Shailendra Kumar | Energy | Best Researcher Award 

Published on by AMO Physics

Dr. Shailendra Kumar’s academic foundation is marked by consistent excellence and dedication to engineering and materials science. He began with a Diploma in Chemical Technology Fertilizer from Government Polytechnic, Lakhimpur Kheri, followed by a Bachelor of Technology in Mechanical Engineering from REC Azamgarh. His bachelor’s research focused on the design and fabrication of a multipurpose machine. He then pursued his Master’s in Advanced Materials Science and Technology at NIT Durgapur (2017–2019), where he worked on flexible PET/SiO₂ thin-film-based touch and pressure sensors for robotic applications. These early steps laid a strong foundation for his future in energy harvesting and advanced materials research.

Professional Endeavors

Professionally, Dr. Kumar has cultivated diverse research experience in advanced materials and energy systems. He served as a Research Scholar in the Advanced Electronic Materials and Systems (AEMS) Laboratory at IIT Delhi, under the guidance of Prof. Ankur Goswami, investigating triboelectric effects in polymer dielectrics and inorganic semiconductors. During this period, he also designed cost-effective horizontal contact separated (HCS) and sliding contact separated (SCS) test setups for triboelectric nanogenerators. His expertise was further recognized when he was selected as an Early-Doc Fellow in the Department of Materials Science and Engineering, IIT Delhi. His professional endeavors extend to hands-on skills in thin film deposition, electrospinning, microscopy, and device fabrication.

Contributions and Research Focus

Dr. Kumar’s research contributions are focused on triboelectric nanogenerators (TENGs), tactile sensing, and hybrid energy harvesting systems. His PhD research emphasized the synergistic effects of photon and friction in triboelectric nanogenerators, particularly through metal–semiconductor interfaces. He explored tribocharges in PDMS films doped with MWCNTs and MAX phase, and demonstrated augmented output power density for sustainable energy harvesting applications. Additionally, his work on PAN-MWCNT electrospun fibers opened new possibilities for tactile sensing and IoT-driven devices. By combining experimental methods with simulations in COMSOL Multiphysics, he provided comprehensive validation of his results.

Impact and Influence

Dr. Kumar’s research has had a significant impact on the field of energy harvesting and sensing technologies. His innovative test setups provided cost-effective and scalable solutions for studying the synergistic outcome of contact electrification and photovoltaic effects. Recognized internationally, he received the Young Researcher Award at the EMRS 2024 Fall Meeting in Warsaw, Poland, for his contributions to TENGs. His Research Excellence Travel Award (IIT Delhi, 2024) further highlights his academic influence. He has also contributed to advancing sustainable energy solutions for applications in human–machine interfaces, robotics, and wearable electronics.

Academic Cites

The academic recognition of Dr. Kumar’s work is reflected in growing citations across journals and conference proceedings in the field of triboelectric nanogenerators, energy harvesting, and advanced functional materials. His contributions are frequently referenced in studies exploring new conductive materials, hybrid nanogenerators, and applications of tactile sensing in IoT systems. This demonstrates the wide applicability and lasting influence of his research.

Legacy and Future Contributions

Dr. Shailendra Kumar’s legacy is grounded in his pioneering contributions to triboelectric nanogenerators, hybrid harvesting systems, and their applications in next-generation sensing technologies. His future contributions will likely include advancing cost-effective, high-efficiency energy harvesting devices, contributing to the development of sustainable power solutions for IoT and smart devices. By mentoring upcoming researchers and expanding interdisciplinary collaborations, Dr. Kumar is poised to continue shaping the field of energy harvesting materials and technologies for years to come.

Energy

Dr. Shailendra Kumar’s research and innovations in energy harvesting technologies, particularly triboelectric nanogenerators, represent a significant advancement in sustainable power systems. His contributions to energy applications for IoT, robotics, and sensing devices underline the real-world impact of his work. With a continued focus on energy solutions, his legacy will influence both academic research and industrial development.

Publications

Title: Impact of photovoltaic effect on performance enhancement of triboelectric nanogenerator for energy harvesting applications

Authors: S. Kumar, R.K. Jha, U. Chitnis, S. Singh, J.K. Anand, S.K. Roy, A. Goswami

Journal: Journal of Vacuum Science & Technology B

Year: 2023

Citations: 7

Title: Design and development of a horizontal contact separated (HCS) test setup for measuring the performance of triboelectric nanogenerator for sustainable energy harvesting

Authors: S. Kumar, R.K. Jha, P. Sharma, A. Goswami

Journal: Review of Scientific Instruments

Year: 2024

Citations: 6

Title: Performance enhancement of triboelectric nanogenerators and exploration of tactile sensing using an electrospun PAN–MWCNT layer through interface manipulation

Authors: S. Kumar, R.K. Jha, B. Thakur, T. Biswas, J.K. Anand, C. Soren, D. Banswar, ...

Journal: Journal of Materials Chemistry A

Year: 2025

Citations: 4

Title: Spin dynamics investigation and structural analysis of ambient scalable Sr²⁺ doped zirconium ferrite nanoparticles synthesized by low temperature auto combustion route

Authors: S. Sambyal, A. Singh, R. Tickoo, A. Goswami, S. Kumar, M. Singh

Journal: Physica B: Condensed Matter

Year: 2024

Citations: 3

Title: Effect of Sr²⁺ and Co²⁺ Ions on Antimicrobial, Magnetic, and Spin Dynamic Properties of Zr₁₋ₓSrₓFe₂₋ᵧCoᵧO₄ (0 ≤ x and y ≥ 0.20) Ferrite Nanoparticles

Authors: S. Sambyal, S. Kujur, A. Goswami, S. Kumar, M. Singh, B. Kaur, A. Singh

Journal: Journal of Superconductivity and Novel Magnetism

Year: 2025

Conclusion

Dr. Shailendra Kumar exemplifies the synergy of academic excellence, innovative research, and impactful contributions to materials science and engineering. His work on triboelectric nanogenerators not only advances the science of energy harvesting but also provides practical solutions to global challenges in sustainability. With strong academic credentials, recognized awards, and impactful research outcomes, Dr. Kumar’s career trajectory reflects a legacy of excellence and a future filled with transformative contributions to the field of energy research.

Shaik Mohammed Ibrahim – Nano Fluids – Best Researcher Award 

Published on by AMO Physics

Dr. Shaik Mohammed Ibrahim laid the foundation for his academic career with a strong emphasis on applied mathematics and fluid dynamics. He completed his PhD in 2010 from Sri Venkateswara University, Tirupathi, under the esteemed guidance of Prof. N. Bhaskar Reddy. His thesis, titled “Radiation Effects on Convective Heat and Mass Transfer Flows,” showcased his early dedication to exploring the complexities of fluid dynamics, heat transfer, and their real-world applications. His rigorous academic training set the stage for his future contributions to research and teaching in engineering and applied sciences.

💼 Professional Endeavors

Dr. Shaik Mohammed Ibrahim has an extensive teaching career spanning nearly two decades, with significant contributions to engineering education. He currently serves as an Associate Professor at Koneru Lakshmaiah Education Foundation (Deemed to be) University since June 2022, where he teaches B.Tech students. Prior to this, he worked as an Assistant Professor at GITAM (Deemed to be University), Vishakhapatnam, from 2015 to 2022. His leadership skills were evident during his tenure as Associate Professor and Head of the Department at Priyadarshini College of Engineering and Technology, Nellore, where he served from 2006 to 2015. His journey in academia began as a Lecturer at Seshachala Post Graduate Studies, Puttur, where he taught M.Sc and M.C.A students between 2004 and 2006.

🔬 Contributions and Research Focus

Dr. Ibrahim's research primarily focuses on fluid dynamics, heat and mass transfer, magnetohydrodynamics, non-Newtonian fluids, flows in porous media, and micropolar fluids. His extensive work in these areas has significantly contributed to the understanding of complex fluid behavior in various industrial and scientific applications. His expertise in nano fluids has opened new avenues in energy efficiency, thermal management, and biomedical applications. Additionally, his work extends to radiation effects in convective heat transfer, enhancing modern cooling techniques and aerospace engineering applications.

🌍 Impact and Influence

Dr. Ibrahim’s influence in academia is evident through his long-standing commitment to education and research. His membership in The Indian Society for Technical Education (ISTE) (No. LM 68410) reflects his dedication to fostering engineering education and professional development. His NPTEL Online Certification in "Transform Calculus and its Applications in Differential Equations" further highlights his commitment to continuous learning and expertise in mathematical modeling. His contributions have directly impacted students, researchers, and industry professionals who apply his findings in nano fluids and heat transfer research.

🏆Academic Cites

Dr. Ibrahim's scholarly contributions in nano fluids, fluid dynamics, and magnetohydrodynamics have been recognized through numerous academic citations. His research has been referenced in leading journals, showcasing the importance of his work in advancing theoretical and practical applications in heat transfer and fluid mechanics. His findings have helped shape contemporary research methodologies, offering innovative solutions to problems in energy systems, biomedical sciences, and aerospace engineering.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Ibrahim aims to further expand his research in nano fluids and their role in enhancing energy efficiency and industrial applications. His future work will continue to bridge the gap between theoretical fluid mechanics and practical implementations, benefiting industries such as renewable energy, pharmaceuticals, and advanced cooling systems. As he continues to mentor students and collaborate with global researchers, his legacy as an educator and researcher will have a lasting impact on future generations of scientists and engineers.

📝Nano Fluids

Dr. Shaik Mohammed Ibrahim’s extensive research in nano fluids has led to groundbreaking advancements in thermal management and heat transfer applications. His continued exploration of nano fluids in magnetohydrodynamics and porous media is set to revolutionize industrial cooling systems and biomedical technologies. With a strong foundation in fluid mechanics and applied mathematics, his contributions to nano fluids research ensure lasting advancements in engineering and scientific domains.

Notable Publication

📝Melting Heat Transfer Effects on MHD Chemically Thermally Radiative Micropolar Fluid Flow towards Stretching Exponentially Sheet with Heat Sink/Source

Authors: S.M. Ibrahim, Shaik Mohammed; B. Lavanya; G. Dharmaiah; T. Sankar Reddy; P. Roja

Journal: CFD Letters

Year: 2025

Citations: 0

📝Investigation of heat and mass transfer in magnetohydrodynamic Williamson nanofluid flow over a nonlinear stretching surface with viscous dissipation and radiation effects: a numerical approach

Authors: S. Ramadevu, Syamala; P.V. Kumar, Prathi V.; S.M. Ibrahim, Shaik Mohammed; K. Jyothsna, Kanithi

Journal: Radiation Effects and Defects in Solids

Year: 2025

Citations: 0

📝A comprehensive study on Maxwell hybrid nanostructure and Maxwell nanostructure on 2D flow model over a stretching sheet with non-uniform heat generation/absorption and binary chemical reaction

Authors: K. Badak, Kirnu; R.P. Sharma, Ram Prakash; S.M. Ibrahim, Shaik Mohammed

Journal: Journal of Thermal Analysis and Calorimetry

Year: 2025

Citations: 0

📝Magneto-hydrodynamic mixed convection chemically rotating and radiating 3D hybrid nanofluid flow through porous media over a stretched surface

Authors: K. Bhargava, Katikala; S.M. Ibrahim, Shaik Mohammed; K. Raghunath, Kodi

Journal: Mathematical Modelling and Numerical Simulation with Applications

Year: 2024

Citations: 0

📝Transient flow and heat transfer characteristics of single-phase nanofluid past a stretching sheet under the influence of thermal radiation and heat source

Authors: Z.H. Khan, Zafar Hayat; K. Swain, K.; S.M. Ibrahim, Shaik Mohammed; W.A. Khan, Waqar Ahmed; Z. Huang, Zaitang

Journal: AEJ - Alexandria Engineering Journal

Year: 2024

Citations: 5

📝Radiative Chemically MHD Non-Newtonian Nanofluid Flow over an Inclined Stretching Sheet with Heat Source and Multi-Slip Effects

Authors: P.S. Kumari, Pennelli Saila; S.M. Ibrahim, Shaik Mohammed; P.V. Kumar, Prathi V.; G. Lorenzini, Giulio

Journal: International Journal of Computational Methods and Experimental Measurements

Year: 2024

Citations: 0

📝Impact of multiple slips and thermal radiation on heat and mass transfer in MHD Maxwell hybrid nanofluid flow over porous stretching sheet

Authors: Z.H. Khan, Zafar Hayat; W.A. Khan, Waqar Ahmed; S.M. Ibrahim, Shaik Mohammed; K. Swain, K.; Z. Huang, Zaitang

Journal: Case Studies in Thermal Engineering

Year: 2024

Citations: 10