Dale W. Margerum
Affiliations: | Purdue University, West Lafayette, IN, United States |
Area:
Inorganic, Analytical, and Environmental ChemistryWebsite:
http://www.chem.purdue.edu/people/faculty/faculty.asp?itemID=47Google:
"Dale Margerum"Mean distance: 11.47 | S | N | B | C | P |
Parents
Sign in to add mentor| Charles V. Banks | grad student | 1955 | Iowa State | |
| (Substituent effect in 1,10-phenanthroline chelation kinetics) | ||||
Children
Sign in to add trainee| David J. Stewart | research assistant | 2002-2006 | Purdue |
| Thomas A. Neubecker | grad student | Purdue | |
| David Bruce Rorabacher | grad student | 1963 | Purdue |
| William Hamilton Woodruff | grad student | 1972 | Purdue |
| Zhongjiang Jia | grad student | 2000 | Purdue |
| Qian Liu | grad student | 2000 | Purdue |
| Kara E. Huff Hartz | grad student | 2002 | Purdue |
| Edward T. Urbansky | grad student | 2002 | Purdue |
| Samantha K. Burke | grad student | 2003 | Purdue |
| Brandon J. Green | grad student | 2003 | Purdue |
| Jeffrey S. Nicoson | grad student | 2003 | Purdue |
| Ihab N. Odeh | grad student | 2003 | Purdue |
| A. Graham Lappin | post-doc | 1975-1977 | Purdue |
| Carl A. Koval | post-doc | 1978-1980 | Purdue (E-Tree) |
BETA: Related publications
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Publications
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| Dennis CR, Margerum DW, Fourie E, et al. (2020) A Kinetic Study of the Electron-Transfer Reactions of Nickel(III,II) Tripeptide Complexes with Cyano Complexes of Molybdenum, Tungsten, and Iron. Inorganic Chemistry. 59: 11695-11703 |
| Dennis CR, Fourie E, Margerum DW, et al. (2019) Kinetic advantage of inner sphere electron transfer reactions of copper(III,II) peptide complexes with cyano complexes of iron, molybdenum and tungsten Transition Metal Chemistry. 45: 147-157 |
| Dennis CR, Swarts JC, Margerum DW. (2012) Proton-transfer reactions of copper(II)- and nickel(II) tetrapeptide complexes with bulky α-carbon substituents Reaction Kinetics, Mechanisms and Catalysis. 107: 27-38 |
| MARGERUM DW, SCHEPER WM, MCDONALD MR, et al. (2010) ChemInform Abstract: Redox Decomposition Reactions of Copper(III) Peptide Complexes Cheminform. 26: no-no |
| Bakhmutova-Albert EV, Margerum DW, Auer JG, et al. (2008) Chlorine dioxide oxidation of dihydronicotinamide adenine dinucleotide (NADH) Inorganic Chemistry. 47: 2205-2211 |
| Stewart DJ, Napolitano MJ, Bakhmutova-Albert EV, et al. (2008) Kinetics and mechanisms of chlorine dioxide oxidation of tryptophan Inorganic Chemistry. 47: 1639-1647 |
| Napolitano MJ, Stewart DJ, Margerum DW. (2006) Chlorine dioxide oxidation of guanosine 5′-monophosphate Chemical Research in Toxicology. 19: 1451-1458 |
| Ison A, Odeh IN, Margerum DW. (2006) Kinetics and mechanisms of chlorine dioxide and chlorite oxidations of cysteine and glutathione Inorganic Chemistry. 45: 8768-8775 |
| Napolitano MJ, Green BJ, Nicoson JS, et al. (2005) Chlorine dioxide oxidations of tyrosine, N-acetyltyrosine, and dopa Chemical Research in Toxicology. 18: 501-508 |
| Wang L, Odeh IN, Margerum DW. (2004) Chlorine dioxide reduction by aqueous iron(II) through outer-sphere and inner-sphere electron-transfer pathways. Inorganic Chemistry. 43: 7545-51 |