Forough Sanjarian | Secondary Metabolite | Best Researcher Award

Posted on by Best Paper Award

Dr. Forough Sanjarian | Secondary Metabolite | Best Researcher Award

Faculty member at National Institute of Genetic Engineering and Biotechnology (NIGEB), Tehran, Iran.

Dr. Forough Sanjarian is a seasoned plant molecular biologist affiliated with the National Institute for Genetic Engineering and Biotechnology (NIGEB), Tehran. Her interdisciplinary research bridges plant stress physiology, genetic regulation of secondary metabolites, and biomaterial applications. With over two decades of experience in academic and applied research, she has contributed significantly to understanding how environmental factors influence plant molecular responses. She has received a research scholarship from NIGEB and was a guest scientist at the University of Agricultural Sciences in Vienna, Austria.

Publication Profile

Scopus 

Orcid

Google Scholar

Education

  • Ph.D. in Biology (2001–2006)
    Razi University, Faculty of Science, in collaboration with the National Institute for Genetic Engineering and Biotechnology (NIGEB), Tehran, Iran.

  • M.Sc. in Biology (1995–1998)
    Tehran University, Faculty of Science, Iran.

  • B.Sc. in Biology (1991–1995)
    Isfahan University, Faculty of Science, Iran.

Professional Experience

Dr. Sanjarian has served as a Researcher at the National Institute for Genetic Engineering and Biotechnology (NIGEB) since 2002, contributing to advancements in plant biotechnology, genetic expression, and stress physiology. She previously worked as an Invited Tutor in Molecular Biology at Azad University (1998–2006), where she taught and mentored undergraduate and graduate students.

Research Interest 

  • Plant molecular biology and gene expression under abiotic stress

  • Secondary metabolite biosynthesis (e.g., monoterpenes, thymol)

  • Hormetic responses to low-dose gamma irradiation

  • Genetic engineering for enhanced oil and metabolite production in plants

  • Development of biomaterials for medical applications (e.g., wound dressings)

Google Scholar Profile (est.):

  • Total Citations: ~500+

  • h-index: ~10

  • Most Cited Paper: Nigella sativa anti-inflammatory study, 160 citations

Top Noted Publication

Anti-inflammatory Effect of Seeds and Callus of Nigella sativa L. Extracts on Mix Glial Cells with Regard to Their Thymoquinone Content

  • Journal: AAPS PharmSciTech
  • Citation: 160
  • Year: 2013
The effects of nanoencapsulated curcumin-Fe3O4 on proliferation and hTERT gene expression in lung cancer cells
  • Journal: Anti-Cancer Agents in Med. Chem.
  • Citation: 80
  • Year: 2017
Changes in Antioxidant Enzymes Activities and Proline, Total Phenol and Anthocyanin Contents in Hyssopus officinalis L. Plants Under Salt Stress
  • Journal: Acta Biologica Hungarica
  • Citation: 57
  • Year: 2016
Transcriptional Responses in Root Tissue of Bread Wheat Reveal Drought Avoidance Mechanisms
  • Journal: PLOS ONE
  • Citation: 37
  • Year: 2019
Comparative Study of Magnetic Nanoparticles in Plasmid DNA Extraction
  • Journal: Analytical Biochemistry
  • Citation: 36
  • Year: 2016

Conclusion

Dr. Zhigang Shang is a highly deserving candidate for the Best Researcher Award in Engineering. His cutting-edge research in underwater acoustics, national defense systems, and intelligent sensing platforms, combined with leadership roles, innovation output, and national-level recognition, make him a standout nominee. While international exposure and citation breadth could be further enhanced, his contributions already position him as a strategic research leader with real-world impact.

 

Zhigang Shang | Engineering | Best Researcher Award

Posted on by Best Paper Award

Dr. Zhigang Shang | Engineering | Best Researcher Award

Professor at Harbin Engineering University, China.

Dr. Zhigang Shang is a leading expert in underwater acoustic engineering and marine information systems. He serves as Deputy Director of the Key Laboratory of Marine Information Acquisition and Security at Harbin Engineering University. With a Ph.D. from the Chinese Academy of Sciences and extensive experience in national defense research, he has led and participated in over 20 major national and military R&D projects. Dr. Shang is widely published, holding more than 50 patents and authoring 7 monographs. He is actively involved in multiple editorial and advisory boards and has received numerous national awards for innovation and excellence in unmanned and acoustic system technologies.

Publication Profile

Scopus 

Education

Dr. Zhigang Shang earned his Bachelor’s degree in Electronic Information Engineering (Underwater Acoustics) from Harbin Engineering University in 2010. He then completed his Ph.D. at the Institute of Acoustics, Chinese Academy of Sciences, in 2015, where he specialized in acoustic signal processing and underwater sensing technologies.

Professional Experience

Dr. Shang began his professional career in July 2015 at the China Academy of Electronic Sciences, where he worked until October 2021. Following this, he held a short tenure at the China Star Network Innovation Research Institute until April 2022. Since then, he has been a faculty member at Harbin Engineering University, where he currently serves as the Deputy Director of the Key Laboratory of Marine Information Acquisition and Security, under the Ministry of Industry and Information Technology.

Dr. Shang holds several academic and professional positions, including:

  • Young Editorial Board Member of Piezoelectric and Sound and Light, Journal of Unmanned Systems, and Journal of Harbin Engineering University.

  • Senior Member of the Chinese Institute of Electronics.

  • Secretary General of the Youth Working Committee of the Acoustics Society.

  • Mentor at the Beijing Institute of Technology.

  • Recognized leader in Underwater Acoustic Engineering as noted in the Blue Book of the Chinese Academy of Engineering.

Research Interest 

Dr. Shang’s research focuses on:

  • Underwater acoustics

  • Marine information acquisition

  • Unmanned systems

  • Intelligent sensing

  • Signal processing

  • Acoustic stealth and detection technologies

  • Multimodal marine data fusion

He is particularly recognized for his contributions to unmanned underwater and aerial platforms, with practical applications in military defense, marine security, and autonomous systems.

Author Metrics

  • Academic Publications: 50+ peer-reviewed papers

  • National Invention Patents: 50+

  • Software Copyrights: 10+

  • Books/Monographs: 7

  • Major R&D and Military Projects: 20+

Awards:

  • Best Paper Award, 2022 International Unmanned Systems Conference
  • Excellence Award, 2023 China Conversion Application Competition
  • Multiple awards in national UAV and underwater platform competitions
  • Provincial Excellent Youth Fund recipient
  • National Key R&D Young Scientist designation

Top Noted Publication

1. DOA Estimation Exploiting a Single Moving Acoustic Vector Sensor: A Cramér-Rao Bound-Based Study

Authors: Qu, Xinghao; Shang, Zhigang; Qiao, Gang; Liu, Songzuo
Published in: IEEE Transactions on Vehicular Technology, 2025
Citation Count: 0 (as of now)
Summary:
This study presents a novel method for Direction of Arrival (DOA) estimation using a single moving Acoustic Vector Sensor (AVS). The methodology is evaluated through a Cramér-Rao Bound (CRB)-based framework, providing theoretical limits and accuracy benchmarks for DOA performance. The results are particularly relevant for mobile underwater acoustic platforms and defense-related sensing systems.

2. Cross-Domain Communication Buoy System Based on Optimal Communication Link Selection

Authors: Xing, Minghan; Shang, Zhigang; Qiao, Gang; Li, Tianshui; Xie, Jiaxuan
Published in: Journal of Unmanned Undersea Systems, 2024
Citation Count: 0 (as of now)
Summary:
This paper introduces an innovative communication buoy system that optimizes cross-domain (air-sea) communication via dynamic link selection algorithms. The system enhances signal reliability and adaptability across varying marine environments, contributing significantly to unmanned maritime system interoperability and real-time data exchange.

Conclusion

Dr. Zhigang Shang is a highly deserving candidate for the Best Researcher Award in Engineering. His cutting-edge research in underwater acoustics, national defense systems, and intelligent sensing platforms, combined with leadership roles, innovation output, and national-level recognition, make him a standout nominee. While international exposure and citation breadth could be further enhanced, his contributions already position him as a strategic research leader with real-world impact.

 

Ali Palizdar | Natural gas liquefaction | Best Researcher Award

Posted on by Best Paper Award

Dr. Ali Palizdar | Natural gas liquefaction | Best Researcher Award

Dr. Ali Palizdar, Institute of Liquefied Natural Gas (ILNG), University of Tehran, Tehran, Islamic Republic of Iran

Dr. Ali Palizdar is a researcher at the Institute of Liquefied Natural Gas (ILNG), University of Tehran, Iran. He holds a Master’s (2012) and Ph.D. (2019) in Chemical Engineering and completed a postdoctoral research fellowship at the University of Tehran. With over 10 years of experience in natural gas liquefaction, his research focuses on LNG processing, helium separation, and gas conversion. Dr. Palizdar has authored 17 publications and supervised 15 graduate theses. He has contributed significantly to Iran’s LNG industry through various research and consultancy projects. 🌍💡📚

Publication Profile

Google Scholar

Academic and Professional Background

Dr. Ali Palizdar holds a Master’s (2012) and Ph.D. (2019) in Chemical Engineering from the University of Tehran and Tarbiat Modares University, respectively. Following his postdoctoral research at the University of Tehran, his work has focused on natural gas liquefaction, helium separation, and conversion. With over 10 years of experience at the Institute of Natural Gas Liquefaction, Dr. Palizdar has developed a deep expertise in LNG technologies, both in Iran and globally. He has supervised 15 graduate theses and authored 17 research publications in prestigious journals and conferences. 📚💡

Research and Innovations

Dr. Ali Palizdar has led numerous groundbreaking research projects in the field of natural gas liquefaction (LNG) and energy optimization. His work includes categorizing LNG standards in Iran, developing small-scale LNG units, and conducting environmental studies on LNG as fuel for maritime and road transportation. He has overseen the design of a 15-tonne/day LNG liquefaction plant and developed a master plan for an LNG research institute. Dr. Palizdar has also contributed to optimizing sport venues, exergy analysis for fuel cells, and investigating mixed refrigerant processes for LNG liquefaction. 🌍💡🔋

Areas of Research 🌍🔬

Dr. Ali Palizdar’s research primarily focuses on natural gas liquefaction and cryogenics, crucial for advancing energy solutions. His work in alternative fuels explores sustainable energy sources, particularly in the transportation sector, by examining the use of liquefied natural gas (LNG) as an eco-friendly fuel for both maritime and road transport. With deep expertise in cryogenic processes, he aims to improve LNG production, storage, and transportation efficiency. Through these innovative areas, Dr. Palizdar contributes significantly to energy sustainability and environmental impact reduction. 🌱💡🚗

Publication Top Notes

  • Advanced exergetic analysis of five natural gas liquefaction processes – A Vatani, M Mehrpooya, A Palizdar, Energy Conversion and Management 78, 720-737 (Cited by: 225) 📊 (2014)
  • Energy and exergy analyses of five conventional liquefied natural gas processes – A Vatani, M Mehrpooya, A Palizdar, International Journal of Energy Research 38 (14), 1843-1863 (Cited by: 145) 🔋 (2014)
  • Energy and exergy analysis and optimal design of the hybrid molten carbonate fuel cell power plant and carbon dioxide capturing process – J Yazdanfar, M Mehrpooya, H Yousefi, A Palizdar, Energy Conversion and Management 98, 15-27 (Cited by: 87) ⚡ (2015)
  • Catalytic upgrading of biomass pyrolysis oil over tailored hierarchical MFI zeolite: effect of porosity enhancement and porosity-acidity interaction on deoxygenation reactions – A Palizdar, SM Sadrameli, Renewable Energy 148, 674-688 (Cited by: 62) 🌱 (2020)
  • Catalytic upgrading of beech wood pyrolysis oil over iron-and zinc-promoted hierarchical MFI zeolites – A Palizdar, SM Sadrameli, Fuel 264, 116813 (Cited by: 61) 🌳 (2020)
  • Thermodynamic evaluation of three mini-scale nitrogen single expansion processes for liquefaction of natural gas using advanced exergy analysis – A Palizdar, T Ramezani, Z Nargessi, S AmirAfshar, M Abbasi, A Vatani, Energy Conversion and Management 150, 637-650 (Cited by: 42) 🔥 (2017)
  • Advanced exergoeconomic evaluation of a mini-scale nitrogen dual expander process for liquefaction of natural gas – A Palizdar, T Ramezani, Z Nargessi, S AmirAfshar, M Abbasi, A Vatani, Energy 168, 542-557 (Cited by: 34) 💡 (2019)
  • Conventional and advanced exergoeconomic analyses applied to ethylene refrigeration system of an existing olefin plant – A Palizdar, SM Sadrameli, Energy Conversion and Management 138, 474-485 (Cited by: 25) 🔧 (2017)
  • Simulation and optimization of sweetening and dehydration processes in the pretreatment unit of a mini-scale natural gas liquefaction plant – F Zarezadeh, A Vatani, A Palizdar, Z Nargessi, International Journal of Greenhouse Gas Control 118, 103669 (Cited by: 12) 🌍 (2022)
  • Design and analysis of a novel self-refrigerated natural gas liquefaction system integrated with helium recovery and CO2 liquefaction processes