Photo by Mikhail Konetski: https://www.pexels.com

SUSTAINABLE PRACTICES

Super Tongue to Save the Earth

Super Tongue demonstrates exceptional efficiency in promoting environmental safety by rapidly identifying harmful chemicals that contribute to soil, air, and water pollution. This advanced technology extends its applicability across various aspects of environmental control, ensuring sustainable practices.

 

Air Quality Monitoring

Super Tongue is a critical tool for timely detection of toxic airborne pollutants such as ozone, carbon monoxide, nitrogen dioxide, and formaldehyde. These hazardous agents pose significant threats to respiratory, cardiovascular, and nervous systems, leading to conditions like asthma, asphyxiation, and various cancers. Leveraging Super Tongue’s adeptness in early detection helps prevent adverse environmental impacts, including smog formation, making it an innovative solution for real-time monitoring in urban centers.

WATER QUALITY MONITORING

What Do You Need to Know

In the domain of water quality assessment, Super Tongue excels at detecting nitrogen and phosphorus compounds, which are crucial determinants of biomass production in aquatic ecosystems and impact ecological balance. This instrument enables the simultaneous determination of ammonium, nitrite, and nitrate, providing deep insights into the chemical dynamics of ecosystems.

 

Super Tongue is proficient in detecting nanomolar concentrations of organophosphorus insecticides and quantifying triclosan—an antimicrobial agent commonly found in water bodies. It also identifies diverse intermediate products from chemical industries, drugs, and pesticides at ultralow concentrations. Additionally, Super Tongue is effective in detecting microcystin toxins released by cyanobacteria and can simultaneously determine heavy metal ions in water samples.

 

Wastewater Quality Evaluation

In assessing wastewater quality, Super Tongue is instrumental in evaluating samples at various purification stages within wastewater treatment plants. It discriminates samples based on pollutant content and predicts common organic pollutant indexes. Furthermore, it identifies concentrations of ammonia, nitrates, total soluble phosphates, chemical oxygen demand, and conductivity in wastewater.