Determination of zinc sulfate
Applications | 2020 | MetrohmInstrumentation
Determining the purity of zinc sulfate is essential due to its widespread use in nutrition, medicine and industry.
Zinc is a vital micronutrient with roles in enzymatic processes, immune support and tissue repair.
Accurate quantification of zinc sulfate content ensures product safety, regulatory compliance and consistent performance in applications such as dietary supplements, electroplating and pigment manufacturing.
This application note aims to demonstrate a photometric titration method compliant with European Pharmacopoeia (Ph. Eur.) and United States Pharmacopeia (USP) standards.
The study outlines a procedure for quantifying zinc sulfate heptahydrate content using an Optrode optical sensor at 610 nm and a complexometric EDTA titration with Eriochrome Black T indicator.
Sample Preparation
An accurately weighed portion of zinc sulfate heptahydrate is dissolved in deionized water without further pretreatment.
Reagents and Titration
An ammonia buffer at pH 10 is added along with Eriochrome Black T.
The solution is titrated with standardized EDTA, and the endpoint is detected photometrically.
Instrumentation
The method yielded a zinc sulfate content of 57.61 % with a relative standard deviation of 0.03 % (n=6), demonstrating high precision and reproducibility.
The titration curve shows a distinct color shift at the inflection point, facilitating clear endpoint determination.
Photometric detection reduces subjectivity compared to visual titration and enhances traceability in regulated environments.
Integration of chemometric tools to further improve endpoint detection.
Miniaturized flow-based systems for high-throughput screening of zinc sulfate in complex matrices.
Expansion of optical sensor technology for multiwavelength assays to monitor additional metal ions simultaneously.
Photometric titration with an Optrode sensor provides a precise, reproducible and regulation-compliant approach for zinc sulfate purity assessment.
The automated methodology meets Ph. Eur. and USP requirements while streamlining documentation and reducing operator bias.
European Pharmacopoeia and United States Pharmacopeia monographs on zinc sulfate and complexometric titration.
Titration
IndustriesPharma & Biopharma
ManufacturerMetrohm
Summary
Importance of the Topic
Determining the purity of zinc sulfate is essential due to its widespread use in nutrition, medicine and industry.
Zinc is a vital micronutrient with roles in enzymatic processes, immune support and tissue repair.
Accurate quantification of zinc sulfate content ensures product safety, regulatory compliance and consistent performance in applications such as dietary supplements, electroplating and pigment manufacturing.
Objectives and Study Overview
This application note aims to demonstrate a photometric titration method compliant with European Pharmacopoeia (Ph. Eur.) and United States Pharmacopeia (USP) standards.
The study outlines a procedure for quantifying zinc sulfate heptahydrate content using an Optrode optical sensor at 610 nm and a complexometric EDTA titration with Eriochrome Black T indicator.
Methodology and Instrumentation
Sample Preparation
An accurately weighed portion of zinc sulfate heptahydrate is dissolved in deionized water without further pretreatment.
Reagents and Titration
An ammonia buffer at pH 10 is added along with Eriochrome Black T.
The solution is titrated with standardized EDTA, and the endpoint is detected photometrically.
Instrumentation
- 907 Titrando autotitrator with OMNIS or tiamo software for automated dosing and data acquisition
- 804 Ti Stand with 802 Rod Stirrer for consistent mixing
- Optrode optical sensor, wavelength selectable at 610 nm for objective endpoint detection
Main Results and Discussion
The method yielded a zinc sulfate content of 57.61 % with a relative standard deviation of 0.03 % (n=6), demonstrating high precision and reproducibility.
The titration curve shows a distinct color shift at the inflection point, facilitating clear endpoint determination.
Photometric detection reduces subjectivity compared to visual titration and enhances traceability in regulated environments.
Benefits and Practical Applications of the Method
- Fully automated workflow with electronic documentation for GMP/GLP and 21 CFR Part 11 compliance
- Rapid and robust assay requiring minimal sample preparation
- Objective photometric endpoint increases repeatability and reduces operator variability
- Applicable in pharmaceutical QC, feed analysis and industrial quality control labs
Future Trends and Applications
Integration of chemometric tools to further improve endpoint detection.
Miniaturized flow-based systems for high-throughput screening of zinc sulfate in complex matrices.
Expansion of optical sensor technology for multiwavelength assays to monitor additional metal ions simultaneously.
Conclusion
Photometric titration with an Optrode sensor provides a precise, reproducible and regulation-compliant approach for zinc sulfate purity assessment.
The automated methodology meets Ph. Eur. and USP requirements while streamlining documentation and reducing operator bias.
Reference
European Pharmacopoeia and United States Pharmacopeia monographs on zinc sulfate and complexometric titration.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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