阐明氢气和甲烷生产途径中添加金属基纳米粒子后的生物过程反应:综述。

IF 9.7 1区 环境科学与生态学 Q1 AGRICULTURAL ENGINEERING
Ahmed Elreedy, Mohamed Elsamadony, Alsayed Mostafa, Johannes Gescher, Omar Y Abdelaziz, Manabu Fujii
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引用次数: 0

摘要

最近的研究讨论了金属基纳米粒子(NPs)对生产氢气(H2)或甲烷(CH4)的生物工艺的积极影响。这种增强作用是通过种间直接电子传递 (DIET)、金属腐蚀和异氨还原等机制来解释的。这种相互作用可能会带来更多益处,如控制氧化还原电位(ORP)、减轻毒物、促进酶活性和改变微生物群,但这些问题尚未得到全面讨论。纳米粒子的金属类型、氧化态和尺寸等因素对其反应性和相应的反应至关重要。本综述将讨论不同的金属氧化还原电位如何调节新陈代谢途径,以及 NPs 及其活性离子如何消除有毒物质(如硫酸盐)并增强细胞内外酶的活性。此外,还进一步讨论了与 NPs 相关的反应微生物的富集问题。更好地了解金属基 NPs 的多方面作用可以指导潜在的新加入策略,从而改善生物工艺。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Illuminating bioprocess responses to metal-based nanoparticles addition along hydrogen and methane production pathways: A review.

Recent research has discussed the positive impacts of metal-based nanoparticles (NPs) on bioprocesses producing either hydrogen (H2) or methane (CH4). The enhancement has been explained by mechanisms such as direct interspecies electron transfer (DIET), metal corrosion, and dissimilatory reduction. Such interactions could induce further benefits, such as controlling oxidation-reduction potential (ORP), mitigating toxicants, promoting enzymatic activity, and altering the microbiome, which have not yet been comprehensively discussed. Factors like metal type, oxidation state, and size of NPs are crucial for their reactivity and corresponding responses. This review discusses how different redox potentials of metals can regulate metabolic pathways and how NPs and their reactive ions can eliminate toxicants (e.g., sulfate) and enhance the activity of intra- and extracellular enzymes. The enrichment of responsive microorganisms in correlation with NPs is further discussed. A better understanding of the multifaceted role of metal-based NPs can guide potential new incorporation strategies to improve bioprocesses.

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来源期刊
Bioresource Technology
Bioresource Technology 工程技术-能源与燃料
CiteScore
20.80
自引率
19.30%
发文量
2013
审稿时长
12 days
期刊介绍: Bioresource Technology publishes original articles, review articles, case studies, and short communications covering the fundamentals, applications, and management of bioresource technology. The journal seeks to advance and disseminate knowledge across various areas related to biomass, biological waste treatment, bioenergy, biotransformations, bioresource systems analysis, and associated conversion or production technologies. Topics include: • Biofuels: liquid and gaseous biofuels production, modeling and economics • Bioprocesses and bioproducts: biocatalysis and fermentations • Biomass and feedstocks utilization: bioconversion of agro-industrial residues • Environmental protection: biological waste treatment • Thermochemical conversion of biomass: combustion, pyrolysis, gasification, catalysis.
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