Relevant bibliographies by topics / Electro-chemical nitratre reduction

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Academic literature on the topic 'Electro-chemical nitratre reduction'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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Journal articles on the topic "Electro-chemical nitratre reduction"

1

Mohammed, Balqees, and Hanaa Jawad. "Preparation and Characterization of Silver Nanoparticles by Chemical Method for Modification with Polyvinyl Chloride Electro Spun Nanofibers." Iraqi Journal of Industrial Research 10, no. 1 (2023): 48–61. http://dx.doi.org/10.53523/ijoirvol10i1id214.

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In this study, a chemical procedure was used to produce nano-silver particles (reduction method). At different molar concentrations, reactive substances including sodium citrate and silver nitrate were employed. A smaller average size is produced by mixing (sodium citrate: silver nitrate) at an optimal molar concentration of (1:20). To determine the Zeta Potential and (PDI) of the generated silver nanoparticles, the (DLS) Zetazaser instrument was employed. To examine the structural and component of produced silver nanoparticles, X-ray diffraction and EDX techniques are applied. The outcomes sh
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2

Torres-Santillán, Esther, Jorge Roberto Vargas-García, and Arturo Manzo-Robledo. "Synthesis and Electrochemical Characterization (HER-NER) of Platinum-Based Materials Supported in a Carbon Nano-Tube Matrix." Materials Science Forum 691 (June 2011): 99–104. http://dx.doi.org/10.4028/www.scientific.net/msf.691.99.

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Nano-particles of platinum were prepared using Metal Organic Chemical Vapor Deposition (MOCVD) technique and supported in a carbon nano-tube (CNT) matrix in order to obtain different atomic relationship: Pt (1%)/CNT, Pt (5%)/CNT and Pt (15%)/CNT. The as-prepared Pt/CNT was deposited on a glassy carbon (GC) electrode. Nitrate electro-reduction reaction (NER) was used as a probe to evaluate their catalytic activity. According to XRD analysis the particle size was determined as 15, 13 and 12 nm for Pt (15%)/CNT, Pt (5%)/CNT and Pt (1%)/CNT, respectively. Scanning Electron Microscopy (SEM) coupled
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3

Anna, Iarchuk, Dutta Abhijit, and Broekmann Peter. "Novel Ni Foam Catalysts for Sustainable Nitrate to Ammonia Electroreduction." July 7, 2022. https://doi.org/10.5281/zenodo.6659731.

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Electrochemical nitrate reduction () is considered a promising approach to remove environmentally harmful nitrate from wastewater while simultaneously producing ammonia, a product with high value. An important consideration is the choice of catalyst, which is required not only to accelerate  but also to direct the product selectivity of the electrolysis toward ammonia production. To this end, we demonstrate the fabrication of novel Ni foam catalysts produced through a dynamic hydrogen bubble template assisted electrodeposition process. The resulting foam morphology of the catalyst is demo
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4

Khan, Roohul Abad, Rachida El Morabet, Nadeem A. Khan, et al. "Removal of organic matter and nutrients from hospital wastewater by electro bioreactor coupled with tubesettler." Scientific Reports 12, no. 1 (2022). http://dx.doi.org/10.1038/s41598-022-12166-9.

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AbstractWastewater consisting of different pharmaceuticals and drug residues is quite challenging to treat and dispose of. This situation poses a significant impact on the health aspect of humans and other biotic organisms in the environment. The main concern of hospital wastewater (HWW) is the resistivity towards treatment using the different conventional methods. For the treatment of HWW, this study was performed using an electro bioreactor using hospital wastewater. The electro reduction overcomes the effect of toxic elements in hospital wastewater, and biodegradation removes organic matter
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5

An, Siying, Zhi-hao Zhao, Jun Bu, et al. "Multi‐Functional Formaldehyde‐Nitrate Batteries for Wastewater Refining, Electricity Generation, and Production of Ammonia and Formate." Angewandte Chemie International Edition, January 14, 2024. http://dx.doi.org/10.1002/anie.202318989.

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As bulky pollutants in industrial and agricultural wastewater, nitrate and formaldehyde pose serious threats to the human health and ecosystem. Current purification technologies including chemical and bio‐/photo‐/electro‐chemical methods, are generally high‐cost, time‐consuming, or energy‐intensive. Here, we report a novel formaldehyde‐nitrate battery by pairing anodic formaldehyde oxidation with cathodic nitrate reduction, which simultaneously enables wastewater purification, electricity generation, and the production of high‐value‐added ammonia and formate. As a result, the formaldehyde‐nitr
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6

An, Siying, Zhi-hao Zhao, Jun Bu, et al. "Multi‐Functional Formaldehyde‐Nitrate Batteries for Wastewater Refining, Electricity Generation, and Production of Ammonia and Formate." Angewandte Chemie, January 14, 2024. http://dx.doi.org/10.1002/ange.202318989.

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As bulky pollutants in industrial and agricultural wastewater, nitrate and formaldehyde pose serious threats to the human health and ecosystem. Current purification technologies including chemical and bio‐/photo‐/electro‐chemical methods, are generally high‐cost, time‐consuming, or energy‐intensive. Here, we report a novel formaldehyde‐nitrate battery by pairing anodic formaldehyde oxidation with cathodic nitrate reduction, which simultaneously enables wastewater purification, electricity generation, and the production of high‐value‐added ammonia and formate. As a result, the formaldehyde‐nitr
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7

Wang, Hao‐Yu, Jin‐Tao Ren, Ming‐Lei Sun, Wen‐Wen Tian, Yi Feng, and Zhong‐Yong Yuan. "Value‐Added Aqueous Metal‐Redox Bicatalyst Batteries." Advanced Energy Materials, November 27, 2023. http://dx.doi.org/10.1002/aenm.202302515.

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AbstractThe development and utilization of electrochemical energy conversion and storage devices can maximize intermittent renewable energy and balance environmental issues. Aqueous metal‐redox bicatalyst batteries, incorporating value‐added electro‐reduction reactions during discharge process at the cathode, are considered a particularly attractive alternative for simultaneous electricity generation and valuable chemical production. In this review, for the first time, a holistic and subtle description of value‐added metal‐redox bicatalyst batteries is made, focusing on recent efforts to optim
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8

Kamyar, Shameli, Bin Ahmad Mansor, Md Zin Wan Yunus Wan, Azowa Ibrahim Nor, Jokar Maryam, and Darroudi Majid. "Synthesis and Characterization of Silver/Polylactide Nanocomposites." April 20, 2010. https://doi.org/10.5281/zenodo.1078263.

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Silver/polylactide nanocomposites (Ag/PLA-NCs) were synthesized via chemical reduction method in diphase solvent. Silver nitrate and sodium borohydride were used as a silver precursor and reducing agent in the polylactide (PLA). The properties of Ag/PLA-NCs were studied as a function of the weight percentages of silver nanoparticles (8, 16 and 32 wt% of Ag-NPs) relative to the weight of PLA. The Ag/PLA-NCs were characterized by Xray diffraction (XRD), transmission electron microscopy (TEM), electro-optical microscopy (EOM), UV-visible spectroscopy (UV-vis) and Fourier transform infrared spectr
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