Xinyang He | Thermoelectric Fiber | Young Researcher Award

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Assoc. Prof. Dr. Xinyang He | Thermoelectric Fiber | Young Researcher Award

Associate Professor | Nantong University | China

Xinyang He is an Associate Professor at the College of Textiles and Clothing, Nantong University, with research expertise in thermoelectric fibers, smart textiles, and optical-thermal-electrical sensor devices. He completed his doctoral studies in Textile Engineering at Donghua University and was selected for the prestigious Young Talent Support Program of the China Association for Science and Technology. He has been recognized as an outstanding graduate and received government sponsorship to pursue collaborative research with Professor Ouyang Jianyong at the National University of Singapore. He has also led competitive research projects supported by national and institutional funding programs. Dr. He has established a strong research profile, publishing widely in leading international journals such as Nature Communications, Advanced Functional Materials, ACS Nano, and Engineering, with several of his papers recognized among the most highly cited in their field. His work is widely referenced, reflecting the influence of his contributions to wearable energy-harvesting technologies and advanced textile applications. Beyond research, he actively supports the scientific community as a member of the Young Editorial Board for several journals, including Chinese Chemical Letters, Carbon Neutralization, Clean Energy Science and Technology, and Renewable and Sustainable Energy, while also serving as editorial assistant for Research and Textile Research Journal and as a reviewer for multiple other journals. In addition, he has contributed scholarly works to international publications, including a book chapter on thermoelectric materials and devices in Wiley’s Electrospinning. His achievements reflect his dedication to advancing smart materials and innovative textile engineering.

Profile:   ORCID  |  Google Scholar

Featured Publications

He, X., Gu, J., Hao, Y., Zheng, M., Wang, L., Yu, J., & Qin, X. (2022). Continuous manufacture of stretchable and integratable thermoelectric nanofiber yarn for human body energy harvesting and self-powered motion detection. Chemical Engineering Journal, 450, 137937.

He, X., Shi, J., Hao, Y., He, M., Cai, J., Qin, X., Wang, L., & Yu, J. (2022). Highly stretchable, durable, and breathable thermoelectric fabrics for human body energy harvesting and sensing. Carbon Energy, 4(4), 621–632.

Sun, Z., Feng, L., Xiong, C., He, X., Wang, L., Qin, X., & Yu, J. (2021). Electrospun nanofiber fabric: An efficient, breathable and wearable moist-electric generator. Journal of Materials Chemistry A, 9(11), 7085–7093.

Hao, Y., Yan, Q., Liu, H., He, X., Zhang, P., Qin, X., Wang, R., Sun, J., Wang, L., & Yu, J. (2023). A stretchable, breathable, and self-adhesive electronic skin with multimodal sensing capabilities for human-centered healthcare. Advanced Functional Materials, 33(44), 2303881.

He, X., Hao, Y., He, M., Qin, X., Wang, L., & Yu, J. (2021). Stretchable thermoelectric-based self-powered dual-parameter sensors with decoupled temperature and strain sensing. ACS Applied Materials & Interfaces, 13(50), 60498–60507.

He, X., Shi, J., Hao, Y., Wang, L., Qin, X., & Yu, J. (2021). PEDOT:PSS/CNT composites based ultra-stretchable thermoelectrics and their application as strain sensors. Composites Communications, 27, 100822.

Hao, Y., He, X., Wang, L., Qin, X., Chen, G., & Yu, J. (2022). Stretchable thermoelectrics: Strategies, performances, and applications. Advanced Functional Materials, 32(13), 2109790.

He, X., Li, B., Cai, J., Zhang, H., Li, C., Li, X., Yu, J., Wang, L., & Qin, X. (2023). A waterproof, environment-friendly, multifunctional, and stretchable thermoelectric fabric for continuous self-powered personal health signal collection at high humidity. SusMat, 3(5), 709–720.

Arash NourbakhshSadabad | Renewable Energy | Best Researcher Award

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Dr. Arash NourbakhshSadabad | Renewable Energy | Best Researcher Award

Dr.  Arash NourbakhshSadabad, University of Tabriz, Iran

Dr. Arash NourbakhshSadabad is a distinguished researcher, academic, and innovator in the field of mechanical engineering with expertise in energy conversion, fluid mechanics, and thermodynamics. He completed his Bachelor’s, Master’s, and PhD degrees in Mechanical Engineering at Tabriz University with an excellent academic record,  during his doctoral studies. Alongside his academic journey, he has been a lecturer at Tabriz University, teaching key courses such as heat transfer, thermodynamics, fluid mechanics, and turbomachinery while also serving as a research assistant in advanced projects. He has authored and co-authored several books and published numerous articles in reputable international and national journals, focusing on areas such as cavitation, renewable energy systems, hydrogen production, exergy analysis, and aerodynamic studies. His innovative contributions are highlighted by multiple patents, including compact and foldable hydraulic seats, a fan umbrella with sunlight detection capabilities, and self-retractable sunshades for vehicles. In addition to academia, he is the CEO of Bornafidar Rasa Company, where he has overseen projects introducing pioneering technologies in Iran, including handheld sprays, 3D spacer mesh devices, vacuum forming machines, and GPC wall panels. His excellence has been recognized with prestigious honors, including being named an exemplary student of Tabriz University, recognition from the Alborz Foundation and Elite Foundation, and multiple awards at the International Harakat Festival for innovation and creativity. He has also held leadership positions such as secretary-general of national mechanical and scientific associations, promoting collaboration and advancing academic and industrial growth. Skilled in engineering tools such as ANSYS, CATIA, MATLAB, Python, and OpenFOAM, he continues to bridge the gap between research, teaching, and industry. His career reflects a deep commitment to advancing mechanical engineering, renewable energy technologies, and innovative solutions, marking him as a rising leader in the global engineering community.

Profile : Google Scholar 

Featured Publications

Nourbakhsh, A., Nami Khalilehdeh, M., Faramarzi, S., & Mafi, M. (2021). Energy, exergy and economic analysis of a hydrogen liquefaction process integrated with a PRICO cycle. Gas Processing Journal, 9(2), 83–102.

Aryanfar, Y., Keçebaş, A., Nourbakhsh Sadabad, A., Alcaraz, J. L. G., Fernandez, J. B., & Wu, W. (2024). Production of biodiesel from industrial sludge: Recent progress, challenges, perspective. Processes, 12(11), 2517.

Nourbakhshsadabad, A., Nami Khalilehdeh, M., Abdollahi, S. A., & Ranjbar, F. (2024). A review of the methods of experimental detection and vibration effects of cavitation phenomenon in centrifugal pump. Journal of Pump, 39(54), 15–32.

Aryanfar, Y., Nourbakhsh Sadabad, A., Nami Khalilehdeh, M., Keçebaş, A., Mirzaei, F., & others. (2024). Synthetic biodegradable polymers as adsorbents of dyes. Elsevier.

Zonouzi, P., Nami Khalilehdeh, M., Nourbakhsh, A., Khajehnasiri, A., & others. (2023). Modeling and emission analysis of a Wankel internal combustion engine through EES software. Gas Processing Journal, 11(2), 1–10.

Saeed Shahrokhian | FRP in Renewable Energy | Best Researcher Award

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Prof. Saeed Shahrokhian | FRP in Renewable Energy | Best Researcher Award

Academic Staff at Sharif University of Technology, iran

Saeed Shahrokhian is a distinguished professor in the Department of Chemistry at Sharif University of Technology, Tehran, Iran. With a strong background in analytical and electrochemistry, he has made significant contributions to the field, particularly in the development of chemically modified electrodes and nanostructured materials. His research focuses on electrochemical energy storage, biosensors, and water-splitting applications. Over the years, he has been recognized for his academic excellence, research impact, and mentorship, earning numerous accolades from national and international institutions.

profile

ORCID

Education

Saeed Shahrokhian earned his B.Sc., M.Sc., and Ph.D. in Chemistry from Isfahan University in 1990, 1994, and 1999, respectively. His academic journey has been defined by rigorous research in analytical chemistry and electrochemical applications, laying the foundation for his later work in sensor technology and nanomaterials.

Experience

Dr. Shahrokhian began his academic career as an Assistant Professor at Sharif University of Technology in 2000. He was promoted to Associate Professor in 2004 and later attained the rank of Full Professor in 2008. Throughout his career, he has been instrumental in advancing analytical chemistry education and research. His expertise spans a variety of fields, including electroanalytical chemistry, reaction mechanisms in electrochemistry, and bioelectrochemistry.

Research Interests

Dr. Shahrokhian’s research focuses on the design and application of chemically modified electrodes (CMEs), nanostructured materials, and biosensors. He has worked extensively on electrochemical energy storage and conversion devices, capacitive deionization, and electrocatalytic water splitting. His studies also include the development of aptamer-based electrochemical biosensors for detecting cancer biomarkers and pathogenic bacteria, contributing significantly to both environmental and biomedical sciences.

Awards

Dr. Shahrokhian has received several prestigious awards, including the Distinguished Researcher Award from the Ministry of Science, Research, and Technology in Iran (2012, 2017). He has been recognized as a Highly Cited Researcher at Sharif University of Technology and has been listed among the top 1% of highly cited international scientists by ISI Web of Knowledge (2012-2024). His contributions to education have also been acknowledged through multiple “Superior Educational Master” awards from Sharif University of Technology.

Selected Publications

Amini, M. K., Shahrokhian, S., Tangestaninejad, S. (1999). PVC-based Mn(III) Porphyrin Membrane-Coated Graphite Electrode for Determination of Histidine. Analytical Chemistry, 71(13), 2502-2505. Cited by 300 articles.

Shahrokhian, S. (2001). Lead Phthalocyanine as a Selective Carrier for Preparation of a Cysteine-Selective Electrode. Analytical Chemistry, 73(24), 5972-5978. Cited by 250 articles.

Shahrokhian, S., Yazdani, J. (2003). Electrocatalytic Oxidation of Thioglycolic Acid at Carbon Paste Electrode Modified with Cobalt Phthalocyanine. Electrochimica Acta, 48, 4143-4148. Cited by 220 articles.

Shahrokhian, S., Seifi, H., Bagherzadeh, M. (2004). Effects of Ion-Carrier Substituents on the Potentiometric Response Characteristics in Anion-Selective Membrane Electrodes Based on Iron Porphyrins. ChemPhysChem, 5, 652-660. Cited by 190 articles.

Shahrokhian, S., Ghalkhani, M. (2009). Application of Carbon-Paste Electrode Modified with Iron Phthalocyanine for Voltammetric Determination of Epinephrine. Sensors and Actuators B: Chemical, 137, 669-675. Cited by 180 articles.

Shahrokhian, S., Salimian, R. (2018). Ultrasensitive Detection of Cancer Biomarkers Using Conducting Polymer/Electrochemically Reduced Graphene Oxide-Based Biosensor. Sensors and Actuators B, 266, 160-169. Cited by 210 articles.

Shahrokhian, S., Hosseini, H. (2019). Vanadium Dioxide-Anchored Porous Carbon Nanofibers as a Na+ Intercalation Pseudocapacitance Material for Energy Storage Systems. Applied Materials Today, 10, 72-85. Cited by 170 articles.

Conclusion

With his outstanding scientific contributions, high-impact research, and commitment to education, Professor Saeed Shahrokhian exemplifies the qualities of an exceptional researcher. His groundbreaking studies in electrochemical energy storage, biosensors, and nanotechnology have transformed the field and influenced global research directions. His recognitions, publication record, and dedication to advancing science make him a highly deserving candidate for the Best Researcher Award.