Postdoctoral Research Associate at CIPET:SARP-LARPMb, India.
Dr. Debashish Nayak is a highly skilled and accomplished researcher with a strong academic background in physics and materials science. He is currently serving as a Postdoctoral Research Associate at CIPET: SARP-LARPM, where he works on manufacturing next-generation biomedical devices. Dr. Nayakās research expertise spans a wide range of cutting-edge technologies, including OLEDs, PLEDs, biomedical sensors, and energy harvesting devices. His interdisciplinary approach has made significant contributions to materials science, device engineering, and sustainable energy solutions. His dedication to innovation and academic excellence makes him a promising figure in the scientific community.
Profile:
Education
Dr. Nayak completed his Ph.D. in Physics from the Indian Institute of Technology (ISM), Dhanbad, in February 2024. His doctoral research focused on conductive polymer-based ZnS composites for polymer light-emitting diodes (PLEDs). He holds a Masterās degree (M.Sc.) in Physics from Fakir Mohan University, Odisha, where he conducted research on internal ballistics under the supervision of a scientist from DRDO. Dr. Nayak also earned his Bachelorās degree (B.Sc.) in Physics with Honors from Berhampur University, Odisha. His educational background reflects a strong foundation in both theoretical and applied physics, which has paved the way for his advanced research.
Professional ExperiencesĀ
Dr. Nayak has gained significant academic and research experience throughout his career. In his current postdoctoral role at CIPET, Bhubaneswar, he is involved in an innovative project focused on biomedical devices. Prior to this, he worked as a teaching assistant at IIT Dhanbad, where he led practical sessions for B.Tech and M.Sc. students, further demonstrating his ability to combine research with teaching. He has also served as a guest faculty member at Rajdhani College and D.A.V College in Odisha. His diverse experience in both academia and research showcases his versatility and passion for advancing science.
Research Interests
Dr. Nayakās research interests are centered on advanced materials and their applications in energy, biomedical, and environmental technologies. He focuses on developing OLEDs and PLEDs, triboelectric nanogenerators (TENG), and solar cells. His work also covers biomedical devices, such as motion sensors and piezoelectric biomedical sensors. Additionally, he has a keen interest in renewable and biodegradable polymers, supercapacitors, and energy harvesting systems. His interdisciplinary research contributes to both sustainable technologies and the medical field, underlining his commitment to impactful and applied scientific exploration.
Research skillsĀ
Dr. Nayak possesses a vast array of technical and research skills, making him proficient in both experimental techniques and computational analysis. He has expertise in operating sophisticated instruments such as HR-XRD, FTIR Spectrophotometer, TEM, FESEM, AFM, and UV-VIS-NIR spectrophotometry. His computational skills include proficiency in Python, Matlab, and COMSOL Multiphysics. He is also experienced in various fabrication and synthesis techniques, including polymerization, thin-film fabrication, and membrane casting. His strong command over these technical tools and methodologies has been a critical driver of his research success.
Award And RecognitionĀ
Dr. Nayakās outstanding work has been recognized through various grants and invitations. He received financial assistance from the ITS, SERB, to participate in the prestigious “14th Annual International Workshop on Advanced Materials” (IWAM-2023) in the UAE. He was also invited to attend IWAM-2023 as a participant with grant support. His contributions to the scientific community are further acknowledged through his memberships in organizations such as the Optical Society of America and the Global Initiative of Academic Networks (GIAN). These recognitions highlight his growing reputation as a leader in the field of advanced materials science.
Conclusion
- Highly conductive composites of PEDOT
thin film for improved hole mobility in polymer devices
Authors: Nayak, D., Choudhary, R.B.
Year: 2024
Citations: 0
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- ZnS-integrated polypyrrole and emeraldine polyaniline composites for enhanced photophysical and electrochemical performance for an active layer in an optoelectronic device
Authors: Nayak, D., Choudhary, R.B.
Year: 2024
Citations: 3
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- Strontium titanate and its flexible polymer composite film: Enhanced biological, mechanical, and photocatalytic performance
Authors: Nayak, T., Nayak, D., Mohanty, S., Palai, A.K.
Year: 2024
Citations: 0
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- Structural and Photometrical Investigation of BiāOā Incorporated Polycarbazole Nanohybrid for Emissive Layer Application
Authors: Kumar, S., Nayak, D., Mandal, G., Bauri, J., Choudhary, R.B.
Year: 2024
Citations: 0
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- Facile Synthesis of Ļ Conjugated Heptazine PPy/gCāNā Nanocomposite as an Emissive Layer Material for OLED Applications
Authors: Bauri, J., Mandal, G., Nayak, D., Ansari, S., Choudhary, R.B.
Year: 2024
Citations: 0
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- Influence of SiOā in PANI Matrix as an Electron Transport Layer for OLEDs
Authors: Mandal, G., Choudhary, R.B., Nayak, D., Bauri, J., Ansari, S.
Year: 2024
Citations: 0
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- Scalable One-Step Template-Free Synthesis of Ultralight Edge-Multifunctionalized g-CāNā Nanosheets with Enhanced Optical and Electrochemical Properties
Authors: Nayak, D., Mandal, G., Kumar, S., Bauri, J., Choudhary, R.B.
Year: 2024
Citations: 0
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- Synergistic Influence of FRET on a High Quantum Yield Ļ-Conjugate Polycarbazole-ZnS Composite Thin Film
Authors: Nayak, D., Choudhary, R.B., Al-Asbahi, B.A., Ahmed, A.A.A.
Year: 2023
Citations: 1
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- Enhanced photophysical and electrochemical properties of 2D layered rGO and MoSā integrated polypyrrole (rGO-PPy-MoSā) composite
Authors: Nayak, D., Choudhary, R.B.
Year: 2023
Citations: 4
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- A survey of the structure, fabrication, and characterization of advanced organic light-emitting diodes
Authors: Nayak, D., Choudhary, R.B.
Year: 2023
Citations: 19
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