Researchers
Name (Institute) |
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| Specialty | My research speciality includes - Metabolic engineering - Bioprocess engineering - Biorefinery - High-throughput and automation technology - Multiomics |
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| Science Interest (Past) |
My research interest aims at designing cost-effective bioconversion process of lignocellulosic feedstock to biofuels and biochemicals. With high-throughput technology, I have engineered efficient and robust microorganisms capable of converting biomass-derived sugars to bioproducts (e.g. ethanol, bio-oil, xylitol, xylonate) at high yield and productivity. I have also implemented model-based approach for development of integrated biorefinery process. The developed systematic, high-throughput optimization helps accelerating process development and scaling up enabling for cost-effective ligno-biorefinery platform. | ||||
| Science Interest (Current) |
I will continue my research on developing eco-efficient ligno-biorefinery platform for the production of biofuels and bioplastics. My present and future research will utilize multidisciplinary technologies based upon metabolic engineering efficient microorganisms for the production of biofuels and bioplastics and high-throughput bioprocess for rapid process development and scaling up. Through these interdisciplinary technologies, robust and reproducible lignocellulose-based process prototypes at both lab-scale and pre-pilot-scale will be achieved enabling for cost-effective bioproducts synthesis from lignocellulosic feedstock | ||||
| Science Interest (Future) |
I will continue my research on developing eco-efficient ligno-biorefinery platform for the production of biofuels and bioplastics. My present and future research will utilize multidisciplinary technologies based upon metabolic engineering efficient microorganisms for the production of biofuels and bioplastics and high-throughput bioprocess for rapid process development and scaling up. Through these interdisciplinary technologies, robust and reproducible lignocellulose-based process prototypes at both lab-scale and pre-pilot-scale will be achieved enabling for cost-effective bioproducts synthesis from lignocellulosic feedstock | ||||
| Website / Contact |
