Research Scientist, Long Island University, United States
Dr. Nithyadevi Duraisamy is a dedicated nano-biomedical scientist with expertise in nanomaterial synthesis, drug delivery systems, and analytical instrumentation. She has over five years of experience in developing novel biopolymer-based drug formulations for targeted therapy. Currently a Postdoctoral Research Fellow at Long Island University, Brooklyn, NY, she is working on orthopedic knee implantation and drug-molecule interactions. Her previous roles include research fellowships at UCONN Health Center and an Assistant Professor at Erode Builders Educational Trusts, India. Dr. Duraisamy holds a Ph.D. in Interdisciplinary Physics-Material Science from Bharathiar University, India. Her work spans nanotechnology, photocatalysis, biomedical applications, and water purification. She has received the UGC Fellowship for Meritorious Students (2013) and the Best Faculty Award (2016).
Publication Profile
Google Scholar
π¬ Professional Experience
Dr. Nithyadevi Duraisamy is a Postdoctoral Research Fellow at Long Island University, leading projects on orthopedic knee implantation using electrospinning and 3D printing. She collaborates on drug interaction studies with Dassault Systemsβ Living Heart Model. As a Research Fellow at UCONN Health, she contributed to NIH-funded studies on ionically conducting biopolymers for tissue regeneration. Previously, she was an Assistant Professor and Doctoral Researcher at Bharathiar University, specializing in biopolymer-induced nanoparticles for targeted breast cancer therapy. Her expertise spans photocatalysis, biomaterials, and regenerative medicine, driving advancements in nanomedicine and drug delivery. βοΈππ¦Ύ
π Academic Background
Dr. Nithyadevi Duraisamy holds a Ph.D. in Interdisciplinary Physics-Material Science (2015) from Bharathiar University, focusing on biopolymer-induced nanoparticles for cancer therapy. She earned an M.Phil. in Physics (2010) and a PG Diploma in Nanoscience and Technology (2010) from the same university. Her academic journey began with an M.Sc. in Physics (2009) from PSG College of Arts and Science and a B.Sc. in Physics (2007) from Vellalar College for Women. Her education has equipped her with expertise in nanomaterials, biomaterials, and advanced analytical techniques for biomedical applications. βοΈππ¬
π Honors & Awards
Dr. Nithyadevi Duraisamy has been recognized for her academic excellence and contributions to research. In 2016, she received the Best Faculty Award for her dedication to teaching and mentoring students. She was also awarded the prestigious University Grants Commission (UGC) Fellowship for Meritorious Students in 2013 by UGC, India, for her outstanding research in nanoscience and material science. These accolades highlight her commitment to innovation, education, and scientific advancements in interdisciplinary physics and biomedical applications. πποΈπ¬
π¬ Research Focus
Dr. Nithyadevi Duraisamy’s research spans biomedical materials, nanotechnology, and electrochemical sensing. Her work in bioactive polymers and electrical stimulation strategies contributes to musculoskeletal tissue regeneration π¦΄. She has developed electrochemical platforms for detecting dopamine π§ and pesticides πΏ using advanced nanocomposites. Her expertise includes functional biomaterials for spinal repair, metal/metal oxide nanoparticles for antimicrobial applications π¦ , and photocatalytic materials for environmental remediation π. Recently, she has explored machine learning in virology π¦ π» and graphitic carbon nitride for electrocatalysis β‘. Her interdisciplinary approach integrates material science, biotechnology, and engineering for healthcare and environmental applications. π
Publication Top Notes
- 𦴠Bioactive polymeric materials & electrical stimulation for musculoskeletal repair β 152 citations, 2020
- π§ Electrochemical platform using YβOβ/BN for dopamine detection β 88 citations, 2021
- πΏ ZrP/GO-based nanoarchitecture for fenitrothion detection β 61 citations, 2021
- 𦴠Functional biomaterials for intervertebral disc regeneration β 53 citations, 2020
- β‘ TiOβ-SnOβ composite nanoparticles for photocatalysis β 19 citations, 2013
- π¦ Ag/TiOβ core-shell nanoparticles for biological applications β 18 citations, 2017
- π¦ Bio-surfactant induced AgβTiOβ core-shell nanoparticles for microbial inhibition β 15 citations, 2015
- 𧬠Protein synthesis & characterization β 6 citations, 2020
- π¦ π» Machine learning for BCoV epitope mapping β Published 2024
- β‘ Graphitic carbon nitride for electrocatalysis β Published 2022
- π© Composition & optical microstructure of gray cast iron β Published 2013