© Alphaion. All rights reserved.
Marine electrochemical sensing with SPEs enables real-time, low-cost monitoring of ocean gases, pH, toxins, microbial activity, biofouling, and climate-related changes.
Screen-Printed Electrodes (SPEs) are compact, low-cost, and disposable or reusable tools designed for real-time, field-deployable electrochemical sensing in diverse and remote marine environments.
Marine environments are characterized by harsh, remote, and dynamic conditions, requiring robust, adaptable sensing technologies for accurate, real-time monitoring in unpredictable and challenging ocean settings.
SPE-based systems offer real-time, in-situ, and cost-effective monitoring solutions, enabling continuous marine data collection that is crucial for understanding ocean health, tracking environmental changes, and supporting informed marine conservation and management.
SPEs enable sequential marine monitoring through in-situ sampling, detection of dissolved gases, pH, and carbonate levels, biofouling assessment, and real-time sensing of toxins and HABs, supporting rapid, field-deployable ocean health diagnostics.
Strategic deployment of compact, field-deployable Screen-Printed Electrodes designed specifically for marine environments. These low-cost, disposable or reusable sensors enable real-time electrochemical sensing in diverse and remote marine locations with exceptional durability and reliability.
SPEs enable sequential marine monitoring through in-situ sampling, detection of dissolved gases, pH, and carbonate levels. Advanced electrochemical sensors provide comprehensive real-time analysis of ocean chemistry parameters critical for marine ecosystem health assessment.
Modified SPEs detect electroactive biofilms and microbial communities for biofouling analysis, while biosensor-based SPEs enable real-time monitoring of marine toxins and HABs, supporting ecological research and environmental protection through advanced microbial activity assessment.
Detection of Marine Toxins like domoic acid and saxitoxin. Monitors Harmful Algal Blooms (HABs) that threaten marine life and human health. Advanced biosensor capabilities provide critical early warning systems for coastal communities and marine ecosystem protection.
Real-time ocean monitoring using IoT, telemetry, and autonomous platforms like buoys and gliders enables broad, continuous, and data-rich marine observation. Integration with satellite communication systems provides comprehensive ocean health monitoring capabilities for global marine research.
Measures turbidity, total organic content, and redox potential to evaluate sediment interactions and degradation. Comprehensive water quality assessment supports marine environmental protection, restoration efforts, and understanding of ocean-sediment interface dynamics.
Low-cost, disposable or reusable SPE sensors reduce operational expenses while maintaining high accuracy for comprehensive marine analysis and long-term monitoring programs.
Compact, robust design enables deployment in diverse and remote marine environments with exceptional durability and adaptability for challenging ocean conditions.
Continuous, in-situ data collection provides immediate insights into ocean health changes, enabling rapid response for marine conservation and environmental protection.
© Alphaion. All rights reserved.