Photocatalytic reduction of carbon dioxide to formic acid at porphyrin and phthalocyanine adsorbed Nafion membranes

[1]  R. Ramaraj,et al.  Photoreduction of carbon dioxide by metal phthalocyanine adsorbed Nafion membrane , 1997 .

[2]  O. Ishitani,et al.  Efficient photocatalytic CO2 reduction using [Re(bpy) (CO)3{P(OEt)3}]+ , 1996 .

[3]  A. Fujishima,et al.  Electrochemical reduction of CO2 with high current density in a CO2 + methanol medium at various metal electrodes , 1996 .

[4]  M. Kaneko,et al.  Selective electroacatalysis for CO2 reduction in the aqueous phase using cobalt phthalocyanine/poly-4-vinylpyridine modified electrodes , 1995 .

[5]  H. Yoneyama,et al.  Photoreduction of carbon dioxide using chalcogenide semiconductor microcrystals , 1995 .

[6]  S. Kuwabata,et al.  Selective photoreduction of carbon dioxide to methanol on titanium dioxide photocatalysts in propylene carbonate solution , 1995 .

[7]  M. Kaneko,et al.  Electrocatalytic reduction of CO2 in water by [Re(bpy)(CO)3Br] and [Re(terpy)(CO)3Br] complexes incorporated into coated nafion membrane (bpy = 2,2′-bipyridine; terpy = 2,2′;6′,2″-terpyridine) , 1993 .

[8]  A. Aramata,et al.  Electrocatalytic activity of CoII TPP-pyridine complex modified carbon electrode for CO2 reduction , 1991 .

[9]  J. Savéant,et al.  Chemical catalysis of electrochemical reactions. Homogeneous catalysis of the electrochemical reduction of carbon dioxide by iron("0") porphyrins. Role of the addition of magnesium cations , 1991 .

[10]  M. Kaneko,et al.  Light-induced dioxygen reduction at thin film electrodes of various porphyrins , 1991 .

[11]  B. P. Sullivan,et al.  Formation of a metal-hydride bond and the insertion of CO2 key steps in the electrocatalytic reduction of carbon dioxide to formate anion , 1991 .

[12]  H. Abruña,et al.  Electrocatalytic activity of electropolymerized films of bis(vinylterpyridine)cobalt(2+) for the reduction of carbon dioxide and oxygen , 1989 .

[13]  P. Christensen,et al.  An in-situ ftir study of the electroreduction of Co2 by copc-coated edge graphite electrodes , 1988 .

[14]  Koji Tanaka,et al.  Electrochemical CO2 reduction catalyzed by ruthenium complexes [Ru(bpy)2(CO)2]2+ and [Ru(bpy)2(CO)Cl]+. Effect of pH on the formation of CO and HCOO- , 1987 .

[15]  K. Nebesny,et al.  Photoelectrochemical and spectroscopic characterization of thin films of titanyl phthalocyanine: Comparisons with vanadyl phthalocyanine , 1987 .

[16]  D. Pletcher,et al.  A study of the mechanism for the electrocatalysis of carbon dioxide reduction by nickel and cobalt square planar complexes in solution , 1986 .

[17]  A. Bard,et al.  Integrated chemical systems: photocatalysis at titanium dioxide incorporated into Nafion and clay , 1985 .

[18]  J. Becker,et al.  Electrocatalytic reduction of CO2 to oxalate by AgII and PdII porphyrins , 1985 .

[19]  Charles M. Lieber,et al.  Catalytic reduction of carbon dioxide at carbon electrodes modified with cobalt phthalocyanine , 1984 .

[20]  R. Loutfy,et al.  Phthalocyanines: electrolyte Schottky-junction devices , 1983 .

[21]  Kevin M. Smith,et al.  Coordination Compounds of Porphyrins and Phthalocyanines , 1982 .

[22]  H. Yeager,et al.  Cation and Water Diffusion in Nafion Ion Exchange Membranes: Influence of Polymer Structure , 1981 .

[23]  B. D. Berezin Coordination Compounds of Porphyrins and Phthalocyanine , 1981 .

[24]  L. Faulkner,et al.  Phthalocyanine thin films as semiconductor electrodes , 1979 .

[25]  L. Faulkner,et al.  Photovoltaic effects of metalfree and zinc phthalocyanines. I. Dark electrical properties of rectifying cells , 1978 .

[26]  Amal K. Ghosh,et al.  Photovoltaic and rectification properties of Al/Mg phthalocyanine/Ag Schottky‐barrier cells , 1974 .

[27]  E. Körös,et al.  The dialysis of polysulphide solutions , 1960 .