Dibyadrasta Sahoo | Semiconductor Memory | Research Excellence Award

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Mr. Dibyadrasta Sahoo | Semiconductor Memory | Research Excellence Award

IIT Roorkee | India

Mr. Dibyadrasta Sahoo is an emerging researcher in Electronics and Communication Engineering with a strong academic foundation spanning IIT Roorkee, NIT Silchar, and BPUT Rourkela. His doctoral work at IIT Roorkee focuses on NAND Flash Memory, supported by extensive teaching assistantships across TCAD, analog, digital, and solid-state laboratories. He has contributed to semiconductor device modelling, flash memory optimization, and VLSI design through impactful M.Tech project supervision and hands-on research. His industry-linked internship at Applied Materials USA strengthened his expertise in NAND Flash Memory and TCAD interfacing, complemented by additional research roles at IIT Madras and BITS Pilani involving biomedical signal processing and solar cell analysis. Earlier, he served as an Assistant Professor, teaching core courses and guiding undergraduate projects in electronics, instrumentation, semiconductor physics, and circuit design. His research interests span semiconductor device physics, advanced memory computing, analog/digital circuits, VLSI, machine learning, optimization, and algorithmic modelling. He has presented his work at reputed conferences such as SSDM Japan and INDICON IIT Kharagpur, and his research figure was featured as a cover illustration in a Springer journal, highlighting the quality of his contributions. His continued dedication positions him as a promising contributor to advanced semiconductor and memory technology research.

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Featured Publications


Transfer Learning-Based Parameter Optimization for Improved 3D NAND Performance

– Journal of Computational Electronics, 2025


Investigation and Comparative Analysis of Polysilicon and MoS₂-Based Channels in 3D NAND

– Japanese Journal of Applied Physics, 2025


Investigation and Optimization of Plug Height and Bottom Recess Depth of NAND Flash Memory

– IEEE INDICON Conference, 2024


Investigation of EPI Plug Voids Impacts on Electrical Performance of 3D NAND

– Silicon (Springer), 2025


Investigation of Void Effect Inside Epi-Plug on Electrical Characteristics of NAND Flash Memory

– SSDM Conference, 2024

Enno Wagner | Thermodynamics | Excellence in Research Award

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Prof. Dr. Enno Wagner | Thermodynamics | Excellence in Research Award

Frankfurt University of Applied Sciences, Germany

Prof. Dr. Enno Wagner is a distinguished academic and engineering expert whose career spans mechatronic design, hydrogen systems, and advanced energy technologies. He earned his mechanical engineering degree with a specialization in energy technology from the Technical University of Darmstadt, where he later completed a doctoral thesis in technical thermodynamics focusing on heat and mass transport and high-resolution measurement techniques. His professional journey includes impactful roles at renowned organizations such as the Fraunhofer ISE, EVONIK Degussa, Stiebel Eltron, and the Schunk Group, where he led multidisciplinary teams in product design, automation, electronics, and control technology. Since 2019, he has served as Professor for Mechatronic Design and Engineering Mechanics at the Frankfurt University of Applied Sciences, directing the Mechatronics bachelor program, teaching engineering design and hydrogen technologies, and leading the hydrogen technology laboratory. His research interests center on alkaline water electrolysis, entropy analysis using bubble dynamics, and compact hydrogen storage solutions, contributing significantly to the broader field of sustainable energy systems. Recognized for his scientific contributions, leadership, and innovation in fuel cell and hydrogen research, he continues to advance cutting-edge knowledge and inspire future engineers through his academic and research endeavors.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Wagner, E., Delp, E., & Mishra, R. (2023). “Energy storage with highly-efficient electrolysis and fuel cells: Experimental evaluation of bifunctional catalyst structures” in Topics in Catalysis.

Wagner, E., & Kohnke, H.-J. (2020). “Another chance for classic AFCs? Experimental investigation of a cost-efficient unitized regenerative alkaline fuel cell using platinum-free gas diffusion electrodes” in Fuel Cells.

Wagner, E. (2018). “Betrachtung von Nachhaltigkeit und Umweltverträglichkeit mithilfe des neuen Syntropie-Index” in Ökologisches Wirtschaften.

Wagner, E. (2009). “Hochauflösende Messungen beim Blasensieden von Reinstoffen und binären Gemischen” (Doctoral Dissertation, Deutsche Nationalbibliothek).

Wagner, E., & Stephan, P. (2009). “High-resolution measurements at nucleate boiling of pure FC-84 and FC-3284 and its binary mixtures” in Journal of Heat Transfer.

Wagner, E., Sodtke, C., Schweizer, N., & Stephan, P. (2006). “Experimental study of nucleate boiling heat transfer under low gravity conditions using TLCs for high-resolution temperature measurements” in Heat and Mass Transfer.

Wittstadt, U., Wagner, E., & Jungmann, T. (2005). “Membrane electrode assemblies for unitised regenerative polymer electrolyte fuel cells” in Journal of Power Sources.