Xuelong Chen | Earth and Planetary Sciences | Research Excellence Award

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Prof. Xuelong Chen | Earth and Planetary Sciences | Research Excellence Award

Institute of Tibetan Plateau Research, Chinese Academy of Sciences | China

Prof. Xuelong Chen is a leading researcher in land–atmosphere interactions, with a strong focus on micro-meteorology, mountain meteorology, and land–air remote sensing, particularly over the Tibetan Plateau. His research integrates ground observations, satellite remote sensing, and atmospheric modeling to advance understanding of evapotranspiration, precipitation processes, boundary layer dynamics, and water vapor transport in complex terrains. He has authored numerous high-impact journal articles and scholarly books in atmospheric and hydrological sciences, with significant citation impact. His work has contributed to major scientific expeditions, international research programs, innovative monitoring platforms, and data products supporting climate and Earth system science.

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Featured Publications

Kittisakchai Naemchanthara | Physics and Astronomy | Best Researcher Award

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Assist. Prof. Dr. Kittisakchai Naemchanthara | Physics and Astronomy | Best Researcher Award

King Mongkut’s University of Technology Thonburi | Thailand

Assist. Prof. Dr. Kittisakchai Naemchanthara, a materials physicist at King Mongkut’s University of Technology Thonburi, is widely recognized for his multidisciplinary contributions spanning nanomaterials, biomaterials, biophysics, radiological science, and nuclear applications. With 21 Scopus-indexed publications, 112 citations, and an h-index of 6, he has established a strong research presence in advanced material characterization and sustainable material innovation. His work centers on transforming biological and mineral-based resources into high-value functional materials using techniques such as XRD, FTIR, TGA, SEM, ESR, and laser-based analyses. He has produced influential findings on hydroxyapatite synthesis, calcium phosphate nanomaterials, chitosan-based nanofibers, metal–ceramic hybrid systems, and humidity adsorbents derived from waste shells, contributing to green technologies for environmental, biomedical, and industrial applications. His studies on thermal effects in biominerals, including eggshells and natural minerals, have enhanced understanding of phase transformations and structural behavior under varying temperature conditions. Professor Naemchanthara’s collaborative research further extends into laser applications for cultural heritage conservation, electrochemical materials for nitrate removal from wastewater, and fossil shell classification using advanced spectroscopic tools. His participation in international conferences underscores his commitment to scientific dissemination and interdisciplinary advancement. Through sustained research output and innovative materials science applications, he continues to drive impactful progress in physics-based material development, resource valorization, and analytical characterization, strengthening his reputation as a versatile and forward-thinking researcher.

Profiles: Scopus | Google Scholar

Featured Publications

Naemchanthara, K., Meejoo, S., Onreabroy, W., & Limsuwan, P. (2008). Temperature effect on chicken eggshell investigated by XRD, TGA and FTIR. Advanced Materials Research, 55, 333–336.

Faksawat, K., Limsuwan, P., & Naemchanthara, K. (2021). 3D printing technique of specific bone shape based on raw clay using hydroxyapatite as an additive material. Applied Clay Science, 214, 106269.

Faksawat, K., Sujinnapram, S., Limsuwan, P., Hoonnivathana, E., & Naemchanthara, K. (2015). Preparation and characteristics of hydroxyapatite synthesized from cuttlefish bone by precipitation method. Advanced Materials Research, 1125, 421–425.

Pongtonglor, P., Hoonnivathana, E., Limsuwan, P., Limsuwan, S., & Naemchanthara, K. (2011). Utilization of waste eggshells as humidity adsorbent. (Journal name not provided).

Boonpratum, C., Naemchanthara, P., Limsuwan, P., & Naemchanthara, K. (2022). Effects of chitosan and Tween 80 addition on the properties of nanofiber mat through electrospinning. e-Polymers, 22(1), 234–248.

Mukku Pavan Kumar | Space Exploration Technologies | Young Scientist Award

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Assoc. Prof. Dr. Mukku Pavan Kumar | Space Exploration Technologies | Young Scientist Award

Lendi Institute of Engineering and Technology | India

Dr. Mukku Pavan Kumar is a distinguished researcher from VIT-AP University, Amaravati, India, specializing in radiation-hardened memory circuits, in-memory computing architectures, and energy-efficient hardware accelerators for advanced space and GPU applications. His pioneering research focuses on the modeling, analysis, and design of radiation-tolerant SRAM and MRAM systems, leading to significant advancements in soft error resilience and self-recoverable circuit architectures. Dr. Mukku Pavan Kumar’s scholarly contributions include 12 Scopus-indexed publications with 118 citations from 78 documents and an h-index of 7 (Scopus Author ID: 57211979910, ORCID: 0000-0002-0756-8390). His research has been featured in high-impact journals such as IEEE Access, Microelectronics Reliability, Integration, Microsystem Technologies, and International Journal of Circuit Theory and Applications (Wiley). He has presented his works at leading IEEE conferences, including ISCAS, TENCON, ICEFEET, and DICCT, and holds a patent for a self-recoverable radiation-resistant memory cell designed for aerospace electronics. Recognized with multiple Best Paper Awards and the Best Researcher Award from VIT-AP University, his research significantly advances space-grade VLSI system reliability and next-generation chip design. In addition, Dr. Kumar serves as a peer reviewer for reputed journals such as IEEE Access, Wiley’s Journal of Electrical and Computer Engineering, and Microelectronics Reliability, and actively contributes to collaborative R&D initiatives focused on radiation-resilient chip design, AI-driven hardware accelerators, and space electronics innovation.

Profiles: Scopus | Google Scholar | ORCID | ResearchGate

Featured Publications

  • Mukku, P. K., & Lorenzo, R. (2023). A review on radiation‐hardened memory cells for space and terrestrial applications. International Journal of Circuit Theory and Applications, 51(1), 475–499. https://doi.org/10.1002/cta.3678

  • Mukku, P. K., & Lorenzo, R. (2023). Design and analysis of radiation hardened 10T SRAM cell for space and terrestrial applications. Microsystem Technologies, 29(10), 1489–1500. https://doi.org/10.1007/s00542-023-07589-2

  • Mukku, P. K., & Lorenzo, R. (2023). Double node upset immune RHBD-14T SRAM cell for space and satellite applications. IEEE Access, 11, 96256–96271. https://doi.org/10.1109/ACCESS.2023.3321957

  • Mukku, P. K., & Lorenzo, R. (2024). An efficient radiation hardening SRAM cell to mitigate single and double node upset soft errors. Microelectronics Reliability, 152, 115303. https://doi.org/10.1016/j.microrel.2024.115303

  • Satapathy, S. C., Bhateja, V., & Das, S. (2018). Smart intelligent computing and applications. In Proceedings of the Second International Conference on Smart Computing and Informatics (SCI) (Vol. 1). Springer. https://doi.org/10.1007/978-981-13-1921-1_1