Advanced Solutions
for Diverse Water
Contaminants
At Coral Innovations, we pioneer sustainable, cutting-edge technologies to address urgent environmental challenges. Our products combine breakthrough nanotechnology with scalable applications for impactful water remediation and environmental protection.
At Coral Innovations, we pioneer sustainable, cutting-edge technologies to address urgent environmental challenges. Our products combine breakthrough nanotechnology with scalable applications for impactful water remediation and environmental protection.
MICROSCOPIC EXCELLENCE
At the heart of Coral Innovations lies our novel multifunctional nanocomposite material. Developed with precision and sustainability in mind, this advanced material features:
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Carbonaceous Matrix, providing structural integrity and hydrophobic properties to enhance pollutant interactions.
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Metal Oxide Nanostructures, embedded within the matrix, delivering selective pollutant capture and filtration efficiency.
Key Capabilities
Coral Innovations' Nano-Technology precisely targets pollutants while maintaining the balance of other essential water constituents.
The chart illustrates the removal of phosphates to non-detectable levels, ensuring effective treatment without disrupting the water's overall composition.
With products like OleoSorb and NanoMedia, our technology offers solutions that can be reused for multiple cycles without compromising performance. This not only reduces waste but also extends product life, making water remediation more sustainable and cost-effective.
Coral Innovations' Nano-Technology is designed to adapt to various industries and operational scales, from small-scale agricultural runoff management to large-scale industrial and marine cleanup efforts. Its customizable solutions ensure effectiveness regardless of the complexity or size of the application.
Our technology reduces operational costs by offering reusable solutions like OleoSorb, which can be used for multiple cycles, minimizing the need for frequent replacements. Additionally, the ability to recover pollutants, such as oil or nutrients, turns waste into valuable resources, providing long-term economic advantages for industries while maintaining environmental compliance.
How Our Nano-Technology Outperforms
Microscopic Innovation at Work
Nano Technology
Explore the advanced nanostructures that power our technology, redefining water remediation for surface and emulsified impurities.
Our Technology Outperforms the Rest
Criteria | Coral Innovations' Nano-Technology | Chemical Methods | Physical Methods | Biological Methods | Photolytic Methods | Burning |
|---|---|---|---|---|---|---|
Efficient | ✅ | ⛔ | ✅ | ✅ | ⛔ | ⛔ |
Recoverable | ✅ | ⛔ | ⛔ | ⛔ | ⛔ | ⛔ |
Scalable | ✅ | ✅ | ✅ | ✅ | ✅ | ✅ |
Low Cost | ✅ | ⛔ | ✅ | ✅ | ⛔ | ⛔ |
Environmental Friendly | ✅ | ⛔ | ✅ | ✅ | ✅ | ⛔ |
Reusable | ✅ | ⛔ | ⛔ | ⛔ | ✅ | ⛔ |
Oil Recovery | ✅ | ⛔ | ⛔ | ⛔ | ⛔ | ⛔ |
Applications Across Industries
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Versatile Design: Adaptable coatings fit a range of substrates for varied environmental settings
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Scalable Solutions: Ideal for applications ranging from localized cleanups to large-scale industrial needs
Innovative Features
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Sustainable Impact: Reusable materials and pollutant recovery mechanisms support long-term eco-efficiency
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Eco-Friendly Processes: Minimizing chemical use and maximizing environmental safety
Oil & Hydrocarbons
For efficient cleanup of spills and leaks in marine and industrial environments.
SEM image showcasing the porous structure of the sponge, designed to trap and recover oil molecules during spills and leaks.
Excess Nutrients
Managing nutrient overloads such as nitrogen and phosphorus to combat algal blooms.
Uncoated substrate image highlighting the baseline material prior to applying Coral Innovations' advanced nanocomposite coating, underscoring the importance of the coating in effectively targeting excess nutrients like nitrogen and phosphorus.
Organic Contaminants
Removing pollutants from industrial and agricultural wastewater.
Image of the coated substrate demonstrating the advanced nanocomposite layer that targets organic pollutants in industrial and agricultural wastewater.
Toxic Metals
Sequestering heavy metals like lead and arsenic to ensure water safety.
TEM image illustrating the nanocomposite's intricate structure, enabling precise binding and removal of heavy metals like lead and mercury.
BREAKTHROUGH
APPLICATION
The nanocomposite material can be seamlessly applied as a coating on commercially available sponges, such as polyurethane and cellulose. This flexibility allows the technology to target pollutants in diverse environments.
