# Integrated framework for designing durable green corrosion inhibitors from Spirulina: Cultivation, extraction, and electrochemical evaluation

**Authors:** Ana Fonseca, Lizeth Gutierrez Pua, Alejandra M. Miranda, Fabian Hernandez-Tenorio, Alex A. Sáez, Yaneth Pineda Triana

PMC · DOI: 10.1016/j.isci.2026.115220 · 2026-03-04

## TL;DR

This study shows how to create eco-friendly corrosion inhibitors from Spirulina, with high efficiency and durability over time.

## Contribution

A reproducible framework for producing and evaluating green corrosion inhibitors from Spirulina biomass is introduced.

## Key findings

- Dry-biomass ultrasound-assisted extract achieved 90-92% inhibition efficiency.
- Corrosion rate was reduced to ∼1.41 mm/year at 1,000 ppm concentration.
- Inhibition efficiency remained at ∼77% after 72 hours of immersion.

## Abstract

This study presents a comprehensive framework for designing eco-friendly corrosion inhibitors from Spirulina platensis. Biomass production was optimized for yield and quality, followed by selective extraction using ultrasound-assisted and orbital-shaking methods applied to wet and dry biomass. Extracts were chemically characterized and tested via potentiodynamic polarization and electrochemical impedance spectroscopy. The dry-biomass ultrasound-assisted extract (D1) showed the highest inhibition efficiency (90%–92%) and achieved a corrosion rate of ∼1.41 mm year−1 at 1,000 ppm, maintaining ∼77% efficiency over 72 h. Statistical analysis confirmed that the presence of Spirulina extracts significantly improved corrosion resistance, with extract type, concentration, and immersion time identified as key variables. This work validates the potential of microalgal formulations as effective green inhibitors and offers a reproducible methodology for the long-term evaluation of bio-based corrosion protection strategies relevant to sustainable materials engineering.

•Optimized Spirulina cultivation yields balanced biochemical composition•Dry biomass + ultrasound extraction maximizes inhibitor efficiency•D1 achieved 92% inhibition and CR = 1.41 mm/year at 1,000 ppm•Time-dependent EIS confirmed durable protection (90%–77% over 72 h)

Optimized Spirulina cultivation yields balanced biochemical composition

Dry biomass + ultrasound extraction maximizes inhibitor efficiency

D1 achieved 92% inhibition and CR = 1.41 mm/year at 1,000 ppm

Time-dependent EIS confirmed durable protection (90%–77% over 72 h)

Electrochemistry; Corrosion; Biomass

## Full-text entities

- **Species:** Limnospira platensis (species) [taxon 118562]

## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13018981/full.md

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Source: https://tomesphere.com/paper/PMC13018981