Environmental Engineering Reference
In-Depth Information
Schults BE, Chan SI. 2001. Structures and proton-pumping strategies of mitochondrial respir-
atory enzymes. Annu Rev Biophys Biomol Struct 30: 23.
Senios AE, Nadanaciva S, Weber J. 2002. The molecular mechanism of ATP synthesis by F
1
F
0
-
ATP synthase. Biochim Biophys Acta 1553: 188.
Shi C, Anson FC. 1990. Catalytic pathways for the electroreduction of oxygen by iron tetra-
kis(4-N-methylpyridyl)porphyrin or iron tetraphenylporphyrin adsorbed on edge plane
pyrolytic graphite electrodes. Inorg Chem 29: 4298.
Shi C, Mak KW, Chan K-S, Anson FC. 1995. Enhancement by surfactants of the activity and
stability of iridium octaethyl porphyrin as an electrocatalyst for the four-electron reduction of
dioxygen. J Electroanal Chem 397: 321.
Shi C, Steiger B, Yuasa M, Anson FC. 1997. Electroreduction of O
2
to H
2
O at unusually
positive potentials catalyzed by the simplest of the cobalt porphyrins. Inorg Chem
36: 4294.
Shigehara K, Anson FC. 1982. Electrocatalytic activity of three iron porphyrins in the reduction
of dioxygen and hydrogen peroxide at graphite cathodes. J Phys Chem 86: 2776.
Shikama K. 1998. The molecular mechanism of autoxidation for myoglobin and hemoglobin: A
venerable puzzle. Chem Rev 98: 1357.
Shiryaeva IM, Collman JP, Boulatov R, Sunderland CJ. 2003. Nonideal electrochemical beha-
vior of biomimetic iron porphyrins: Interfacial potential distribution across multilayer films.
Anal Chem 79: 494.
Song E, Shi C, Anson FC. 1998. Comparison of the behavior of several cobalt porphyrins as
electrocatalysts for the reduction of O
2
at graphite electrodes. Langmuir 14: 4315.
Sono M, Roach MP, Coulter ED, Dawson JH. 1996. Heme-containing oxygenases. Chem Rev
96: 2841.
Strekas TC, Spiro TG. 1975. Resonance Raman spectra of superoxide-bridged binuclear
complexes. m-Superoxo-decacyanodicobaltate(52) and m-superoxo-decaamminedicobalt
(5
þ
). Inorg Chem 14: 1421.
Su YO, Kuwana T, Chen SM. 1990. Electrocatalysis of oxygen reduction by water-soluble iron
porphyrins. Thermodynamic and kinetic advantage studies. J Electroanal Chem 288: 177.
Taube H. 1986. Interaction of dioxygen species and metal ions—Equilibrium aspects. Prog
Inorg Chem 34: 607.
Tsukihara T, Aoyama H, Yamashita E, Tomizaki T, Yamaguchi H, Shinzawa-Itoh K,
Nakashima R, Yaono R, Yoshikawa S. 1996. The whole structure of the 13-subunit oxidized
cytochrome c oxidase at 2.8
˚
. Science 272: 1136.
Vasudevan P, Santosh, Mann N, Tyagi S. 1990. Transition metal complexes of porphyrins and
phthalocyanines as electrocatalysts for dioxygen reduction. Transition Metal Chemistry, 15,
81 - 90.
Wan G-X, Shigehara K, Tsuchida E, Anson FC. 1984. Virtues of a copolymer containing pyr-
rolidone and iron porphyrin groups in the catalysis of the reduction of dioxygen at graphite
electrodes. J Electroanal Chem 179: 239.
Watanabe Y. 2000. High-valent intermediates. In: Kadish KM, Smith KM, Guilard R, editors.
The Porphyrin Handbook. San Diego: Academic Press. p. 97.
Wikstrom M. 2004. Cytochrome c oxidase. Biochim Biophys Acta 1655: 241.
Wittenberg JB, Wittenberg BA. 2003. Myoglobin function reassessed. J Exp Biol 206: 2011.
Search WWH ::
Custom Search