Title |
Gold nanoparticle-based biofuel cell catalytic efficiency reliance on medium pH / |
Authors |
Zinovičius, Antanas ; Rožėnė, Justė ; Šataitė, Vakarė Guoba ; Merkelis, Timas ; Juška, Joris ; Morkvėnaitė-Vilkončienė, Inga |
DOI |
10.1088/1757-899X/1239/1/012006 |
Full Text |
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Is Part of |
IOP conference series: Materials science and engineering: 16th international conference: Mechatronic systems and materials (MSM 2021), 30.06 - 02.07.2021, Vilnius, Lithuania.. Bristol : IOP Publishing. 2022, vol. 1239, art. no. 012006, p. 1-6.. ISSN 1757-8981. eISSN 1757-899X |
Abstract [eng] |
Over the past several decades, biology, chemistry, and medicine took advantage of gold nanoparticles (AuNPs) for their fascinating characteristics. Today these nanomaterials can be synthesized in various methods from biosynthesis, when particles are made by microbial culture, to physical. Using the fast scan cyclic voltammetry, AuNPs can be electrodeposited from chloroauric acid (HAuCl 4 ) directly onto the surface of a graphite electrode. This method provides high reproducibility and allows to control the size of the nanoparticles (from 4 to 75 nm) and electrode coverage by changing HAuCl 4 concentration, scan speed, and a number of applied cycles. Gold nanoparticles are known to express comparable catalytic activity to natural enzymes such as glucose oxidase or horseradish peroxidase. Despite the advantages over natural enzymes, inorganic enzyme mimicking catalysts exhibit limited catalytical efficiency and selectivity. To increase efficiency, we used low size AuNPs which increase reactivity; the lack of selectivity in a biofuel cell is advantageous since AuNPs can reduce/oxidize several substrates in the medium. Biofuel cell based on AuNP’s has a superior life span, as the main active part of the system is inorganic, and thus it is not affected by oxygen stress, where typical microbial biofuel cells are struggling. The observed catalytic activity had a minimal dependency on temperature change. pH was changed from 4 to 10 with the smallest synthesized AuNPs. However, pH has an impact on the reaction speed. Results showed that biofuel cell is suitable for raw wastewater as it usually deviates from pH 7, and usable current can be generated. |
Published |
Bristol : IOP Publishing |
Type |
Conference paper |
Language |
English |
Publication date |
2022 |
CC license |
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