# Design and Feasibility Evaluation of a Prototype Setup for Contemporary Easy Nitrates and Nitrites UV Detection in Water for Agriculture

**Authors:** Valerio Scimone, Sebastiano Albergo, Giuseppe D’Arrigo, Ivana Di Bari, Cristiana Longo, Domenico Longo, Antonella Sciuto, Alessia Tricomi

PMC · DOI: 10.3390/s26051668 · Sensors (Basel, Switzerland) · 2026-03-06

## TL;DR

This paper introduces a prototype device for quickly and easily detecting nitrates and nitrites in water used for agriculture and other purposes.

## Contribution

A new prototype setup for real-time, chemical-free detection of nitrates and nitrites in water is proposed and tested.

## Key findings

- The device achieved detection limits of 2.2 mg/L for nitrates and 0.5 mg/L for nitrites.
- Common substances in water did not significantly interfere with the detection process.
- The setup uses UV absorption at 302 nm and 355 nm for simultaneous detection of nitrates and nitrites.

## Abstract

Nitrates and nitrites are inorganic anions which, beyond specific concentration threshold, are classified as water pollutants. Nitrate compounds are commonly used as fertilizers; however, their high concentration in soil and in wastewater, as well as their reduction to nitrites, pose serious environmental and human health risks. Therefore, detecting these ions in water intended for human consumption, zootechnical use, and agricultural applications is essential. This work presents a proof of concept for a spectroscopic prototype setup enabling simple, direct, and simultaneous detection of nitrates and nitrites in water. The device employs solid-state sensor technology and requires no sample pretreatment or chemicals. Ultimately, this apparatus will allow real-time, in-line process analysis. UV absorption bands centered at approximately 302 nm and 355 nm were selected for detecting nitrates and nitrites, respectively. Because nitrite exhibits a slight absorption at 302 nm as well, a straightforward method for simultaneous nitrate and nitrite detection is proposed. The proposed system incorporates a UV deuterium lamp, a 10 cm path length optical cuvette, and a custom home-built silicon carbide detector. This configuration enables testing various concentrations, achieving detection limits of 2.2 mg/L for nitrates and 0.5 mg/L for nitrites. Potential interferences from substances commonly found in drinking and treated agricultural wastewaters, including sodium bicarbonate, sodium sulfate, ammonium chloride, hydrogen peroxide, and sodium hypochlorite, were also investigated. Finally, a compact on-site and online monitoring future device is illustrated.

## Linked entities

- **Chemicals:** nitrates (PubChem CID 943), nitrites (PubChem CID 946), sodium bicarbonate (PubChem CID 516892), sodium sulfate (PubChem CID 24436), ammonium chloride (PubChem CID 25517), hydrogen peroxide (PubChem CID 784), sodium hypochlorite (PubChem CID 23665760)

## Full-text entities

- **Chemicals:** Water (MESH:D014867), ammonium chloride (MESH:D000643), silicon carbide (MESH:C022088), sodium bicarbonate (MESH:D017693), hydrogen peroxide (MESH:D006861), deuterium (MESH:D003903), Nitrites (MESH:D009573), sodium sulfate (MESH:C012036), sodium hypochlorite (MESH:D012973), Nitrates (MESH:D009566), Nitrate compounds (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12987372/full.md

## References

64 references — full list in the complete paper: https://tomesphere.com/paper/PMC12987372/full.md

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Source: https://tomesphere.com/paper/PMC12987372