Authors:
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Wanat, A
Stochel, G
Goldstein, S
Meyerstein, D
van Eldik, R
Citation: T. Schneppensieper et al., Ligand effects on the kinetics of the reversible binding of NO to selectedaminocarboxylato complexes of iron(II) in aqueous solution, EUR J INORG, (9), 2001, pp. 2317-2325
Authors:
Zilbermann, I
Meshulam, A
Cohen, H
Meyerstein, D
Citation: I. Zilbermann et al., Oxidation of ascorbate by Ni(III) complexes with tetraaza-macrocyclic ligands in neutral aqueous solutions. A pulse-radiolysis study, SUPRAMOL CH, 13(2), 2001, pp. 325-332
Authors:
Topaz, M
Motiei, M
Gedanken, A
Meyerstein, D
Meyerstein, N
Citation: M. Topaz et al., EPR analysis of radicals generated in ultrasound assisted lipoplasty simulated environment, ULTRASOUN M, 27(6), 2001, pp. 851-859
Authors:
Maimon, E
Zilbermann, I
Golub, G
Ellern, A
Shames, AI
Cohen, H
Meyerstein, D
Citation: E. Maimon et al., Comproportionation and redox catalyzed isomerization of Cu(II)(1R,4S,8R,11S-1,4,8,11-tetramethyl-1,4,8,11-tetraaza-cyclotetradecane)(2+) in aqueous solutions, INORG CHIM, 324(1-2), 2001, pp. 65-72
Authors:
Goldstein, S
Czapski, G
van Eldik, R
Shaham, N
Cohen, H
Meyerstein, D
Citation: S. Goldstein et al., High-pressure pulse-radiolysis study of the formation and decomposition ofcomplexes with iron-carbon sigma bonds: Mechanistic comparison for different metal centers, INORG CHEM, 40(19), 2001, pp. 4966-4970
Authors:
Shaham, N
Cohen, H
van Eldik, R
Meyerstein, D
Citation: N. Shaham et al., Mechanistic differences between "reductive" and "oxidative" heterolysis ofmetal-carbon sigma bonds, J CHEM S DA, (19), 2000, pp. 3356-3359
Citation: N. Shaham et al., EPR measurements corroborate information concerning the nature of (H2O)(5)Cr-III-alkyl complexes, J CHEM S DA, (18), 2000, pp. 3082-3085
Authors:
Bazzicalupi, C
Bencini, A
Ciattini, S
Giorgi, C
Masotti, A
Paoletti, P
Valtancoli, B
Navon, N
Meyerstein, D
Citation: C. Bazzicalupi et al., Copper-(II) and -(I) co-ordination by hexa-amine ligands of different rigidities. A thermodynamic, structural and electrochemical investigation, J CHEM S DA, (14), 2000, pp. 2383-2391
Authors:
Becker, M
Heinemann, FW
Knoch, F
Donaubauer, W
Liehr, G
Schindler, S
Golub, G
Cohen, H
Meyerstein, D
Citation: M. Becker et al., Syntheses, structures and properties of copper(I) and copper(II) complexesof the ligand N,N '-bis[2 '-(dimethylamino)ethyl]-N,N '-dimethylethane-1,2-diamine (Me(6)trien), EUR J INORG, (4), 2000, pp. 719-726
Authors:
Pribush, A
Mankuta, D
Meiselman, HJ
Meyerstein, D
Silberstein, T
Katz, M
Meyerstein, N
Citation: A. Pribush et al., The effect of low-molecular weight dextran on erythrocyte aggregation in normal and preeclamptic pregnancy, CL HEMORH M, 22(2), 2000, pp. 143-152
Authors:
Goldstein, S
Meyerstein, D
van Eldik, R
Czapski, G
Citation: S. Goldstein et al., Evidence for adduct formation between ONOO- and CO2 from high-pressure pulse radiolysis, J PHYS CH A, 104(43), 2000, pp. 9712-9714
Authors:
Solomon-Rapaport, E
Masarwa, A
Cohen, H
Meyerstein, D
Citation: E. Solomon-rapaport et al., Catalyzed autoxidation of azide by cobalt(II) (2,3,9,10-tetramethyl-1,4,8,11-tetraazacyclotetradeca-1,3,8,10-tetraene)(2+), INORG CHIM, 307(1-2), 2000, pp. 41-46
Authors:
Solomon-Rapaport, E
Masarwa, A
Cohen, H
Meyerstein, D
Citation: E. Solomon-rapaport et al., On the chemical properties of the transient complexes LmMn+1-OOR Part I. The case of (2,3,9,10-tetramethyl-1,4,8,11-tetraazacyclotetradeca-1,3,8,10-tetraene)(H2O)Co-III-OOCH32+, INORG CHIM, 299(1), 2000, pp. 41-46
Authors:
Pribush, A
Meiselman, HJ
Meyerstein, D
Meyerstein, N
Citation: A. Pribush et al., Dielectric approach to investigation of erythrocyte aggregation. II. Kinetics of erythrocyte aggregation-disaggregation in quiescent and flowing blood, BIORHEOLOGY, 37(5-6), 2000, pp. 429-441
Citation: R. Van Eldik et D. Meyerstein, High-pressure pulse radiolysis as a tool in the study of transition metal reaction mechanisms, ACC CHEM RE, 33(4), 2000, pp. 207-214
Authors:
Goldstein, S
Meyerstein, D
van Eldik, R
Czapski, G
Citation: S. Goldstein et al., Peroxynitrous acid decomposes via homolysis: Evidence from high-pressure pulse radiolysis, J PHYS CH A, 103(33), 1999, pp. 6587-6590
Citation: N. Shaham et al., beta-Hydride shift involvement in the acid catalysed decomposition of [(H2O)(5)Cr-III-C(CH3)(2)OH](2+), J CHEM S DA, (21), 1999, pp. 3805-3808
Citation: D. Meyerstein, Reactions of aliphatic carbon-centered and aliphatic-peroxyl radicals withtransition metal complexes as a plausible source for biological damage induced by radical processes, METAL IONS, 36, 1999, pp. 41-77
Authors:
Navon, N
Golub, G
Cohen, H
Paoletti, P
Valtancoli, B
Bencini, A
Meyerstein, D
Citation: N. Navon et al., Design of ligands that stabilize Cu(I) and shift the reduction potential of the Cu-II/I couple cathodically in aqueous solutions, INORG CHEM, 38(15), 1999, pp. 3484-3488
Citation: D. Meyerstein, Are M-N bonds indeed inherently weaker when N is a tertiary rather than a primary or secondary nitrogen atom?, COORD CH RE, 186, 1999, pp. 141-147
Authors:
Pribush, A
Meiselman, HJ
Meyerstein, D
Meyerstein, N
Citation: A. Pribush et al., Dielectric approach to the investigation of erythrocyte aggregation: I. Experimental basis of the method, BIORHEOLOGY, 36(5-6), 1999, pp. 411-423