The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman
Bio-battery was one of the new fields of energy production that uses carbohydrates or glucose to generate electricity. This type of energy storage device utilizes enzymes to break down glucose into electrons, thus generating a flow of current to produce electricity. One of the major subjects studied...
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my.uitm.ir.830992023-11-22T00:21:23Z https://ir.uitm.edu.my/id/eprint/83099/ The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman Kamarudzaman, Muhammad Syafiq Zafran Applications of electric power Bio-battery was one of the new fields of energy production that uses carbohydrates or glucose to generate electricity. This type of energy storage device utilizes enzymes to break down glucose into electrons, thus generating a flow of current to produce electricity. One of the major subjects studied by researchers today was the immobilization of enzyme in bio-battery. Enzymes were immobilized onto the electrodes of the bio-battery in order to increase the transfer rate of the electrons, thus increasing the performance of the biobattery. The objectives of the study were to investigate the effect of enzyme immobilization and electrolyte volumes on the performance of bio-battery. The 2-chambered bio-battery comprising of a mixture an autoclaved nutrient broth medium and glucose at the anode part of the battery, while the cathode part consists of an autoclaved potassium ferrocyanide (KCN) and phosphate buffer. Graphite electrodes of diameter 0.5 cm were used both as anode and cathode electrode of the battery. A V-tube was used as bridge that connects the anode and cathode. The immobilization of enzyme was carried out using an ultrasonic standing wave generated by piezoelectric transducers. The result showed that the open circuit potential of the bio-battery increased by 0.2 V when the immobilization technique was introduced. The effect of electrolyte volume on bio-battery performance was also studied by increasing the volume of the electrolytes. Results showed the open circuit potential was also increased when the electrolyte volume were increased. These results imply that immobilizing enzymes in the bio-battery and changing the electrolyte volumes affects the performance of bio-battery. 2015 Student Project NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/83099/1/83099.PDF The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman. (2015) [Student Project] <http://terminalib.uitm.edu.my/83099.pdf> (Unpublished) |
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Applications of electric power Kamarudzaman, Muhammad Syafiq Zafran The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman |
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Bio-battery was one of the new fields of energy production that uses carbohydrates or glucose to generate electricity. This type of energy storage device utilizes enzymes to break down glucose into electrons, thus generating a flow of current to produce electricity. One of the major subjects studied by researchers today was the immobilization of enzyme in bio-battery. Enzymes were immobilized onto the electrodes of the bio-battery in order to increase the transfer rate of the electrons, thus increasing the performance of the biobattery. The objectives of the study were to investigate the effect of enzyme immobilization and electrolyte volumes on the performance of bio-battery. The 2-chambered bio-battery comprising of a mixture an autoclaved nutrient broth medium and glucose at the anode part of the battery, while the cathode part consists of an autoclaved potassium ferrocyanide (KCN) and phosphate buffer. Graphite electrodes of diameter 0.5 cm were used both as anode and cathode electrode of the battery. A V-tube was used as bridge that connects the anode and cathode. The immobilization of enzyme was carried out using an ultrasonic standing wave generated by piezoelectric transducers. The result showed that the open circuit potential of the bio-battery increased
by 0.2 V when the immobilization technique was introduced. The effect of electrolyte volume on bio-battery performance was also studied by increasing the volume of the electrolytes. Results showed the open circuit potential was also increased when the electrolyte volume were increased. These results imply that immobilizing enzymes in the bio-battery and changing the electrolyte volumes affects the performance of bio-battery. |
| format |
Student Project |
| author |
Kamarudzaman, Muhammad Syafiq Zafran |
| author_facet |
Kamarudzaman, Muhammad Syafiq Zafran |
| author_sort |
Kamarudzaman, Muhammad Syafiq Zafran |
| title |
The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman |
| title_short |
The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman |
| title_full |
The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman |
| title_fullStr |
The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman |
| title_full_unstemmed |
The effect of enzyme immobilization on the performance of bio-battery / Muhammad Syafiq Zafran Kamarudzaman |
| title_sort |
effect of enzyme immobilization on the performance of bio-battery / muhammad syafiq zafran kamarudzaman |
| publishDate |
2015 |
| url |
https://ir.uitm.edu.my/id/eprint/83099/1/83099.PDF https://ir.uitm.edu.my/id/eprint/83099/ |
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