# Towards Safer Water: A Low‐Cost Disposable Electrochemical Sensor for Bisphenol A Using La2Sn2O7 Nanostructures

**Authors:** Ragu Sasikumar, Balasubramanian Akila, Shen‐Ming Chen, Jongwon Kim, Byungki Kim

PMC · DOI: 10.1002/gch2.202500579 · 2026-01-14

## TL;DR

A low-cost sensor using lanthanum stannate detects bisphenol A in water with high sensitivity and accuracy, helping protect public health and the environment.

## Contribution

A novel electrochemical sensor using La2Sn2O7 nanostructures is developed for ultra-sensitive BPA detection in real water samples.

## Key findings

- The sensor achieved an ultra-low detection limit of 1.4 nM for BPA.
- It showed excellent performance in diverse real-water samples like lake and bottled water.
- The material's unique properties enabled fast electron transfer and reliable BPA quantification.

## Abstract

Bisphenol A (BPA), a widely used industrial chemical, persists in aquatic environments and poses serious endocrine‐disrupting risks to ecosystems and human health. This study presents a highly sensitive, selective electrochemical sensor using lanthanum stannate (La2Sn2O7), a rare‐earth stannate, engineered for efficient BPA detection in real water matrices. The La2Sn2O7 nanostructure was synthesized and employed as an electrocatalytic modifier, offering unique physicochemical properties that facilitate accelerated electron transfer kinetics and abundant electroactive surface sites. Systematic electrochemical characterizations confirmed the material's superior catalytic performance, attributable to its synergistic structural and electronic attributes. Under optimized pH and operating conditions, the La2Sn2O7‐modified electrode demonstrated exceptional analytical capability, exhibiting an ultra‐low detection limit of 1.4 nM and a broad linear dynamic range spanning 0.001‒425.8 µm. These findings indicate remarkable sensitivity and reliability in quantifying trace BPA levels. Moreover, the sensor demonstrated excellent analytical recovery and reproducibility in diverse real‐water samples, including lake, river, tap, and plastic‐bottled water, underscoring its robustness and practical applicability in complex environmental matrices. La2Sn2O7 shows strong promise as an electrocatalyst, enabling real‐time BPA detection for enhanced environmental monitoring and public health protection in the field.

A highly sensitive electrochemical sensor featuring lanthanum stannate nanomaterial is introduced for the rapid detection of bisphenol A (BPA) in water. The sensor delivers fast response, excellent selectivity, and ultra‐low detection limits, enabling reliable monitoring of BPA in real environmental samples. This technology offers a promising tool for safeguarding water quality and public health.

## Linked entities

- **Chemicals:** Bisphenol A (PubChem CID 6623), BPA (PubChem CID 6623)

## Full-text entities

- **Diseases:** endocrine-disrupting (MESH:D004700)
- **Chemicals:** Water (MESH:D014867), BPA (MESH:C006780), La2Sn2O7 (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12805055/full.md

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Source: https://tomesphere.com/paper/PMC12805055