CARBON PASTE ELECTRODE MODIFIED BY MOLECULARLY IMPRINTED POLY(METHYL ORANGE) FOR ASCORBIC ACID ANALYSIS BY VOLTAMMETRY
Ascor <br /> <br /> bic acid is an important daily intake for normal growth. Human does not hav <br /> <br /> e <br /> <br /> l <br /> <br /> - <br /> <br /> gluconolactone oxidase, making human can <br /> <br /> n...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/29858 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Ascor <br />
<br />
bic acid is an important daily intake for normal growth. Human does not hav <br />
<br />
e <br />
<br />
l <br />
<br />
- <br />
<br />
gluconolactone oxidase, making human can <br />
<br />
not synthesize ascorbic acid him <br />
<br />
self. Lack of <br />
<br />
ascorbic acid causes a lethal deficiency. Therefore, an accurate ascorbic acid analysis <br />
<br />
me <br />
<br />
thod is required. In this study, ascorbic acid was analyzed by voltammetric method <br />
<br />
using a modified carbon paste electrode by molecularly imprinted polymer technique. <br />
<br />
The modification was performed by electropolimerization using methyl orange as <br />
<br />
monomer <br />
<br />
an <br />
<br />
d ascorbic acid as <br />
<br />
analyte with 1: <br />
<br />
1 ratio <br />
<br />
for <br />
<br />
20 cycles with cyclic <br />
<br />
voltammetric technique. Ascorbic acid was <br />
<br />
measured by differential pulse voltammetry <br />
<br />
technique under optimum conditions, <br />
<br />
p <br />
<br />
H 6. Linearity was obtained at a concentration <br />
<br />
range of 400 μM to <br />
<br />
6 mM and a detection limit of 447 μM. Scan <br />
<br />
rate analysis showed <br />
<br />
that electron transfer reactions in ascorbic a <br />
<br />
cid analysis are controlled by <br />
<br />
diffusion <br />
<br />
process. <br />
<br />
Repeatability test result showed that the value of rela <br />
<br />
tive standard deviation <br />
<br />
obtained <br />
<br />
is lower than <br />
<br />
Horwitz <br />
<br />
relative standard deviation <br />
<br />
which signifies the precise test <br />
<br />
res <br />
<br />
ults. The accuracy test p <br />
<br />
rovided a recovery result of 91. <br />
<br />
6 <br />
<br />
- <br />
<br />
105%. <br />
<br />
Real sample analysis <br />
<br />
using <br />
<br />
differential pulse voltammetr <br />
<br />
y <br />
<br />
technique gave results that did not differ <br />
<br />
s <br />
<br />
ignificantly with the <br />
<br />
comparison <br />
<br />
method <br />
<br />
which is <br />
<br />
titrimetry <br />
<br />
. |
|---|