Technological Developments

Our mission is to revolutionize the food, pharmaceutical, and nutraceutical industries through innovative and sustainable technologies. Our commitment to research and development has led to significant advancements in several key areas: high surface area activated carbon production, high purity bioactive extracts, low temperature biomass liquefaction, and in-vitro digestion protocols. These innovations reflect our dedication to environmental stewardship and scientific excellence.

Production Capabilities

Food and Pharmaceutical Grade High Surface Area Activated Carbon
  • Technology: We utilize an advanced biomass liquefaction process to convert waste tea leaves into high surface area activated carbon. This process operates at lower temperatures, reducing energy consumption and maintaining the integrity of the raw materials.
  • Benefits:
    • Superior Adsorption : The resulting activated carbon has superior adsorption capacities, making it highly effective for water and air purification and in pharmaceutical formulations.
    • Sustainability : Utilizing waste tea leaves reduces environmental waste and promotes a circular economy.
  • Scientific Backing: Research shows that activated carbon produced from agricultural waste exhibits comparable or superior properties to traditional sources.

High Purity Bioactive Extracts
  • Technology: Our extraction process employs efficient and optimized aqueous extraction methods to obtain high purity extracts such as catechins and anthocyanins, minimizing the carbon footprint. cosmetics
  • Benefits:
    • High Purity and Potency : These bioactive compounds are essential for dietary supplements, pharmaceuticals, and cosmetic formulations due to their potent antioxidant properties.
    • Preservation of Bioactivity: Our methods ensure that the bioactivity of these compounds is preserved, enhancing their effectiveness.
  • Scientific Backing: Studies have demonstrated that high purity extracts like catechins and anthocyanins play crucial roles in reducing oxidative stress and promoting health.

Low Temperature Biomass Liquefaction
  • Technology: Our low temperature biomass liquefaction process efficiently converts organic waste, such as tea leaves, into valuable products without compromising their integrity.
  • Benefits:
    • Energy Efficiency: This process operates at lower temperatures, significantly reducing energy consumption.
    • High Yield : It maximizes the yield of high-quality activated carbon and other bio-products.
  • Environmental Impact:This process minimizes waste and reduces the overall environmental footprint of production.
  • Scientific Backing: Research indicates that low temperature processes can enhance the quality and yield of bio-products while reducing energy use.

In-Vitro Digestion Protocols
  • Technology: We have developed advanced in-vitro digestion protocols that simulate the human digestive system, allowing us to study the nutrient bioavailability and efficacy of our nutraceutical and pharmaceutical products.
  • Benefits:
    • Accurate Simulations: These protocols provide accurate simulations of human digestion, offering valuable insights into how our products behave within the digestive system.
    • Product Development: The data obtained supports product development and validation, ensuring our products deliver the intended health benefits.
  • Scientific Backing:In-vitro digestion models are widely recognized for their ability to predict the bioavailability of nutrients and bioactive compounds.

Organ-on-Chip Devices for Bioavailability Testing
  • Technology: Our ongoing research focuses on integrating in-vitro digestion protocols onto micro-channeled chips to create organ-on-chip devices.
  • Benefits:
    • Quick and Precise Testing: These devices allow for rapid and accurate determination of bioavailability, facilitating faster and more precise drug testing and personalized medicine approaches.
    • Potential for Personalized Medicine: The technology holds promise for developing personalized medicine applications by simulating human organ functions on a micro scale.
  • Scientific Backing: Organ-on-chip technology is emerging as a powerful tool for studying human physiology and disease in a controlled environment.

We are committed to pushing the boundaries of innovation and sustainability. Our advanced technologies in producing high surface area activated carbon, high purity bioactive extracts, low temperature biomass liquefaction, and in-vitro digestion protocols exemplify our dedication to excellence and environmental responsibility. These technologies enable us to deliver high-quality products that meet the stringent demands of the food, pharmaceutical, and nutraceutical industries while ensuring a positive impact on the environment.