# Selenium Detection Technology in Water: A Review

**Authors:** Dan Wu, Weifang Bao, Fumin Xiong, Xingqian Ye

PMC · DOI: 10.3390/molecules31040673 · Molecules · 2026-02-15

## TL;DR

This review discusses the importance of detecting selenium in water due to its potential health risks and summarizes various detection technologies.

## Contribution

The paper reviews and compares selenium detection methods to guide the development of effective monitoring strategies.

## Key findings

- Selenium detection is crucial due to its narrow beneficial-to-toxic concentration range and health risks.
- Multiple analytical methods for selenium detection have distinct features and applicability.
- A combined approach using laboratory and on-site methods is recommended for effective selenium monitoring.

## Abstract

Selenium (Se) is a trace element that is essential for the human body and has dual significant biological effects. The boundary between its ‘beneficial dosage’ and ‘toxic level’ is extremely narrow. Se is prone to accumulate in the body. Even if the concentration in drinking water is very low but consistently exceeds the limit, it may cause long-term health problems and pose risks and hazards to humans. Therefore, the detection of selenium is of great importance. The distribution and pollution of Se in water, the impact of Se on health and the limit requirements for Se in drinking water are introduced. The development of Se detection techniques is presented, including atomic spectrometry, spectrofluorometry, ultraviolet-visible spectrophotometry, inductively coupled plasma mass spectrometry, voltammetry, among others. Different analytical methods for selenium have their own characteristics and different applicability. It is necessary to establish a safety monitoring mechanism that primarily relies on laboratory-based instrumental analysis, supplemented by on-site rapid screening methods, to provide effective technical support for environmental Se analysis.

## Linked entities

- **Chemicals:** Selenium (PubChem CID 6326970)

## Full-text entities

- **Diseases:** Kashin-Beck disease (MESH:D057767), Keshan disease (MESH:C536166), toxicity (MESH:D064420), Selenium deficiency (MESH:D007153), poisoning (MESH:D011041), cancer (MESH:D009369), Alzheimer's disease (MESH:D000544), injury to (MESH:D014947)
- **Chemicals:** undecanoic acid (MESH:C016173), selenocysteine (MESH:D017279), heavy metal (MESH:D019216), glucose (MESH:D005947), organoselenium compounds (MESH:D016566), polyvinylidene fluoride (MESH:C024865), arsenic (MESH:D001151), 3,3'-diaminobenzidine (MESH:D015100), selenium hydride (MESH:C026372), I- (MESH:D007455), uranium (MESH:D014501), selenate (MESH:D064586), 1-butyl-3-methylimidazolium hexafluorophosphate (MESH:C412621), oil (MESH:D009821), Se (MESH:D012643), o-phenylenediamine (MESH:C034193), starch (MESH:D013213), Nafion (MESH:C040402), chromium (MESH:D002857), toluene (MESH:D014050), Selenomethionine (MESH:D012645), mercury (MESH:D008628), 5-nitropiazselenol (MESH:C547173), selenite (MESH:D020887), graphene (MESH:D006108), HG-AFS (-), glycine (MESH:D005998), 2,3-diaminonaphthalene (MESH:C026373), cyclohexane (MESH:C506365), Sn (MESH:D014001), ammonium pyrrolidine dithiocarbamate (MESH:C020972), copper (MESH:D003300), HCl (MESH:D006851), methylselenocysteine (MESH:C002979), methylene blue (MESH:D008751), MnO2 (MESH:C016552), Pd (MESH:D010165), Water (MESH:D014867), carbon (MESH:D002244), vitamin E (MESH:D014810), Triton X-114 (MESH:C010615), 3,3',5,5'-tetramethylbenzidine (MESH:C021758), sulfate (MESH:D013431), tetrabutylammonium hydroxide (MESH:C009405), formic acid (MESH:C030544), gold (MESH:D006046)
- **Species:** Allium cepa (onion, species) [taxon 4679], Brassica oleracea var. italica (asparagus broccoli, varietas) [taxon 36774], Homo sapiens (human, species) [taxon 9606], Allium sativum (garlic, species) [taxon 4682]

## Full text

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## Figures

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## References

70 references — full list in the complete paper: https://tomesphere.com/paper/PMC12943017/full.md

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Source: https://tomesphere.com/paper/PMC12943017