S.B. Saidman scite author profile

The electrochemical oxidation of the adenine moiety in NAD+ and other adenine nucleotides at carbon paste electrodes gives rise to redox-active products which strongly adsorb on the electrode surface. Carbon paste electrodes modified with the oxidation products of NAD+ show excellent electrocatalytic activity toward NADH oxidation, reducing its overpotential by about 400 mV. The rate constant for the catalytic oxidation of NADH, determined by rotating disk electrode measurements and extrapolation to zero concentration of NADH, was found to be 2.5 x 10(5) M-1 s-1. The catalytic oxidation current allows the amperometric detection of NADH at an applied potential of +50 mV (Ag/AgCl) with a detection limit of 4.0 x 10(-7) M and linear response up to 1.0 x 10(-5) M NADH. These modified electrodes can be used as amperometric transducers in the design of biosensors based on coupled dehydrogenase enzymes and, in fact, we have designed an amperometric biosensor for glycerol based on the glycerol dehydrogenase (GlDH) system. The enzyme GlDH and its cofactor NAD+ were co-immobilized in a carbon paste electrode using an electropolymerized layer of nonconducting poly(o-phenylenediamine) (PPD). After partial oxidation of the immobilized NAD+, the modified electrode allows the amperometric detection of the NADH enzymatically obtained at applied potential above 0 V (Ag/AgCl). The resulting biosensor shows a fast and linear response to glycerol within the concentration range of 1.0 x 10(-6)-1.0 x 10(-4) M with a detection limit of 4.3 x 10(-7) M. The amperometric response remains stable for at least 3 days. The biosensor was applied to the determination of glycerol in a plant-extract syrup, with results in good agreement with those for the standard spectrophotometric method.

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Electrochemical preparation and characterisation of polypyrrole on aluminium in aqueous solution

Saidman

Bessone

2002

Journal of Electroanalytical Chemistry

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Characterisation and corrosion protection properties of polypyrrole electropolymerised onto aluminium in the presence of molybdate and nitrate

Lehr

Saidman

2006

Electrochimica Acta

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Electrodeposition of polypyrrole onto NiTi and the corrosion behaviour of the coated alloy

Flamini

Saidman

2010

Corrosion Science

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Corrosion protection of iron by polypyrrole coatings electrosynthesised from a surfactant solution

Lehr

Saidman

2007

Corrosion Science

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S.B. Saidman

Electrodeposition of polypyrrole on 316L stainless steel for corrosion prevention

Aluminium activation produced by gallium

Corrosion of an Al–Zn–In alloy in chloride media

Electrocatalytic Detection of NADH and Glycerol by NAD⁺-Modified Carbon Electrodes

Electrochemical preparation and characterisation of polypyrrole on aluminium in aqueous solution

Characterisation and corrosion protection properties of polypyrrole electropolymerised onto aluminium in the presence of molybdate and nitrate

Electrodeposition of polypyrrole onto NiTi and the corrosion behaviour of the coated alloy

Corrosion protection of iron by polypyrrole coatings electrosynthesised from a surfactant solution

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S.B. Saidman

Electrodeposition of polypyrrole on 316L stainless steel for corrosion prevention

Aluminium activation produced by gallium

Corrosion of an Al–Zn–In alloy in chloride media

Electrocatalytic Detection of NADH and Glycerol by NAD+-Modified Carbon Electrodes

Electrochemical preparation and characterisation of polypyrrole on aluminium in aqueous solution

Characterisation and corrosion protection properties of polypyrrole electropolymerised onto aluminium in the presence of molybdate and nitrate

Electrodeposition of polypyrrole onto NiTi and the corrosion behaviour of the coated alloy

Corrosion protection of iron by polypyrrole coatings electrosynthesised from a surfactant solution

Contact Info

Product

Resources

About

Electrocatalytic Detection of NADH and Glycerol by NAD⁺-Modified Carbon Electrodes