Transforming Discoveries
State-of-the-Art Facilities
Our cutting-edge facilities provide the perfect environment for conducting research and developing new medical treatments. Equipped with the latest technology and equipment, we're able to achieve new levels of accuracy and precision.
Experienced Researchers
Our team of researchers has decades of experience in the medical field. With backgrounds in a wide range of specialties, we're able to approach research from a variety of perspectives and develop innovative solutions to complex problems.
Patient-Focused Research
At ANSTO India, we're committed to putting patients first. Our research is designed to improve patient outcomes and provide better treatment options for a wide range of medical conditions.
Collaborative Partnerships
We believe that the best results come from working together. That's why we collaborate with other research institutions, medical centers, and pharmaceutical companies to achieve our goals.
Innovative Solutions
We're always looking for new and innovative ways to approach medical research. Our team is constantly exploring new technologies, techniques, and approaches to achieve our goals.
Industry Recognition
Our groundbreaking research has earned us recognition as leaders in the medical research and development industry. We're proud to have been recognized with numerous awards and accolades.
Liquid Tree
Cutting-Edge Technology
Our state-of-the-art technology allows us to conduct medical research with unparalleled precision and accuracy, leading to breakthrough discoveries and treatments.
Expert Research Team
Our team of experienced and highly trained researchers are dedicated to advancing the field of medicine and improving patient outcomes through innovative research.
Collaborative Approach
We work closely with medical professionals, patients, and other organizations to ensure that our research is relevant, impactful, and aligned with the needs of the healthcare community.
Patient-Centered Research
All of our research is focused on improving patient outcomes and quality of life. We prioritize the needs and perspectives of patients in all aspects of our work.
Innovative Research Areas
We are at the forefront of cutting-edge research in a variety of areas, including cancer, infectious diseases, neurology, and more.
Partnerships and Collaborations
We are proud to partner with leading organizations in the medical research and development industry to advance the field and bring new treatments and technologies to patients around the world.
Liquid tree
A "liquid tree" is a bioreactor, specifically a photobioreactor, designed to mimic the air-purifying function of a tree, particularly in urban environments where planting trees is difficult. These devices utilize microalgae to absorb carbon dioxide and release oxygen through photosynthesis, much like a natural tree.
Here's a more detailed explanation:
Function:
Liquid trees, like the "Liquid3" model, are essentially tanks of water containing microalgae. They are designed to be placed in urban areas where traditional trees might not be suitable.
Photosynthesis:
The microalgae inside the bioreactor perform photosynthesis, using carbon dioxide and sunlight to produce oxygen and biomass.
Efficiency:
These systems can be significantly more efficient than trees at absorbing carbon dioxide and producing oxygen. Some studies suggest they are 10 to 50 times more effective.
Urban Application:
Liquid trees are intended to be placed in urban spaces like rooftops, facades, and public areas, providing a way to improve air quality in densely populated areas.
Additional Benefits:
Besides air purification, liquid trees can potentially produce biofuels and be used for biosorption of heavy metals and wastewater treatment.
In essence, liquid trees offer a compact, efficient, and adaptable solution for addressing air pollution and promoting sustainability in urban environments, especially where planting traditional trees is challenging.A "liquid tree" is a bioreactor, specifically a photobioreactor, designed to mimic the air-purifying function of a tree, particularly in urban environments where planting trees is difficult. These devices utilize microalgae to absorb carbon dioxide and release oxygen through photosynthesis, much like a natural tree.
Here's a more detailed explanation:
Function:
Liquid trees, like the "Liquid3" model, are essentially tanks of water containing microalgae. They are designed to be placed in urban areas where traditional trees might not be suitable.
Photosynthesis:
The microalgae inside the bioreactor perform photosynthesis, using carbon dioxide and sunlight to produce oxygen and biomass.
Efficiency:
These systems can be significantly more efficient than trees at absorbing carbon dioxide and producing oxygen. Some studies suggest they are 10 to 50 times more effective.
Urban Application:
Liquid trees are intended to be placed in urban spaces like rooftops, facades, and public areas, providing a way to improve air quality in densely populated areas.
Additional Benefits:
Besides air purification, liquid trees can potentially produce biofuels and be used for biosorption of heavy metals and wastewater treatment.
In essence, liquid trees offer a compact, efficient, and adaptable solution for addressing air pollution and promoting sustainability in urban environments, especially where planting traditional trees is challenging.
Hello
Advancing Science Together
Welcome to ANSTO India, where we work collaboratively to develop innovative solutions that improve healthcare outcomes for patients.