J. Mol. Catal. A, 130, L209-L213 (1998).
(30) “プロピレン二量化に有効な新規均一系ニッケル錯体触媒”
野村琴広, 山本三千男, 板垣 誠, 鈴鴨剛夫, 住友化学, I, 99-111 (1998).
(31) “Synthesis of various non-bridged Cp-aryloxy titanium(IV) complexes of the type CpTi(OAr)X2, and the catalytic alkene polymerization. – Important role of substituents on both aryloxy and cyclopentadienyl groups”
K. Nomura, N. Naga, M. Miki, K. Yanagi, A. Imai
Organometallics, 17, 2152-2154 (1998).
(32) “Olefin polymerization by (cyclopentadienyl)(aryloxy)titanium(IV) complexes – cocatalyst system”
K. Nomura, N. Naga M. Miki, K. Yanagi
Macromolecules, 31, 7588-7597 (1998).
(33) “Ethylene homopolymerization and ethylene/1-butene copolymerization catalyzed by [1,8-C10H6(NR)2]TiX2 – cocatalyst system”
K. Nomura, N. Naga, K. Takaoki
Macromolecules, 31, 8009-8015 (1998).
1999
(34) “Fluorinated alcohol modified nickel-phosphine catalyst system for efficient dimerization of propylene”
K. Nomura, C. Minamide, M. Nagase, M. Itagaki, G. Suzukamo
J. Mol. Catal. A, 137, 1-14 (1999).
(35) “Olefin polymerization by the (pybox)RuX2(ethylene) – cocatalyst system”
K. Nomura, W. Sidokmai, Y. Imanishi
Macromolecules, 32, 4732-4734 (1999).
(36) “Synthesis of titanium(IV) complex that contain the bis(silylamide) ligand of the type [1,8-C10H6(NR)2]2-, (R = SiMe3, SitBuMe2, SiiPr3), and alkene polymerization catalyzed by [1,8-C10H6(NR)2]TiX2 – cocatalyst system”
K. Takaoki, K. Nomura, N. Naga, A. Imai
Science and Technology in Catalysis 1998, 469-472 (1999).
(Special issue for 3rd Tokyo Conference on Advanced Catalytic Science and Technology, TOCAT3)