List
of Publications (1979-1999)
go to
: 1979,
1980,
1981,
1983,
1986,
1987,
1988,
1989,
1990,
1991,
1992,
1993,
1994,
1995,
1996,
1997,
1998,
1999
1979
1. Y.N. Kozlov, E.
Katz, B.A. Kiselev, V.B.
Evstigneev
Study of
the kinetics of chlorophyll
photosensitized reduction of dyes by the method of photopolarography.
Biofizika (USSR) 1979,
24,
583-587 (in Russian).
(Chemical
Abstract: 91:154454s, 1979).
2. E.
Katz, Y.N.
Kozlov,
B.A. Kiselev
Study of
chlorophyll photosensitized
reactions by the method of photopolarography.
2. Determination
of the rate constants for
chlorophyll
photosensitized reduction of dyes by the method of competitive
acceptor.
Biofizika (USSR) 1979,
24,
946 (in Russian).
(Chemical
Abstract: 92: 2684z, 1980).
3. E.
Katz, Y.N.
Kozlov,
B.A. Kiselev
Photosensitized evolution of hydrogen
in photochemical systems using chlorophyll.
Biofizika (USSR) 1979,
24,
801-805 (in Russian).
(Chemical
Abstract: 91: 207637n,
1979).
4. E.
Katz, Y.N.
Kozlov,
B.A. Kiselev
Model of
photofuel element on the
base
of chlorophyll sensitized reactions.
Energy
Conversion 1979,
19,
73-75.
(Chemical
Abstract: 92: 79420t,
1980).
1980
5.
E. Katz,
Y.N. Kozlov, B.A. Kiselev
Model of
a photofuel half-cell based
on the reactions sensitized by chlorophyll.
Deposited Paper VINITI
5384-80,
1980,
13 pages (in Russian).
(Chemical
Abstract: 96: 71858d, 1982).
1981
6.
E. Katz,
Y.N. Kozlov, B.A. Kiselev
Photoanode on the base of pheophytin
sensitized reactions.
Energy
Conversion & Management
1981,
21,
171-174.
(Chemical
Abstract: 96: 55336b,
1982).
1983
7.
E. Katz
Conversion of light energy upon
electrochemical
reactions photosensitized by chlorophyll and pheophytin.
Ph.D.
Thesis, submitted to
Council
of the A.N. Frumkin Institute of Electrochemistry,
the USSR
Academy of Sciences, Moscow,
1983,
273 pages.
8. E.
Katz
Analysis of light
energy conversion efficiency
in homogeneous photochemical systems based on the theory of electron
transfer.
in: Biological
cycle of
substances
and energy in the system of soil-plant,
A.I.
Gazieiev (Ed.), Pushchino, 1983,
pp. 26-31 (in Russian).
(Chemical
Abstract: 99: 191930e,
1983).
9. E.
Katz, E.P.
Suponeva,
Y.N. Kozlov, B.A. Kiselev
Photoelectrochemical approach to the
creation of artificial photosynthesis.
in: Biological
cycle of
substances
and energy in the system of soil-plant,
A.I.
Gaziev (Ed.), Pushchino, 1983,
pp. 31-35 (in Russian).
(Chemical
Abstract: 99: 191931f,
1983).
1986
10.
E. Katz,
A.Y. Shkuropatov, B.D. Sviridov, V.A. Shuvalov, O.I. Vagabova
SnO2-electrodes
covalently modified with p-benzoquinone for modeling primary light
energy conversion at
photosynthesis.
Zhurn. Fizich. Khim.
(USSR) 1986, 60, 1312-1314 (in Russian).
(Chemical Abstract:
105:31774w,
1986).
1987
11.
E. Katz,
A.Y. Shkuropatov, V.A. Shuvalov, O.I. Vagabova
Electrodes modified by a
diaminobenzoquinone polymer as models of the transformation of light
quanta
during photosynthesis.
Zhurn. Fizich. Khim.
(USSR) 1987, 61, 1665-1668 (in Russian).
(Chemical Abstract:
107:172698c,
1987).
12. E.
Katz, A.Y.
Shkuropatov,
V.A. Shuvalov, O.I. Vagabova
Modification of platinum
oxide electrodes of by naphthoquinone capable of functioning in
bacterial
photosynthetic reaction centers.
Zhurn. Fizich. Khim.
(USSR) 1987, 61, 3009-3015 (in Russian).
(Chemical Abstract:
108:52169e,
1988).
13. E.
Katz, A.N.
Melkozernov,
O.I. Vagabova, O.F. Korsunsky, V.A. Shuvalov
Electrochemical and photochemical
study of N-methyl-rhodoquinones as exogenous
electron acceptors
in the reaction centers from photosynthetic
bacterium Rhodobacter
sphaeroides R-26.
Molekulyarnaya
Biologiya
(USSR) 1987, 21, 1186-1192 (in Russian).
(Chemical Abstract:
108:52959n).
1988
14.
E. Katz
Is polarographic
potential
of ubiquinone dependent on isoprenoid side chain length?
Studia biophysica
1988,
125,
211-217.
(Chemical Abstract: 110:
7599a, 1989).
15. E.
Katz
Polarographic properties
of ubiquinones differing in the isoprenoid chain length.
Khim. Prirodn.
Soedinenii
(USSR)
1988,
703-707 (in Russian).
(Chemical Abstract:
110:115136f,
1989).
16. E.
Katz, A.Y.
Shkuropatov,
O.I. Vagabova, A.N. Melkozernov, A.O. Ganago, V.A. Shuvalov
Photopolagraphic study of
the photoreduction of exogenous quinones by the reaction centers of
phototrophic
bacterium Rhodobacter spheroides
R-26.
Biofizika (USSR)
1988,
33,
60-70 (in Russian).
(Chemical Abstract:
108:15398z,
1988).
17. E.
Katz, A.A.
Solov'ev,
O.I. Vagabova, V.A. Shuvalov, Y.E. Erokhin
Chemically modified
electrodes
with related activity for sulfhydryl compounds.
Electrokhimiya
(USSR)
1988,
24,
800-804 (in Russian).
(Chemical Abstract:
109:137351d,
1988).
18. E.
Katz,V.A.
Shuvalov
Chemical modification of
an electrode by naphthoquinone with the use of aminosilane.
Investigation of the
participation
of the primary and secondary amino groups.
Elektrokhimiya
(USSR)
1988,
24,
823-826 (in Russian).
(Chemical Abstract: 109:
118039s, 1988).
1989
19.
E. Katz,
A.Y. Shkuropatov, V.A. Shuvalov
Photopolarographic study
of photosynthetic bacterium reaction centers and development
of photoelectrode using
their
ability for affinity binding at chemically modified electrodes.
Studia biophysica
1989,
130,
103-106.
(Chemical Abstract: 111:
157386p, 1989).
20. O.I. Vagabova, E. Katz,
A.Y. Shkuropatov, A.I. Kuz'min, V.A. Shuvalov
Coupling of the photoinduced
separation of charges in the reaction centers of photosynthetic
bacteria with
electron transfer to a chemically modified electrode.
Biofizika (USSR)
1989,
34,
439-444 (in Russian).
(Chemical Abstract: 111:
150703f, 1989).
21. E.
Katz, A.Y.
Shkuropatov,
O.I. Vagabova, V.A. Shuvalov
Coupling of photoinduced
charge separation in reaction centers of photosynthetic bacteria with
electron transfer
to a chemically modified electrode.
Biochim. Biophys. Acta
1989,
976,
121-128.
22. E.
Katz, A.Y.
Shkuropatov,
O.I. Vagabova, V.A. Shuvalov
Chemical modification of
the PtO electrode by naphthoquinone using aminosilane.
J. Electroanal. Chem.
1989,
260,
53-62.
23. E.
Katz,
A.A. Solov'ev
Chemically modified
electrode
with affinity to sulfhydryl compounds.
J. Electroanal. Chem.
1989,
261,
217-222.
1990
24.
E. Katz,
A.A.
Solov'ev
Chemical modification of
platinum and gold electrodes by naphthoquinones with the use of amines
containing
sulfhydryl or disulfide groups.
Elektrohimiya
(USSR)
1990,
26,
1300-1307 (in Russian).
(Chemical Abstract: 114:
71001j, 1991).
25. A.A. Solov'ev, E. Katz
Why is it possible to
covalently
immobilize quinones on electrodes using aminosilanes?
Zhurn. Fizich. Khim.
(USSR) 1990, 64, 801-802 (in Russian).
26. A.A. Solov'ev, E. Katz
Why is covalent
immobilization
of quinones possible at electrodes via aminosilanes?
J. Electroanal. Chem.
1990,
277,
337-339.
27. E.
Katz,
A.A. Solov'ev
Chemical modification of
platinum and gold electrodes by naphthoquinones using amines containing
sulfhydryl
or disulphide groups.
J. Electroanal. Chem.
1990,
291,
171-186.
28. E.
Katz
A
chemically modified electrode
capable of a spontaneous immobilization of amino compounds due to its
functionalization with succinimidyl groups.
J. Electroanal. Chem.
1990,
291,
257-260.
29. E.
Katz, A.Y.
Shkuropatov,
V.A. Shuvalov
Electrochemical approach
to the development of a photoelectrode on the basis of photosynthetic
reaction centers.
Bioelectrochem.
Bioenerg.
1990,
23,
239-247.
1991
30.
E. Katz,
A.Y. Shkuropatov, A.V. Klevanik, V.M. Adanin, V.A. Shuvalov
Effect
of the structure of
an exogenousquinone on its ability to function as the primary quinone
in the reaction
centers from Rhodobacter
sphaeroides R-26.
Biologicheskie Membrany
(USSR) 1991, 8, 468-475 (in Russian).
31. A.A. Solov'ev, E. Katz,
V.A. Shuvalov, Y.E. Erokhin, A.I. Kuz'min
Photoelectrochemical characteristics
of modified platinum electrodes with reaction centers from Rhodobacter
sphaeroides R-26.
Biofizika (USSR)
1991,
36,
60-64 (in Russian).
(Chemical Abstract: 114:
250664z, 1991).
32. E.
Katz,
A.A. Solov'ev
Reversible immobilization
of naphthoquinones on platinum and gold electrodes by using cysteamine.
Elektrohimiya
(USSR)
1991,
27,
680-683 (in Russian).
33. E.
Katz, V.V.
Borovkov,
R.P. Evstigneeva
Use of quinone thio
derivatives
for the chemical modification of electrodes.
Elektrokhimiya
(USSR)
1991,
27,
1035-1041 (in Russian).
(Chemical Abstract: 115:
265281s, 1991).
34. E.
Katz
Chemical modification of
an electrode by succinimidyl groups for the immobilization of
amino compounds.
Elektrokhimiya
(USSR)
1991,
27,
1042-1044 (in Russian).
(Chemical Abstract: 115:
242366j, 1991).
35. A.A. Solov'ev, E. Katz,
V.A. Shuvalov, Y.E. Erokhin
Photoelectrochemical effects
for chemically modified platinum electrodes with immobilized reaction
centers from Rhodobacter
sphaeroides R-26.
Bioelectrochem.
Bioenerg.
1991,
26,
29-41.
1992
36. A.A. Solov'ev,
E.
Katz, V.A. Shuvalov, Y.E. Erokhin
Improving the
electrochemical
reversibility of quinones on a platinum surface to enhance
the characteristics of
photobioelectrodes
based on photosynthetic reaction centers.
Elektrokhimiya
(USSR)
1992,
28,
1762-1771 (in Russian).
(Chemical Abstract: 119:
36257d, 1993).
37. A.A. Solov'ev, E. Katz
Increasing the length of
the spacer between a naphthoquinone and an electrode modified with
bifunctional
amines.
Elektrokhimiya
(USSR)
1992,
28,
1860-1863 (in Russian).
(Chemical Abstract: 119:
58202j, 1993).
38. A.A. Solov'ev, E. Katz,
V.A. Shuvalov, Y.E. Erokhin
Conversion of light energy
into electrical one using reaction centers from photosynthetic bacteria.
in: N.
Murata (Ed.), Res.
Photosynth., Proc.,
9th, 1992, 1,
pp.
441-444, Kluwer, Dordrecht, The Netherlands.
(Chemical Abstract: 119: 266743p, 1993).
39. E.
Katz,
A.A. Solov'ev
Photobioelectrodes on the
basis of photosynthetic reaction centers. Study of exogenous quinones
as possible electron transfer mediators.
Anal. Chim. Acta. 1992,
266,
97-106.
40. E.
Katz, V.V.
Borovkov,
R.P. Evstigneeva
Application of quinone thio
derivatives as a basis for assembling complex molecular systems
at an electrode surface.
J. Electroanal. Chem.
1992,
326,
197-212.
41. E.
Katz, N.
Itzhak
and I. Willner
Effects of monolayer packing
on the electrochemical activity of chemisorbed thioderivatized
N,N'-dialkyl-4,4'-bipyridinium.
J. Electroanal. Chem.
1992,
336,
357-362.
42. I. Willner, E. Katz,
N. Lapidot, P. Baüerle
Bioelectrocatalysed reduction
of nitrate utilizing polythiophene bipyridinium enzyme electrodes.
Bioelectrochem.
Bioenerg.
1992,
29,
29-45.
43. I. Willner, E. Katz,
A. Riklin, R. Kasher
Mediated electron transfer
in glutathione reductase organized in self-assembled monolayers
on Au electrodes.
J. Am. Chem. Soc. 1992,
114,
10965-10966.
1993
44.
E. Katz,
N. Itzhak, I. Willner
Electron transfer in self-assembled
monolayers of N-methyl-N'-carboxy-alkyl-4,4'-bipyridinium
linked
to gold electrodes.
Langmuir 1993,
9,
1392-1396.
45. E.
Katz, A.
Riklin,
I. Willner
Application of
stilbene-(4,4'-diisothiocyanate)-2,2'-disulfonic
acid as bifunctional
reagent for the
organization
of organic materials and proteins onto electrode surface.
J. Electroanal. Chem.
1993,
354,
129-144.
46. E.
Katz, A.L.
de
Lacey, J. Fierro, J.M. Palaios, V.M. Fernandez
Covalent binding of
viologen
to electrode surfaces coated with poly(acrylic acid) formed
by electropolymerization
of acrylate ions. 1. Electrode preparation and characterization.
J. Electroanal. Chem.
1993,
358,
247-259.
47. E.
Katz, A.L.
de
Lacey, V.M. Fernandez
Covalent binding of viologen
to electrode surfaces coated with poly(acrylic acid) formed by
electropolymerization
of acrylate ions.
2.
Effect of the ionization state of
the polymeric coating on
the formal potential of viologen.
J. Electroanal. Chem.
1993,
358,
261-272.
48. E.
Katz,
H.-L. Schmidt
Gold
electrode modification
with a monolayer of molecular lines consisting of electron carriers
with
different potentials.
J. Electroanal. Chem.
1993,
360,
337-342.
49. E.
Katz
Application of bifunctional
reagents for selective immobilization of amino and thiol compounds on a
carbon electrode surface.
J. Electroanal. Chem.
1993,
361,
109-114.
50. I. Willner, A. Riklin,
B. Shoham, D. Rivenzon, E.
Katz
Development of novel biosensor
enzyme-electrodes: glucose oxidase multilayer arrays immobilized onto
self-assembled
monolayers on electrodes.
Adv. Mater. 1993,
5,
912-915.
1994
51.
E. Katz
Application of bifunctional
reagents for immobilization of proteins on a carbon electrode surface:
Oriented
immobilization of photosynthetic reaction centers.
J. Electroanal. Chem.
1994,
365,
157-164.
52. E.
Katz, D.D.
Schlereth,
H.-L. Schmidt
Electrochemical study of
pyrroloquinoline quinone covalently immobilized as monolayer onto a
cystamine
modified gold electrode.
J. Electroanal. Chem.
1994,
367, 59-70.
53. E.
Katz,
H.-L. Schmidt
Gold
electrode modification
with a monolayer of 1,4,5,8-naphthalenetetrone as a four-electron
transfer mediator:
electrochemical reduction of dioxygen to water.
J. Electroanal. Chem.
1994,
368, 87-94.
54. E.
Katz, D.D.
Schlereth.,
H.-L. Schmidt, A.J.J. Olsthoorn
Reconstitution of the quinoprotein
glucose dehydrogenase from its apoenzyme on a gold electrode surface
modified with a monolayer of pyrroloquinoline quinone.
J. Electroanal. Chem.
1994,
368,
165-171.
55. E.
Katz, T.
Lötzbeyer,
D.D. Schlereth, W. Schuhmann, H.-L. Schmidt
Electrocatalytic oxidation
of reduced nicotinamide coenzymes at gold and platinum electrode
surfaces
modified with a monolayer of
pyrroloquinoline quinone.
Effect of Ca2+ cations.
J. Electroanal. Chem.
1994,
373,
189-200.
56. T. Lötzbeyer, W.
Schuhmann, E.
Katz, J. Falter, H.-L. Schmidt
Direct
electron transfer
between the covalently immobilized enzyme microperoxidase MP-11 and
a cystamine-modified gold electrode.
J. Electroanal. Chem.
1994,
377,
291-294.
57. D.D. Schlereth, E. Katz,
H.-L. Schmidt
Toluidine blue covalently
immobilized onto gold electrode surfaces: An electrocatalytic system
for NADH oxidation.
Electroanalysis 1994,
6,
725-734.
58. I. Willner, N. Lapidot,
A. Riklin, R. Kasher, E.
Zahavy,
E.
Katz
Electron transfer
communication
in glutathione reductase assemblies: Electrocatalytic,
photocatalytic and
catalytic
systems for the reduction of oxidized glutathione.
J. Am. Chem. Soc. 1994,
116,
1428-1441.
59. M. Lion-Dagan, E. Katz,
I. Willner
Amperometric transduction
of optical signals recorded by organized monolayers
of photoisomerizable
biomaterials
on Au-electrodes.
J. Am. Chem. Soc. 1994,
116,
7913-7914.
60. M. Lion-Dagan, E. Katz,
I. Willner
A
bifunctional monolayer
electrode consisting of 4-pyridyl sulfide and photoisomerizable
spiropyran:
Photoswitchable electrical communication
between the electrode and
cytochrome c.
J. Chem. Soc. Chem.
Comm.
1994,
2741-2742.
1995
61. D.D. Schlereth,
E.
Katz, H.-L. Schmidt
Surface-modified gold electrodes
for electrocatalytic oxidation of NADH based on the immobilization
of phenoxazine and phenothiazine defivatives
on self-assembled
monolayers.
Electroanalysis 1995,
7,
46-54.
62.
E. Katz, M.
Lion-Dagan,
I. Willner
Control of
electrochemical
processes by photoisomerizable spiropyran monolayers
immobilized onto
Au-electrodes:
Amperometric transduction of optical signals.
J. Electroanal. Chem.
1995,
382,
25-31.
63. E.
Katz,
I. Willner
Thermal and photochemical
control of an electrochemical process at an isomerizable spiropyran
monolayer-modified Au-electrode.
Electroanalysis 1995,
7,
417-419.
64. A. Doron, E. Katz,
I. Willner
Organization of Au-colloids
as monolayer films onto ITO-glass surfaces: Application of the
metal-colloid
films as base interfaces to construct
redox-active and
photoactive
self-assembled monolayers.
Langmuir 1995,
11,
pp. 1313-1317.
65. I. Willner, M.
Lion-Dagan, S. Marx-Tibbon, E.
Katz
Bioelectrocatalized amperometric
transduction of optical signals using monolayer-modified
Au-electrodes.
J. Am. Chem. Soc. 1995,
117,
6581-6592.
66. A. Riklin, E. Katz,
I. Willner, A. Stoker, A.F. Bückmann
Improving enzyme–electrode contacts by redox modification of cofactors.
Nature 1995,
376,
672-675.
67. M. Lion-Dagan, S.
Marx-Tibbon, E.
Katz, I. Willner
Photoswitchable electrical
communication of glucose oxidase and glutathione reductase with
electrode
surfaces through photoisomerizable redox mediators.
Angew. Chem. Int. Ed.
Engl. 1995, 34, 1604-1606.
68. S. Marx-Tibbon, E. Katz,
I. Willner
Chiral recognition in
mediated
electron-transfer in redox proteins.
J. Am. Chem. Soc.1995,
117,
9925-9926.
1996
69. I. Willner, M. Lion-Dagan,
E.
Katz
Photostimulation of
dinitrospiropyran-modified
glucose oxidase in the presence of
DNP-antibody.
A biphase switch for the
amperometric transduction of recorded optical signals.
Chem. Comm. 1996,
623-624.
70. I. Willner, A. Doron, E.
Katz,
S. Levi, A.J. Frank
Reversible associative
and
dissociative interactions of glucose oxidase with nitrospiropyran
monolayers assembled onto Au-electrodes:
Amperometric transduction of recorded optical signals.
Langmuir 1996,
12,
946-954.
71.
E.
Katz, M. Lion-Dagan, I. Willner
pH-Switched electrochemistry
of pyrroloquinoline quinone at Au-electrodes modified
by functionalized monolayers.
J. Electroanal. Chem.
1996,
408,
107-112.
72. I. Willner, R. Blonder, E.
Katz, A. Stocker, A.F. Bückmann
Reconstitution of
apo-glucose
oxidase with a nitrospiropyran-modified FAD cofactor yields
a photoswitchable biocatalyst for
amperometric
transduction of recorded optical signals.
J. Am. Chem. Soc. 1996,
118,
5310-5311.
73. A. Doron, E. Katz,
M. Portnoy, I. Willner
An
electroactive photoisomerizable
monolayer-electrode: A command surface for the amperometric
transduction of recorded optical signals.
Angew. Chem. Int. Ed.
Engl. 1996, 35, 1535-1537.
74. A. Doron, M. Portnoy, M.
Lion-Dagan, E.
Katz, I. Willner
Amperometric transduction
and amplification of optical signals recorded by a
phenoxynaphthacenequinone
monolayer electrode:
Photochemical and
pH-gated
electron transfer.
J. Am. Chem. Soc. 1996,
118,
8937-8944.
75. R. Blonder, E. Katz,
Y. Cohen, N. Itzhak, A. Riklin, I. Willner
Application of redox-enzymes
for probing the antigen-antibody association at monolayer interfaces:
Development
of amperometric immunosensor electrodes.
Anal. Chem. 1996,
68,
3151-3157.
76. I. Willner, V.
Heleg-Shabtai, R. Blonder, E.
Katz, G. Tao, A.F. Bückmann, A. Heller
Electrical wiring of glucose
oxidase by reconstitution of FAD-modified monolayers assembled onto
Au-electrodes.
J. Am. Chem. Soc. 1996,
118,
10321-10322.
77. A.N.J. Moore, E. Katz,
I. Willner
Electrocatalytic reduction
of organic peroxides in organic solvents by microperoxidase-11
immobilized
as a monolayer on a gold electrode.
J. Electroanal. Chem.
1996,
417,
189-192.
78. E.
Katz,
I. Willner
Amperometric amplification
of antigen-antibody association at monolayer interfaces: Design
of immunosensor electrodes.
J. Electroanal . Chem.
1996,
418, 67-72.
79. A.N.J. Moore, E. Katz,
I.
Willner
Immobilization of pyrroloquinoline
quinone on gold by carbodiimide coupling to adsorbed polyamines:
Stability comparison to attachment
via a chemisorbed thiol
monolayer.
Electroanalysis 1996,
8,
1092-1094.
1997
80. M. Lahav, K.T. Ranjit,
E.
Katz, I. Willner
A b-amino-cyclodextrin
monolayer-modified Au-electrode: A command surface for the amperometric
and microgravimetric transduction of optical
signals recorded by a
photoisomerizable
bipyridinium-azobenzene dyad.
Chem. Comm. 1997,
259-260.
81. A. Doron, E. Katz,
G. Tao, I. Willner
Photochemically-, chemically-
and pH-controlled electrochemistry at functionalized spiropyran
monolayer electrode.
Langmuir 1997,
13,
1783-1790.
82. I. Willner, E. Katz,
B. Willner, R. Blonder, V. Heleg-Shabtai, A.F. Bückmann
Assembly of functionalized
monolayers of redox proteins on electrode surfaces: Novel bioelectronic
and optobioelectronic systems.
Biosens. Bioelectron.
1997,
12,
337-356.
83. E.
Katz,
I. Willner
Kinetic separation of amperometric
responses of composite redox-active monolayers assembled
onto Au-electrodes:
Implication to the
monolayer
structure and composition.
Langmuir 1997,
13,
3364-3373.
84. E.
Katz, V.
Heleg-Shabtai,
B. Willner, I. Willner, A.F. Bückmann
Electrical contact of redox
enzymes with electrodes: Novel approaches for amperometric
biosensors.
Bioelectrochem.
Bioenerg.
1997,
42,
95-104.
85. A. Bardea, E. Katz,
A.F. Bückmann, I. Willner
NAD+-Dependent
enzyme electrodes: Electrical contact of cofactor-dependent
enzymes and electrodes.
J. Am. Chem. Soc. 1997,
119,
9114-9119.
86. G. Tao, E. Katz,
I. Willner
Enatioselective bioelectrocatalyzed
oxidation of glucose oxidase at chiral-monolayer-electrodes.
Chem. Commun. 1997,
2073-2074.
87. A. Narvaez, E.
Dominguez, I. Katakis, E.
Katz, K. Ranjit, I. Willner
Microperoxidase-11 mediated
reduction of hemoproteins: Electrocatalyzed reduction of cytochrome c,
myoglobin
and hemoglobin
and
electrocatalytic reduction of
nitrate
in the presence of cytochrome-dependent
nitrate reductase.
J. Electroanal. Chem.
1997,
430,
227-233.
88. V. Heleg-Shabtai, E. Katz,
I. Willner
Assembly of
microperoxidase-11
and Co(II)-protoporphyrin IX reconstituted
myoglobin monolayers on
Au-electrodes:
Integrated bioelectrocatalytic interfaces.
J. Am. Chem. Soc. 1997,
119,
8121-8122.
89. I. Willner, E. Katz,
B. Willner
Electrical-contact of redox
enzyme layers associated with electrodes: Routes to amperometric
biosensors.
Electroanalysis 1997,
9,
965-977.
90. R. Blonder, E. Katz,
I. Willner, V. Wray, A.F. Bückmann
Application of a nitrospiropyran-FAD
reconstituted glucose oxidase and charged electron mediators as
optobioelectronic
assemblies
for
the amperometric transduction of
recorded optical signals:
Control of the "ON"-"OFF" direction of the photoswitch.
J. Am. Chem. Soc. 1997,
119,
11747-11757.
91. M. Greenwald, M. Eassa, E.
Katz, I. Willner, Y. Cohen
Electrochemical
characterization
of a self-assembled double-strand copper complex
composed of the Cu+
ions and two ligands containing bis(bipyridine)bithiophene.
J. Electroanal. Chem.
1997,
434,
77-82.
92. E.
Katz, B.
Willner,
I. Willner
Light-controlled electron
transfer reactions at photoisomerizable monolayer electrodes by means
of electrostatic
interactions : Active interfaces for the
amperometric transduction
of recorded optical signals.
Biosens. Bioelectron.
1997,
12,
703-719.
93. V. Heleg-Shabtai, E. Katz,
S. Levi, I. Willner
Microperoxidase-11 functionalized
electrodes: An active monolayer interface for the electrocatalytic
reduction of Co(II)-proporphyrin IX reconstituted
myoglobin and for the generation
of integrated protein electrodes for bioelectrocatalized hydrogenetion
of acetylenes.
J. Chem. Soc. Perkin
Trans.
2 1997, 2645-2651.
94. M. Lahav, K.T. Ranjit, E.
Katz,
I. Willner
Photostimulated interactions
of bipyridinium-azobenzene with a b-aminocyclodextrin
monolayer-functionalized-electrode:
An optoelectronic assembly for the
amperometric transduction
of recorded optical signals.
Isr. J. Chem. 1997,
37,
185-195.
1998
95. I. Willner, G. Arad,
E.
Katz
A
biofuel cell based on
pyrroloquinoline
quinone and microperoxidase-11 monolayer-functionalized
electrodes.
Bioelectrochem.
Bioenerg.
1998,
44,
209-214.
96. F. Patolsky, E. Katz,
V. Heleg-Shabtai, I. Willner
A
crosslinked microperoxidase-11
and nitrate reductase monolayer on a Au-electrode: an integrated
electrically contacted electrode for
the bioelectrocatalyzed
reduction
of NO3-.
Chem. Eur. J. 1998,
4,
1068-1073.
97. I. Willner, A. Doron, E.
Katz
Gated-molecular and -biomolecular
optoelectronic systems via photoisomerizable monolayer-electrodes.
J. Phys. Org. Chem. 1998,
11,
546-560.
98. E.
Katz, V.
Heleg-Shabtai,
A. Bardea, I. Willner, H.K. Rau, W. Haehnel
Fully integrated
biocatalytic
electrodes based on bioaffinity interactions.
Biosens. Bioelectron.
1998,
13,
741-756.
99. I. Willner, E. Katz,
F. Patolsky, A.F. Bückmann
A
biofuel cell based on glucose
oxidase and microperoxidase-11 monolayer-functionalized-electrodes.
J. Chem. Soc. Perkin
Trans.
2 1998, 1817-1822.
100. F. Patolsky, G. Tao, E.
Katz,
I. Willner
C60-Mediated
bioelectrocatalyzed oxidation of glucose with glucose oxidase.
J.
Electroanal.
Chem. 1998,
454, 9-13.
101. M. Lahav, E. Katz,
I. Willner
A covalently
linked quinone-ferrocene dyad monolayer-electrode: A pH-sensor with
an internal reference.
Electroanalysis
1998,
10,
1159-1162.
102. E. Katz, V.
Heleg-Shabtai,
I. Willner, H.K. Rau, W. Haehnel
Surface reconstitution
of a de novo synthesized hemoprotein for bioelectronic
applications.
Angew.
Chem.
Int. Ed. Engl. 1998,
37, 3253-3256.
103. F. Patolsky, B.
Filanovsky, E.
Katz, I. Willner
Photoswitchable
antigen-antibody interactions studied by impedance spectroscopy.
J. Phys.
Chem.
B
1998,
102, 10359-10367.
1999
104.
E. Katz,
A. Riklin, V. Heleg-Shabtai, I. Willner, A.F. Bückmann
Glucose oxidase
electrodes via reconstitution of the apo-enzyme:
Tailoring of
novel glucose biosensors.
Anal.
Chim.
Acta 1999,
385, 45-58.
105. I. Willner, E. Katz,
B. Willner
Layered biomaterials
on electrode supports: Routes to electrochemical biosensors,
immunosensors
and DNA-sensors.
in: Sensors
Updates, Vol. 5, H. Baltes, W. Göpel and J. Hesse (Eds.),
Wiley-VCH,
Weinheim,
Germany, 1999, Chapter 2, pp. 45-102.
106. M. Lahav, E. Katz,
A. Doron, F. Patolsky, I. Willner
Photochemical
imprint of molecular recognition sites in monolayers assembled
on Au-electrodes.
J. Am.
Chem.
Soc. 1999,
121, 862-863.
107. I. Willner, V.
Heleg-Shabtai, E.
Katz, H.K. Rau, W. Haehnel
Integration of
a reconstituted de novo synthesized hemoprotein and native
metalloproteins
with electrode supports for bioelectronic
and
bioelectrocatalytic
applications.
J. Am.
Chem.
Soc. 1999,
121, 6455-6468.
108. E. Katz, B.
Filanovsky,
I. Willner
A biofuel cell
based on two immiscible solvents and glucose oxidase and
microperoxidase-11
monolayer-functionalized electrodes.
New J.
Chem.
1999,
23,
481-487.
109. F. Patolsky, E. Katz,
A. Bardea, I. Willner
Enzyme-linked
electrochemical sensing of oligonucleotide-DNA interactions
by means of impedance spectroscopy.
Langmuir
1999,
15,
3703-3706.
110. F. Patolsky, M. Zayats,
E.
Katz, I. Willner
Precipitation
of an insoluble product on enzyme-monolayer-electrodes for biosensor
applications: characterization by Faradaic impedance
spectroscopy,
cyclic voltammetry and microgravimetricquartz-crystal-microbalance
analyses.
Anal.
Chem.
1999,
71,
3171-3180.
111. A. B. Kharitonov, A.N.
Shipway, E.
Katz, I. Willner
A gold-nanoparticle/bis-bipyridinium
cyclophane-functionalized ion-sensitive field-effect-transistor:
Novel assemlies for the sensing of neurotransmitters.
Rev. Anal.
Chem. 1999, 18, 255-260.
112. E. Katz, I.
Willner,
A.B. Kotlyar
A non-compartmentalized
glucose-O2 biofuel cell by bioengineered
electrode surfaces.
J.
Electroanal.
Chem. 1999,
479, 64-68.
updated on February 6, 2011