Introduction to Electrochemical Technologies
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Electrochemical Technologies sentence examples within extracellular electron transfer
The extracellular electron transfer (EET) that connects the intracellular metabolism of electroactive microorganisms to external electron donors/acceptors, is the foundation to develop diverse microbial electrochemical technologies.
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Extracellular electron transfer pathways allow bacteria to transfer electrons from the cell metabolism to extracellular substrates, such as metal oxides in natural environments and electrodes in microbial electrochemical technologies (MET).
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Electrochemical Technologies sentence examples within Microbial Electrochemical Technologies
Her research interests are in the modification of biotic-abiotic interfaces for microbial electrochemical technologies and human health.
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The present work assessed the alliance of microbial electrochemical technologies (METs) and fermentation in a two-step process for the electro-bioconversion of carbon dioxide (CO2) into elongated chemical building blocks.
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Electrochemical Technologies sentence examples within Emerging Electrochemical Technologies
Their deployment in emerging electrochemical technologies arises from the need to have a membrane separator that provides disparate pH environments and to prevent species crossover.
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Driven by the potential applications of ionic liquids (ILs) in many emerging electrochemical technologies, recent research efforts have been directed at understanding the complex ion ordering in these systems, to uncover novel energy storage mechanisms at IL–electrode interfaces.
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Electrochemical Technologies sentence examples within Different Electrochemical Technologies
Different electrochemical technologies categorized by recognition agents, aptamers, enzymes, molecularly imprinted polymers and nanomaterials are discussed and summarized in their mechanisms, usages, merits and limitations.
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We conclude that knowledge and strategies are transferable between these different electrochemical technologies, although there are also unique complications that arise from the specifics of the reactions involved.
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Electrochemical Technologies sentence examples within Variou Electrochemical Technologies
Iron based chalcogenides are considered a promising group of electro-active materials for various electrochemical technologies.
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Use of flow-through electrodes, in which water flows through rather than past porous electrodes, has been shown to be a promising approach to overcoming mass transfer limitations in various electrochemical technologies (including microbial fuel cells, electrochemical disinfection, electrochemical advanced oxidation processes and capacitive deionization).
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Electrochemical Technologies sentence examples within Promising Electrochemical Technologies
Solid oxide cells represent one of the most efficient and promising electrochemical technologies for hydrogen energy conversion.
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Pursuing efficient and low-cost catalysts for the sluggish oxygen evolution reaction (OER) is imperative for the large-scale deployment of promising electrochemical technologies such as water splitting and CO2 electrochemical reduction.
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Electrochemical Technologies sentence examples within Important Electrochemical Technologies
Metal hexacyanometallates, or Prussian blue analogs (PBAs), are active materials in important electrochemical technologies, including next-generation sodium- and potassium- ion batteries.
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Metal hexacyanometallates, or Prussian blue analogs (PBAs), are active materials in important electrochemical technologies, including next-generation sodium- and potassium- ion batteries.
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Electrochemical Technologies sentence examples within electrochemical technologies require
Designing highly efficient Pt electrocatalysts can reduce material cost and enable commercial success for a wide variety of electrochemical technologies.
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Shewanella oneidensis MR-1 is quickly becoming a synthetic biology workhorse for bioelectrochemical technologies due to a high level of understanding of its interaction with electrodes.
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These challenges can be addressed by combining electrochemical, biological, and bio-electrochemical technologies within existing WWTPs.
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Finally, two diamond based-electrochemical technologies (anodic oxidation (AO-H2O2) and electro-Fenton (EF)) have been used for treating the effluents generated by soil decontamination to eliminate the dissolved organic matter.
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Electrochemical technologies such as supercapacitors and batt.
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Electrochemical technologies such as electrochemical oxidation, electrochemical reduction, indirect electro-oxidation with strong oxidants and electrocoagulation have received considerable attention for treating dye wastewaters during last decade.
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Prospects for the further DG application in the world are associated with the development of renewable energy and the improvement of electrochemical technologies, primarily electricity storage devices.
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The present article aims to demonstrate the present capabilities of SPEM to explore the surface composition of micro- and nano-structured materials, focusing on cases relevant to electrochemical technologies.
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The electrochemical and in-situ UV–Vis spectral change of complexes (4–6) indicated that they have applicability in electrochemical technologies.
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Photoelectrochemical and electrochemical technologies were used to monitor the fabrication process of the biosensor.
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Heat transfer enhancement methods involving the use of a modified/structured boiling surface obtained by means of mechanized processing, electrochemical technologies, plasma and ion deposition, laser emission, and subcooled liquid boiling are considered.
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In the world ranking of technologically developed countries in Asia, North America, and Europe, Russia belongs to the Rest of the World category by the level of development of electrochemical technologies, while our country has exceptional prerequisites for reaching the leading position in this field.
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The paper analyzes the process of assimilation of new technologies and methods in the main heavy industry sectors in the USSR during the early five-year plans, as exemplified by the case of electrochemical technologies.
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This work assesses the potential of electrochemical technologies for the treatment of groundwaters contaminated with petroleum hydrocarbons.
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In recent years, thousands of scientific articles have considered the application of electrochemical technologies to remediate environmental problems ranging from the treatment of polluted soils to the removal of hazardous species from industrial liquid wastes.
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Shewanella oneidensis MR-1 is quickly becoming a synthetic biology workhorse for bioelectrochemical technologies due to a high level of understanding of its interaction with electrodes.
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Between the electrochemical technologies evaluated, lithium-ion was the best candidate.
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This process can also be harnessed at electrode interfaces in bioelectrochemical technologies including microbial fuel cells, microbial electrosynthesis, bioremediation, and wastewater treatment.
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Through improved understanding of the structure-performance relationships in 2D-related catalysts which is achievable through the application of modern in situ characterization techniques, practical photo/photothermal/photoelectrochemical technologies for CO and CO2 reduction to high-valuable products such as olefins could be realized in the not-too-distant future.
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Non-electrochemical technologies are also developed for CGM but are not currently available in routine practice (optical, impedance, piezoelectric, magnetic methods) [1].
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Synthetic systems that facilitate electron transport across cellular membranes are of interest in bio‐electrochemical technologies such as bio‐electrosynthesis, waste water remediation, and microbial fuel cells.
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The modern BioElectrochemical technologies can convert the energy stored in the chemical bonds of biodegradable organic materials to renewable electrical energy through the catalytic reactions of microorganisms while treating the waste waters.
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Electrochemical technologies have been broadly applied in wastewaters treatment, but few studies have focused on comparing the performance of the different electrochemical processes, especially when used to treat highly-polluted streams.
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As a branch of electrochemical technologies, however, electrochemiluminescence (ECL) possesses high sensitivity and broad dynamic range by the transformation of input electrical signal into optical readout, which differs from most other electrochemical techniques.
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Energy storage systems, such as electrochemical technologies, represent a broadly deployable asset, which could support effectively RES deployment.
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In this paper, we reviewed the recent development and applications of aptamer sensors (aptasensors) based-on nanomaterial for arsenic detection, in particular with emphasis on the works using optical and electrochemical technologies.
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Mineral sulfide dissolution is based on redox reactions and can be accomplished by electrochemical technologies.
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Microfluidic and electrochemical technologies have been at the forefront of the development of emerging analytical microsystems.
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In this study we report the results from preliminary laboratory and in-field tests carried out within the TECNAIRE-cM project for commercial NO2 and O3 sensors including both, solid-state and electrochemical technologies.
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Electrochemical technologies have the potential to contribute to this vision, as they have several advantages over established water treatment technologies.
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Electrochemical technologies commonly enable more effi cient degradation of recalcitrant organic contaminants than biological methods, but those rely greatly on the energy consumption.
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Reversible high-voltage redox chemistry is an essential component of many electrochemical technologies, from (electro)catalysts to lithium-ion batteries.
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Thus, the results may open a new avenue for low-cost and safe energy storage systems based on electrochemical technologies and applications.
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