Wolffia globosa作为植物生物燃料电池的生物催化剂

IF 2.9 Q2 ELECTROCHEMISTRY Journal of Electrochemical Science and Engineering Pub Date : 2023-01-01 DOI:10.5599/jese.1547
Yolina Hubenova Hubenova, E. Hubenova, M. Mitov
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引用次数: 0

摘要

本文研究了目前尚未在电致性方面进行研究的无根浮萍Wolffia globosa作为植物基生物燃料电池(P-BFC)中产生电流的生物催化剂,并描述了其在极化过程中的基本代谢变化。经过较短的适应期,以球藻为阳极生物催化剂的P-BFC的开路电压可达630 mV。在电路中连接的外部电阻1 kΩ处,实现了170±10 mA m-2的稳定电流密度。电输出取决于阳极电位,达到约-200 mV (vs. SHE)的负值。球藻产生一种电化学活性化合物,充当电子穿梭器。极化强化了球芽草的代谢,表现为葡萄糖和淀粉含量增加了一倍,在作为生物催化剂的植物中,细胞器富集部分的特定淀粉酶活性为70.0±2.8 U g-1,比对照高1.82倍。结果表明,球Wolffia globosa可以作为P-BFC的生物催化剂,用于同时发电和提高碳水化合物和蛋白质含量。
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Wolffia globosa as a biocatalyst in plant-based biofuel cells
The rootless duckweed Wolffia globosa, not explored toward electrogenicity till now, is investigated as a putative biocatalyst in Plant-based Biofuel Cells (P-BFC) for the electrical current generation and its basic metabolic changes during the polarization are depicted. After a short adaptation period, the open-circuit voltage of P-BFC, utilizing W. globosa as an anodic biocatalyst, reaches values of 630 mV. At a connected external resistor of 1 kΩ in the electric circuit, stable current densities of 170±10 mA m-2 are achieved. The electrical outputs depend on the anodic potential, reaching negative values of ca. -200 mV (vs. SHE). W. globosa produces an electrochemically active compound, acting as an electron shuttle. The polarization intensifies the W. globosa metabolism, expressed in a double increased glucose and starch content along with 1.82 times higher specific amylase activity of 70.0±2.8 U g-1 wet biomass in the organelle-enriched fractions of the explored as biocatalysts plants compared to the control. The results reveal that Wolffia globosa can be utilized as a biocatalyst in P-BFC for simultaneous electricity generation and increased carbohydrate and protein content.
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来源期刊
CiteScore
3.60
自引率
27.30%
发文量
90
审稿时长
6 weeks
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