Building Scalable Alternatives to Plastic Through Biology
I am Dr. Paramasivam Murugan, a microbiologist and biotech entrepreneur specializing in the development of biodegradable bioplastics (PHA) and sustainable industrial processes.
Let's Collaborate for a Better World
Vision
To enable a circular, bio-based economy where materials are designed to be sustainable, biodegradable, and environmentally responsible
Mission
To develop scalable, bio-based alternatives to conventional materials by leveraging microbial systems, renewable resources, and industrial biotechnology.
Advancing Sustainable Materials Through Biotechnology
“The future of materials lies in biology—where sustainability and scalability go hand in hand.”
“— Dr. Paramasivam Murugan”
Research Publications
Years in Biotechnology
Patents & Innovations
Industrial Projects
Engineering Sustainable Solutions
Through Biotechnology
Bioplastics (PHA Development)
Development of biodegradable polymers derived from renewable resources, designed to replace conventional petrochemical plastics across industries.
Micorbial Fermentation system
Optimization of microbial processes for efficient production of biopolymers, bio-based chemicals, and sustainable materials.Microbial Fermentation Systems
Industrial Process scale up
Translating laboratory research into pilot and industrial-scale production systems for commercialization and real-world deployment.
Agricultural Solutions
Designing biologically driven nutrient systems and controlled-release fertilizers to enhance soil health and agricultural productivity.
Wastewater Treatment System
Implementation of sustainable wastewater treatment solutions using biological processes for environmental protection and resource recovery.
Circular Biorefinery & Waste-to-Value
Converting agricultural and industrial waste streams into high-value bio-based products through integrated biotechnological systems.
Research Articals
Building the Future of Sustainable Materials Through Biotechnology
My work focuses on developing scalable, bio-based alternatives to conventional materials by integrating microbiology, materials science, and industrial processes. From bioplastics to environmental systems, the goal is to translate scientific innovation into practical solutions that create long-term impact across industries.
Open to collaborations across research, industry, and investment to accelerate the adoption of sustainable, bio-based technologies.