Sudipta Dash | Computational Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Mr. Sudipta Dash | Computational Chemistry | Best Researcher Award

Kalinga Institute of Social sciences | India

Mr. Sudipta Dash is a scholar and academic leader specializing in Applied Physics, with research emphases on quantum optoelectronic materials, carbon‑based nanostructures, functional perovskites, and intelligent instrumentation using IoT and AI technologies. After completing his M.Sc. from Ravenshaw University, he pursued teacher education at Acharya Nagarjuna University, earning his B.Ed and M.Ed. Professionally, Mr. Dash’s career spans roles in higher education and administration: he served as Principal at Gayatri Degree College, Lecturer and then Assistant Professor at Kalinga Institute of Social Sciences, and as of 2024, he is Head of the Department there. He has been recognized with several honours, including CSIR‑NET (2019), GATE (2018), and multiple Best Poster Awards. His inventive work is evidenced by patents in areas like anti‑dandruff/anti‑ripening shampoos; carbon quantum dots; AI‑based digital education methods; and outcome‑based assessment aligned with NEP 2020. His publication record includes studies on perovskite band gap engineering, optoelectronic properties of lead‑free compounds, toxicity assessment of nanomaterials, among others.

Profiles : Scopus | Google Scholar

Featured Publications

  • Dash, S., Behera, D., Mohanty, S. K., Palai, G., & Mohanty, I. (2024). Unveiling the potential of lead‑free KInBr₃ and RbInBr₃ perovskites: A breakthrough in optoelectronic and photovoltaic performance through DFT (HSE hybrid functional) and SCAPS‑1D simulations. Phase Transitions, 97(11‑12), 826–845.

  • Dash, S., Mohanty, S., & Palai, G. (2025). First‑Principles Insights into Structural, Electronic, Elastic, and Optical Behavior of AlGeX₃ (X = Cl, Br) Perovskites. Russian Journal of Inorganic Chemistry, 1–9.

  • Dash, S., Behera, D., Mohanty, S., Panda, J., & Palai, G. (2025). Comprehensive investigations on the optoelectronic properties of lead‑free K₂InSbCl₆ compound. Next Research, Article 100607.

  • Dash, S., Mohanty, S., Behera, D., Mohanty, S. K., & Palai, G. (2025). Band gap engineering and optical response of SrSiO₃ perovskite for high‑efficiency photonic applications. MRS Advances, 1–8.

 

Eric Holland | Computational Chemistry | Best Researcher Award

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Dr. Eric Holland | Computational Chemistry | Best Researcher Award

Fred Hutchinson Cancer Research Center | United States

Dr. Eric Charles Holland is a globally esteemed physician-scientist whose groundbreaking contributions have significantly advanced the field of neuro-oncology. Currently serving as Professor in the Division of Human Biology and Senior Vice President & Director at the Fred Hutchinson Cancer Research Center in Seattle, WA, Dr. Holland has dedicated his career to integrating molecular biology with clinical neurosurgery to develop innovative therapies for brain tumors, particularly glioblastoma. Dr. Holland earned his BS in Chemistry from Miami University, followed by a PhD in Biochemistry & Molecular Biology from the University of Chicago, and an MD from Stanford University. He pursued postdoctoral training in both HIV gene expression in Paul Berg’s lab at Stanford and glioma modeling in Harold Varmus’s lab at the NIH both Nobel laureates. He completed neurosurgical training at UCLA, laying the groundwork for a career at the intersection of science and clinical practice. He has held academic and clinical appointments at MD Anderson Cancer Center, Memorial Sloan Kettering Cancer Center, Cornell University, and the University of Washington. Notably, he served as Director of the Brain Tumor Center at MSKCC and the Alvord Brain Tumor Center in Seattle, fostering interdisciplinary approaches to brain cancer treatment. He also plays a leadership role in Seattle Translational Tumor Research (STTR). A prolific researcher, Dr. Holland has authored 297 scientific publications, garnering over 37,000 citations, and holds an h-index of 95, reflecting the high impact and sustained relevance of his work. His research has advanced understanding of glioma genetics, tumor microenvironments, and translational therapies. He is also recognized for his contributions to science policy and international collaborations, including efforts to expand cancer care in China. Dr. Holland is a member of the National Academy of Medicine and a recipient of numerous prestigious awards, including the Farber Award, Bressler Scholars Award, and an Honorary Doctorate from Uppsala University.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Kumar, S., Jiang, J., Donald-Paladino, M. S., Chen, J., Gutierrez, A., Federation, A. J., Szulzewsky, F., Holland, E. C., Ferguson, F. M., & Nabet, B. (2025, June 24). Development of PROTACs for targeted degradation of oncogenic TRK fusions [Preprint]. bioRxiv.

Cimino, P. J., Keiser, D. J., Parrish, A. G., Holland, E. C., & Szulzewsky, F. (2025, April 9). C-terminal fusion partner activity contributes to the oncogenic functions of YAP1::TFE3 [Preprint]. bioRxiv.

Zheng, Y., Henikoff, J., Henikoff, S., Ahmad, K., Kugel, S., Szulzewsky, F., Holland, E., Russell, Z. R., Paranal, R. N., Xu, Y., et al. (2025, February 14). RNA Polymerase II at histone genes predicts outcome in human cancer. Science, 379(6673), eads2169.

Arora, S., Holland, E., Vardharajan, S., Taylor, M., Sahm, F., Mack, S. C., Sievers, P., Korshunov, A., Nuechterlein, N., Jensen, M., et al. (2024, October 22). Integrated transcriptomic landscape of medulloblastoma and ependymoma reveals novel tumor subtype-specific biology [Preprint]. bioRxiv.

Szulzewsky, F., Thirimanne, H. N., & Holland, E. C. (2024, March 18). Meningioma: Current updates on genetics, classification, and mouse modeling. Upsala Journal of Medical Sciences, 129(1), Article 10579.

Henikoff, S., Henikoff, J. G., Paranal, R. M., Greene, J. E., Zheng, Y., Russell, Z. R., Szulzewsky, F., Kugel, S., Holland, E. C., & Ahmad, K. (2024, March 3). RNA Polymerase II hypertranscription in cancer FFPE samples [Preprint]. bioRxiv.

Henikoff, S., Henikoff, J. G., Ahmad, K., Paranal, R. M., Janssens, D. H., Russell, Z. R., Szulzewsky, F., Kugel, S., & Holland, E. C. (2023, September 22). Epigenomic analysis of formalin-fixed paraffin-embedded samples by CUT&Tag. Nature Communications, 14, Article 5977.

Jun-Qing Yin | Computational Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Dr. Jun-Qing Yin | Computational Chemistry | Best Researcher Award

Chengdu University | China

Profiles

Scopus
Orcid

Early Academic Pursuits

Dr. Jun-Qing Yin began his academic journey with a Bachelor’s degree in Chemistry, where he developed a strong foundation in physical and theoretical chemistry. His Master’s studies focused on the structural and energetic behaviors of gold clusters and their interaction with formaldehyde, showcasing early specialization in computational modeling and quantum chemical methods. His Ph.D. work advanced his theoretical expertise further, emphasizing surface chemistry and catalytic mechanisms of iron-based systems relevant to Fischer-Tropsch synthesis. These formative academic pursuits laid the groundwork for a career deeply rooted in the theoretical investigation of catalytic processes at the atomic level.

Professional Endeavors

Currently serving as a Research Fellow at the Institute of Advanced Study at Chengdu University, Dr. Yin has also held a postdoctoral position in the prestigious group of Professor Shigeyoshi Sakaki at Kyoto University. His career trajectory is marked by a consistent focus on the quantum chemical study of catalytic systems, with a specialization in transition metal surfaces, single-atom alloys, and interface chemistry. His work bridges the gap between theoretical predictions and experimental observables, forming key collaborations with experimentalists in the catalysis community.

Contributions and Research Focus

Dr. Yin’s research contributions are centered on surface catalysis, alloy stability, and reaction mechanisms. He has developed theoretical models for understanding the behavior of single-atom and phase-separated alloys in reactions such as NO-CO and dry reforming of methane. Additionally, his investigations into the performance of iron carbides, metal-support interactions, and the modification of catalytic surfaces using ligands contribute valuable insights to Fischer-Tropsch synthesis. His use of density functional theory (DFT) and other quantum mechanical tools reflects a deep understanding of electronic structures and catalytic behavior, advancing the design of more selective and efficient catalytic systems.

Impact and Influence

With a growing list of publications in top-tier journals such as Nature, Science, Journal of Catalysis, and ACS Catalysis, Dr. Yin’s work has gained substantial visibility in the fields of physical chemistry and catalysis. His collaboration in a landmark study on rhodium-zeolite catalysts for regioselective hydroformylation has positioned him at the forefront of molecular catalysis. His theoretical insights into metal-ligand interactions and catalyst support effects continue to influence both theoretical and applied research in sustainable energy and green chemistry.

Academic Citations

Although the precise citation metrics are not provided here, Dr. Yin’s publications in high-impact journals suggest a strong citation record. His involvement in collaborative research published in globally respected outlets like Nature and Science indicates a significant academic footprint. These works are likely to be highly cited within the communities of catalysis, surface chemistry, and computational materials science.

Technical Skills

Dr. Yin possesses advanced skills in quantum chemical modeling, particularly density functional theory (DFT), periodic boundary condition modeling, and computational catalysis. He is proficient in using simulation software such as VASP, Gaussian, and Materials Studio for the investigation of reaction mechanisms, adsorption behaviors, and surface reactivity. His ability to interpret complex electronic structures and reaction energy profiles makes him a valuable asset in any research setting focused on materials and energy applications.

Teaching Experience

While no formal teaching roles are specified, Dr. Yin has likely been involved in mentoring graduate students and collaborating with experimental teams, given his postdoctoral and research fellow positions. His ability to translate theoretical concepts into practical guidance for experimental interpretation reflects pedagogical strength, which may extend into future academic teaching responsibilities.

Legacy and Future Contributions

Dr. Yin is on a trajectory to make lasting contributions to the field of heterogeneous catalysis and materials chemistry. His research on alloy systems, particularly single-atom catalysts and metal-support interactions, provides foundational knowledge for the rational design of next-generation catalysts. As his collaborations and publication record expand, he is well-positioned to take on leadership roles in interdisciplinary research networks and contribute to global challenges in sustainable energy conversion.

Notable Publications

Regioselective hydroformylation of propene catalysed by rhodium-zeolite

Authors: Xiang-Jie Zhang, Tao Yan, Hua-Ming Hou, Jun-Qing Yin, Hong-Liu Wan, Xiao-Dong Sun, Qing Zhang, Fan-Fei Sun, Yao Wei, Mei Dong, Wei-Bin Fan, Jianguo Wang, Yu-Jie Sun, Xiong Zhou, Kai Wu, Yong Yang, Yong-Wang Li, Zhi Cao
Journal: Nature
Year: 2024

Catalysis of Nickel-Based gold single-atom alloy for NO-CO reaction: Theoretical insight into role of gold atom in enhancing catalytic activity

Authors: Jun-Qing Yin, Masahiro Ehara, Shigeyoshi Sakaki
Journal: Journal of Catalysis
Year: 2024

Surface modification of Fe5C2 by binding silica-based ligand: A theoretical explanation of enhanced C2 oxygenate selectivity

Authors: Jun-Qing Yin, Shu-Yuan Wang, Dan Xu, Yong You, Xing-Chen Liu, Qing Peng
Journal: Molecular Catalysis
Year: 2023

A new reaction mode of 3-halooxindoles: acting as C–C–O three-atom components for (3+3) cycloaddition to access indolenine-fused 2H-1,4-oxathiines

Authors: Ting-Jia Sun, Xue-Song Peng, Wei Sun, Yan-Ping Zhang, Xiao-Min Ma, Jian-Qiang Zhao, Zhen-Hua Wang, Yong You, Ming-Qiang Zhou, Jun-Qing Yin, Wei-Cheng Yuan
Journal: Organic Letters
Year: 2023

Theoretical exploration of properties of iron-silicon interface constructed by depositing Fe on Si(111)-(7×7)

Authors: Jun-Qing Yin, Yan-Ping Zhang, Yong You, Zhen-Hua Wang, Jian-Qing Zhao, Qiang Peng
Journal: Molecules
Year: 2023

Conclusion

Dr. Jun-Qing Yin exemplifies the qualities of an innovative and forward-thinking researcher. With a solid theoretical background, prolific scholarly output, and impactful collaborations, he continues to push the boundaries of physical chemistry and catalysis. His work not only advances scientific understanding but also lays the groundwork for technological innovations in green chemistry and energy-efficient catalysis.