Taha Sheheryar | Solar Energy Harvesting | Best Academic Researcher Award

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Mr. Taha  Sheheryar | Solar Energy Harvesting | Best Academic Researcher Award 

Harbin Engineering University| China

Mr. Taha Sheheryar is a researcher affiliated with Harbin Engineering University, China, recognized for his emerging contributions to engineering and applied sciences. With 13 publications and 64 citations across 31 scholarly documents, his research reflects a strong commitment to advancing scientific understanding in areas relevant to computational modeling, materials science, and engineering innovation. Dr. Sheheryar’s academic footprint showcases both depth and interdisciplinary engagement. His work often emphasizes precision-driven methodologies and analytical rigor, contributing to high-impact studies that bridge theoretical insights with real-world applications. Through active collaboration with 27 co-authors from diverse institutions, he has strengthened international research networks and fostered the exchange of advanced technical expertise. His contributions not only enhance the scientific literature but also support the development of technologies relevant to sustainable engineering and industrial efficiency. With a growing h-index of 5, Dr. Sheheryar continues to build a distinguished research profile characterized by innovation, scholarly integrity, and global relevance. His pursuit of excellence in engineering research underscores his role as a promising academic dedicated to addressing contemporary scientific challenges and contributing meaningfully to the global research community.

Profiles: Scopus | ORCID
Featured Publications

1. Sheheryar, T., Lv, B., Wang, X., Dong, X., Gao, L., & Xie, B. (2026, March). Ultra-wideband graphene-assisted terahertz sensor with tunable polarization conversion for chemical sensing. Materials Research Bulletin.

2. Lv, B., Sheheryar, T., Wekalao, J., & Gao, L. (2026, January). Ultra-wideband and angular-stable terahertz reflective cross-polarization converter integrated with highly sensitive biosensing. Materials Research Bulletin.

3. Sheheryar, T., Tian, Y., Lv, B., Chu, X., & Shi, J. (2025). A graphene-based tunable polarization insensitive terahertz metasurface absorber for multi-band high-efficiency applications. Journal of Materials Chemistry C.

4. Sheheryar, T., Waqar, F., Lv, B., & Gao, L. (2025). An ultra-wideband terahertz linear cross-polarization converter with integrated biosensing for multi-disease diagnosis. Journal of Materials Chemistry C.

5. Sheheryar, T., Tian, Y., Lv, B., & Gao, L. (2025). Highly sensitive polarization-independent metasurface terahertz biosensor for multi-disease diagnosis. Plasmonics.

Ramtin Moeini | Energy Production | Best Researcher Award

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Dr. Ramtin Moeini | Energy Production | Best Researcher Award

Associate Professor | University of Isfahan | Iran

Dr. Ramtin Moeini is an Associate Professor in the Department of Civil Engineering at the University of Isfahan, specializing in water engineering, hydraulic systems, and optimization of water and wastewater networks. He earned his B.Sc. in Civil Engineering from Isfahan University of Technology, followed by M.Sc. and Ph.D. degrees in Civil Engineering with a focus on Water Engineering from Iran University of Science and Technology, where his research concentrated on intelligent optimization algorithms for reservoir operation and network design. Dr. Moeini has extensive teaching experience across undergraduate, postgraduate, and Ph.D. programs in subjects including fluid mechanics, hydraulic structures, water resource system analysis, and municipal water management. His professional experience encompasses leading advanced research projects on reservoir operation, water distribution networks, and urban water management, often integrating meta-heuristic algorithms such as ant colony optimization, artificial bee colony, and hybrid computational models. He has authored numerous high-impact publications in internationally recognized journals, contributed to conference proceedings worldwide, and actively participates in research collaborations addressing water resources and hydraulic system optimization. Dr. Moeini has received multiple recognitions for his contributions, holds editorial and reviewer roles in leading journals, and is a member of professional engineering associations. His innovative work in modeling, simulation, and optimization has significantly advanced the design and management of water systems, According to Scopus, his research record includes 848 citations, 48 documents, and an h-index of 16.

Profiles: Scopus | ORCID

Featured Publications

1. (2025). Pressure management and energy production approaches in urban water distribution networks using pumps as turbines. Energy Reports.

2. (2025). Optimal operation of the non-drinking water distribution network considering future conditions: Case study of Isfahan University non-drinking water distribution network. Results in Engineering.

3. (2025). Graph theory-based algorithm to define district metered areas considering hydraulic conditions. Journal of Water Resources Planning and Management.

4. (2025). Quality simulation of dam reservoir using GP model: Case study of ZayandehRoud dam reservoir. International Journal of Environmental Science and Technology