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Electrochemical determination of ammonia at low concentrations: detection of N2-electroreduction product in alkaline medium

Version 1.0

Rutkowska, Iwona, 2025, "Electrochemical determination of ammonia at low concentrations: detection of N2-electroreduction product in alkaline medium", https://doi.org/10.18150/Q7UQLN, RepOD, V1

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Description

The dataset concerns a catalytic system based on iron phosphide (Fe3P), and it demonstrates the effectiveness of a simple voltammetric approach determination of ammonia at submillimolar concentration in alkaline medium (0.5 mol dm-3 NaOH). The dataset in its collection induces systems’ characterization using electrochemical measurements (files. xlsx)  (cyclic voltammetry and chronocoulometry), SEM (files. tif.), TEM (files. tif.), XRD (file. xlsx) and spectrophotometric methods (files. xlsx). As a rule, nomenclature and scientific terms are consistent with those existing in publication.

Electroanalytical approach was based on the voltammetric oxidation of ammonia at the additional platinized working electrode (introduced to electrolytic cell during N2-reduction), and it permitted quantification of ammonia at low concentrations both in blank (argon-saturated) and real (following fixation of nitrogen-saturated) samples without opening the sealed electrochemical cell. Technical details were provided. It should be emphasized that the analyzed sample was not in contact with external environment to avoid uncontrolled contamination. The dataset covers results of diagnostic experiments with different modified (catalytic) electrodes (with Pt and Rh nanoparticles) to address possibility of the formation of hydrazine or hydroxylamine as side NH3-electroreduction products.

The reference approach was also included to identify NH3 as a product of N2-reduction at the electrode modified with Fe3P. It was based on the spectrophotometric (VIS) indophenol-blue-method. Monitoring of absorbance at 650 nm had analytical (diagnostic) meaning.


Subject
Chemistry
Keyword

electrochemical analysis, ammonia determination, alkaline medium, nitrogen electroreduction, iron phosphide, electroanalytical control experiments, ceria, platinum and rhodium nanoparticles

Related Publication

Rytelewska B., Chmielnicka A., Chouki T., Emin S., Rutkowska I.A., Kulesza P.J., Electrochemical determination of ammonia at low concentrations: detection of N2-electroreduction product in alkaline medium, Talanta 295 (2025) 128272. https://doi.org/10.1016/j.talanta.2025.128272 https://doi.org/10.1016/j.talanta.2025.128272 doi: 10.1016/j.talanta.2025.128272

CC BY - Creative Commons Attribution 4.0 CC BY - Creative Commons Attribution 4.0

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Readme.txt
Plain Text - 2.5 KB - Jun 26, 2025 - 0 Downloads
MD5: a13b7417030cb3efc452988b40a78fe1
License: CC BY - Creative Commons Attribution 4.0
The text file contains sorted file names linked to the figures from the article.
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Fig1A.tab
Tabular Data - Original format: MS Excel (XLSX) - 48.5 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
3 Variables, 2200 Observations - UNF:6:bVAss4DSvYi8ZxXauQDIYA==
Voltammetric monitoring of the oxidation of 5 mmol dm-3 NH3 recorded at CeO2-supported Pt nanoparticles in 0.5 mol dm-3 NaOH electrolyte at 10 mV s-1.
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Fig1C.tab
Tabular Data - Original format: MS Excel (XLSX) - 48.3 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
3 Variables, 2200 Observations - UNF:6:H0x3mZ4PGSLQZ2vxU0DQnw==
Voltammetric monitoring of the oxidation of 5 mmol dm-3 NH2OH recorded at CeO2-supported Pt nanoparticles in 0.5 mol dm-3 NaOH electrolyte at 10 mV s-1.
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Fig1B.tab
Tabular Data - Original format: MS Excel (XLSX) - 48.2 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
3 Variables, 2200 Observations - UNF:6:hneCy5V8uThgdJ8exfTH9w==
Voltammetric monitoring of the oxidation of 3.5 mmol dm-3 N2H4 recorded at CeO2-supported Pt nanoparticles in 0.5 mol dm-3 NaOH electrolyte at 10 mV s-1.
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Fig2A.tab
Tabular Data - Original format: MS Excel (XLSX) - 48.6 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
3 Variables, 2200 Observations - UNF:6:SnVbvpiyZaDJpocBhb8oWg==
Voltammetric monitoring of the oxidation of 5 mmol dm-3 NH3 recorded at CeO2-supported Rh nanoparticles in 0.5 mol dm-3 NaOH electrolyte at 10 mV s-1.
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Fig2B.tab
Tabular Data - Original format: MS Excel (XLSX) - 48.0 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
3 Variables, 2200 Observations - UNF:6:qDJ0FGtMSANmuekoR+bEwg==
Voltammetric monitoring of the oxidation of 3.5 mmol dm-3 N2H4 recorded at CeO2-supported Rh nanoparticles in 0.5 mol dm-3 NaOH electrolyte at 10 mV s-1.
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Fig2C.tab
Tabular Data - Original format: MS Excel (XLSX) - 48.1 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
3 Variables, 2200 Observations - UNF:6:v18L08U6q19CVAqDC+Mhqg==
Voltammetric monitoring of the oxidation of 5 mmol dm-3 NH2OH recorded at CeO2-supported Rh nanoparticles in 0.5 mol dm-3 NaOH electrolyte at 10 mV s-1.
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Fig3A.tab
Tabular Data - Original format: MS Excel (XLSX) - 115.2 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
7 Variables, 2100 Observations - UNF:6:aROb51RR9flTFJFlaRdm3w==
Cyclic voltammetric responses recorded for standard NH3-solutions in the concentration range from 0.04 to 0.20 mmol dm-3. Solid line stands for the response in the argon saturated (NH3-free) solution. Electrolyte, 0.5 mol dm-3 NaOH. Scan rate, 10 mV s-1.
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Fig3B.tab
Tabular Data - Original format: MS Excel (XLSX) - 17.2 KB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
7 Variables, 331 Observations - UNF:6:KM8ZjPeuFrmIgshJmRy9rA==
Graphe illustrating enlarged responses for the following concentrations: (a) 0.00, (b) 0.04, (c) 0.08, (d) 0.12, (e) 0.16 and (f) 0.20 mmol dm-3 NH3.
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Fig4.tab
Tabular Data - Original format: MS Excel (XLSX) - 1.7 MB - Jun 26, 2025 - 1 Download
License: CC BY - Creative Commons Attribution 4.0
3 Variables, 71953 Observations - UNF:6:PbM+nyO/UC9H8hOIMjZ2jA==
Dependence of charge passed during the electrolysis on time (a) in argon-saturated solution, and (b) in nitrogen-saturated solution.
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