Development of Neurotransmitter Sensor Using Polycarbazole (Paperback)
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Development of Neurotransmitter Sensor Using Polycarbazole (2015)
DE NW
ISBN: 9783659764189 bzw. 3659764183, in Deutsch, LAP Lambert Academic Publishing, neu.
Von Händler/Antiquariat, PBShop.co.uk Ltd [61989342], Secaucus, NJ, U.S.A.
New Book. Shipped from US within 10 to 14 business days. THIS BOOK IS PRINTED ON DEMAND. Established seller since 2000.
New Book. Shipped from US within 10 to 14 business days. THIS BOOK IS PRINTED ON DEMAND. Established seller since 2000.
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Development of neurotransmitter sensor using Polycarbazole
DE PB NW RP
ISBN: 9783659764189 bzw. 3659764183, in Deutsch, LAP Lambert Academic Publishing, Taschenbuch, neu, Nachdruck.
Von Händler/Antiquariat, AHA-BUCH GmbH [51283250], Einbeck, Germany.
This item is printed on demand - Print on Demand Titel. Neuware - In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode; the electrode does not sense adrenaline in the presence of the other two. 108 pp. Englisch.
This item is printed on demand - Print on Demand Titel. Neuware - In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode; the electrode does not sense adrenaline in the presence of the other two. 108 pp. Englisch.
3
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Development of Neurotransmitter Sensor Using Polycarbazole (Paperback) (2015)
DE PB NW RP
ISBN: 9783659764189 bzw. 3659764183, in Deutsch, LAP Lambert Academic Publishing, United States, Taschenbuch, neu, Nachdruck.
Von Händler/Antiquariat, The Book Depository EURO [60485773], London, United Kingdom.
Language: English Brand New Book ***** Print on Demand *****.In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode; the electrode does not sense adrenaline in the presence of the other two.
Language: English Brand New Book ***** Print on Demand *****.In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode; the electrode does not sense adrenaline in the presence of the other two.
4
Symbolbild
Development of neurotransmitter sensor using Polycarbazole
DE NW
ISBN: 9783659764189 bzw. 3659764183, in Deutsch, neu.
Lieferung aus: Deutschland, zzgl. Versandkosten.
In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode; the electrode does not sense adrenaline in the presence of the other two.
In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode; the electrode does not sense adrenaline in the presence of the other two.
5
Development of neurotransmitter sensor using Polycarbazole
~EN NW AB
ISBN: 9783659764189 bzw. 3659764183, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Österreich, Lieferzeit: 5 Tage, zzgl. Versandkosten.
In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode, the electrode does not sense adrenaline in the presence of the other two.
In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode, the electrode does not sense adrenaline in the presence of the other two.
6
Development of neurotransmitter sensor using Polycarbazole - Development of neuro transmitter sensor using polycarbazole
~EN PB NW
ISBN: 9783659764189 bzw. 3659764183, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Development of neurotransmitter sensor using Polycarbazole: In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode the electrode does not sense adrenaline in the presence of the other two. Englisch, Taschenbuch.
Development of neurotransmitter sensor using Polycarbazole: In undertaking this study a primary goal was to develop an electrode which will be selectively sense dopamine or L-dopa in the presence of ascorbic acid/adrenaline. In the literature carbon paste electrode, graphite epoxy electrode etc. have been employed to achieve the selectivity. The need to go through the treated electrode has been to solve the selectivity problem. The results reported in this thesis on the electrochemical oxidations of dopamine or L-dopa at polycarbazole electrode reveals that these molecules are oxidised at the electrode (0.2-0.5 V) and the product o-quinone undergoes a chemical reaction as the cyclic voltammetric complementary peak is absent. The chemical reaction has been identified by earlier studies as intra molecular cyclisation leading to melanin. This electrode introduces a greater reversibility in the electrochemical measurements and reproducibility in the analytical measurements of concentrations of dopamine, L-dopa and adrenaline. These endogenous amines are distinguishable at the polycarbazole electrode the electrode does not sense adrenaline in the presence of the other two. Englisch, Taschenbuch.
7
Development of neurotransmitter sensor using Polycarbazole
~EN NW
ISBN: 3659764183 bzw. 9783659764189, vermutlich in Englisch, neu.
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