Mohsen Saeidi | Electrocatalysts | Best Researcher Award

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Dr. Mohsen Saeidi | Electrocatalysts | Best Researcher Award

Dr. Mohsen Saeidi, Sharif University of Technology, SUT, Iran

Dr. Mohsen Saeidi is a postdoctoral researcher at the Center of Nanomaterials and Advanced Materials (CNAM), Sharif University of Technology. Specializing in electrocatalyst design for sustainable energy applications, he combines experimental techniques with computational modeling to advance clean energy solutions. With extensive experience in alkaline water electrolysis and CO reduction, Dr. Saeidi has led research projects, mentored students, and contributed to the scientific community through publications, patents, and interdisciplinary collaborations. His dedication to clean energy innovation is evident in his groundbreaking research and leadership.

Publication Profile

Google Scholar

🎓 Education

Dr. Mohsen Saeidi earned his Ph.D. in Materials Science and Engineering from Sharif University of Technology, focusing on gold nanostructure-decorated 3D-graphene for supercapacitors and biosensors. He completed a Ph.D. exchange at Pohang University of Science & Technology. He also holds an M.Sc. in Materials Science from Iran University of Science & Technology and a B.Sc. in Materials Science from Bu-Ali Sina University. His academic journey has equipped him with expertise in electrochemical systems, computational modeling, and catalyst design.

💼 Experience

Dr. Saeidi has served as a postdoctoral fellow at Sharif University of Technology, leading research on high-entropy catalysts for electrochemical applications. He also worked as a research engineer at the Chemistry and Chemical Engineering Research Center of Iran, developing catalysts for ammonia-SCR of NOx. As a conference moderator and instructor, he has facilitated knowledge exchange in the materials science community. Additionally, he co-founded a startup on conductive inks using Ti3C2T MXene and served as a research and development manager, directing AI-based industrial projects.

🏆 Awards and Honors

Dr. Saeidi has received recognition for his contributions to sustainable energy research, including grants for interdisciplinary projects on solar reactors and wastewater treatment. His achievements in catalyst design and industrial implementation have earned him prestigious fellowships and conference invitations. As a peer-reviewer for leading journals, he has actively contributed to the scientific discourse. His efforts in mentoring graduate students and fostering international collaborations further exemplify his commitment to advancing clean energy solutions.

🔎 Research Focus

Dr. Saeidi’s research centers on electrocatalyst design for water splitting, CO2 reduction, and clean energy generation. His expertise includes developing high-entropy catalysts, investigating reaction mechanisms through DFT simulations, and enhancing electrode performance using meta-material designs. He has explored bubble dynamics on 3D-printed electrodes, achieved scalable CO valorization using Ag-MOF-modified catalysts, and pioneered photoelectrochemical devices for seawater oxidation. His work integrates experimental insights with computational analysis to address critical challenges in sustainable energy production.

Publication Top Notes

📄 Co-doping a metal on Mn/ZSM-5 catalyst for NOx reduction | Cited by: 47 (2017)
📄 Hydrogel-based wearable biosensors and bioelectronic devices | Cited by: 31 (2023)
📄 Seed-induced synthesis of ZSM-5 aggregates using Silicate-1 | Cited by: 29 (2018)
📄 Challenges and advances in hydrogel-based wearable biosensors | Cited by: 28 (2024)
📄 Multilayered mesoporous composites for cardiac troponin-I detection | Cited by: 17 (2022)
📄 Hierarchical nanocrystalline ZSM-5 using modified seeding method | Cited by: 16 (2020)
📄 Metallic nanocluster-functionalized MOFs for morphine monitoring | Cited by: 9 (2023)
📄 ZrO2–Al2O3–TiO2 composites synthesized via citrate–nitrate process | Cited by: 9 (2015)
📄 Ultrafast graphitization of graphene oxide for supercapacitors | Cited by: 8 (2021)
📄 Efficient electrochemical CO2 conversion with modified MOFs | Cited by: 6 (2023)
📄 Nanocomposites in the Al2O3–TiO2–ZrO2 system via ultrasonic co-precipitation | Cited by: 2 (2012)
📄 Mass transfer modeling of hydrogen bubbles on textured electrodes (2025)
📄 Photoelectrochemical seawater oxidation using tri-metallic catalysts  (2025)
📄 AI-assisted hydrogel patches for sweat monitoring (2025)
📄 Selective Catalyst Reduction of NOx with Mn/ZSM-5  (2016)
📄 Performance of Co-, Fe- and Mn/ZSM-5 in NOx reduction  (2014)
📄 Phase transformation of Al2O3, TiO2, and ZrO2 nanocomposites  (2012)
📄 Ultrasonic-assisted synthesis of Al2O3–TiO2–ZrO2 nanocomposites (2011)

 

Davit Davtyan | Catalyst | Best Researcher Award

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Dr. Davit Davtyan | Catalyst | Best Researcher Award

Dr. Davit Davtyan, Institute of Chemical Physics named after A.B. Nalbandyan NAS RA, Armenia

Dr. Davit Davtyan is an accomplished researcher and educator in the field of chemical sciences, specializing in catalysis, materials synthesis, and chemical analysis. He holds a Bachelor’s and Master’s degree in Chemistry from Yerevan State University, Armenia, and earned his Candidate of Chemical Sciences title from the Institute of Chemical Physics after A.B. Nalbandyan NAS RA in 2021. With extensive training in advanced analytical techniques across Italy, Estonia, and Finland, Dr. Davtyan is currently the Head of the Laboratory of Catalysis at the Institute of Chemical Physics, Yerevan. His research interests include the synthesis of nanopowders, catalytic processes, and the application of microwave-assisted methods in materials chemistry. He has authored several publications in prestigious journals such as Ceramics International and Chemical Engineering Journal. 🧪🔬

Publication Profile

Orcid

Education & Training 🎓

Dr. Davit Davtyan, born on September 7, 1987, is an Armenian scientist with extensive training in chemistry and analytical sciences. He earned his Bachelor’s and Master’s degrees with honors in Applied Chemistry and Chemistry from Yerevan State University. Dr. Davtyan obtained his Candidate of Chemical Sciences degree from the Institute of Chemical Physics, NAS RA, in 2021. He has completed various specialized training courses, including MS-TOF and LC-MS Method Validation in Italy, Germany, Estonia, and Finland. His expertise extends to analytical instruments such as HPLC, UHPLC, GC, and elemental analyzers. Dr. Davtyan’s contact details are provided for further inquiries. 📚🔬

Work Experience 💼

Dr. Davit Davtyan has an extensive career in the field of chemical physics and catalysis. He is currently the Head and Acting Head of the Laboratory of Catalysis at the Institute of Chemical Physics after A.B. Nalbandyan, where he has been a researcher since 2021. Previously, he held the position of Junior Researcher at the same institution from 2016 to 2021. Dr. Davtyan also led the Medical Devices Registration Department at the Scientific Center of Drug and Medical Technology Expertise (2018–2021). His earlier roles include technical management and senior analysis in various research centers. Dr. Davtyan served as a Senior Sergeant and expert in chemical weapons defense in the RA Armed Forces. 🔬🧪

Research Focus 🔬🧪

Dr. Davit Davtyan’s research primarily focuses on the synthesis and catalytic applications of advanced materials, particularly carbides and nanopowders. His work includes the development of microwave-assisted synthesis techniques for producing various carbide-based catalysts like molybdenum and tungsten carbides, and their use in hydrogenation, desulfurization, and other catalytic reactions. He also explores the properties of rare-earth hexaborides, boron monophosphide, and rhenium diboride nanopowders for industrial applications. His contributions extend to enhancing the efficiency of catalytic processes, especially in fuel and environmental technologies. Dr. Davtyan’s expertise includes material characterization, catalyst design, and sustainable chemical processes. ⚗️🌍

Publication Top Notes

  • Microwave-Assisted Synthesis and Catalytic Activity of Nano-Sized Molybdenum Carbide in Naphthalene Hydrogenation – DOI: 10.2139/ssrn.4930994, 2024 | 🔬📈
  • Rapid Microwave-Assisted Synthesis of Rare-Earth Hexaborides Powders – DOI: 10.1177/17436753241302225, 2024 | ⚡💥
  • Catalytic Aerobic Desulfurization of Fuels in the Presence of Nanosized Mixed Carbide FeWC – DOI: 10.1016/j.cej.2023.142641, 2023 | 🔬💡
  • Microwave-Assisted Synthesis of Boron Monophosphide Nanopowder – DOI: 10.1016/j.ceramint.2022.10.330, 2023 | 🔄✨
  • Catalysts Based on Molybdenum Carbide Modified with Nickel and Alumina in Hydrogenation of Hydrocarbons and Hydrodesulfurization – DOI: 10.1134/s0040579522040042, 2022 | ⚙️🛢️
  • New Type of Catalyst for Efficient Aerobic Oxidative Desulfurization Based On Tungsten Carbide Synthesized by the Microwave Method – DOI: 10.1021/acsomega.1c06969, 2022 | 🔬🌿
  • Superhard B4C-ReB2 Composite by SPS of Microwave Synthesized Nanopowders – DOI: 10.1016/j.matlet.2020.129163, 2021 | 💪⚡
  • Hydrogenation of Alkenes on Molybdenum and Tungsten Carbides – DOI: 10.1134/s0040579520050036, 2020 | 🔬🔋
  • Microwave Synthesis of B4C Nanopowder for Subsequent Spark Plasma Sintering – DOI: 10.1016/j.jmrt.2019.09.052, 2019 | ⚡🧪
  • Microwave-Assisted Preparation and Characterization of Nanoscale Rhenium Diboride – DOI: 10.1016/j.ceramint.2018.08.359, 2018 | 🔬⚙️
  • Direct Reduction of Ammonium Molybdate to Elemental Molybdenum by Combustion Reaction – DOI: 10.1016/j.cej.2011.01.080, 2011 | 🔥🧪
  • Reduction of MoO3 by Zn: Reducer Migration Phenomena – DOI: 10.1016/j.ijrmhm.2010.05.005, 2010 | 🔄⚙️

 

Min Zhu | Electrocatalysis | Best Researcher Award

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Prof. Min Zhu | Electrocatalysis | Best Researcher Award

professor, at Qiqihar University, China.

🎓 Zhu Min, born on April 12, 1994, is a professor at Qiqihar University specializing in electrochemical water splitting. She has demonstrated exceptional expertise in materials science and engineering, with a strong focus on hydrogen energy applications. Zhu has earned a distinguished reputation through her pioneering work in catalyst development for hydrogen evolution and oxygen evolution reactions. Her research has resulted in numerous high-impact publications and significant contributions to advancing sustainable energy solutions. Zhu is deeply committed to fostering innovation in energy technologies and empowering the next generation of researchers in this field.

Professional Profile

ORCID

Educational Background

🎓 Zhu Min pursued her higher education at Harbin Engineering University (2016–2021), enrolling in successive postgraduate and doctoral programs in Materials Science and Engineering. Her doctoral studies were marked by her innovative work on electrochemical water splitting, particularly focusing on bifunctional catalysts for hydrogen and oxygen evolution reactions. Zhu’s comprehensive education has equipped her with a robust foundation in material synthesis, interface engineering, and advanced characterization techniques, allowing her to address complex challenges in renewable energy research. Her educational journey reflects a blend of theoretical knowledge and practical expertise essential for groundbreaking advancements in clean energy technologies.

Professional Experience

💼 Zhu Min is a professor at Qiqihar University, where she leads research initiatives in electrochemical water splitting. Her professional journey has been defined by extensive experience in designing efficient catalysts, exploring material interfaces, and conducting in-depth studies on hydrogen energy systems. Zhu actively mentors students and collaborates with global researchers to push the boundaries of renewable energy science. Her expertise in hydrogen energy applications positions her as a leading voice in sustainable energy innovation.

Research Interests

🔬 Zhu Min’s research focuses on electrochemical water splitting for hydrogen production. Her interests include:

  1. Development of bifunctional catalysts for hydrogen evolution (HER) and oxygen evolution reactions (OER).
  2. Interface engineering of transition metal compounds.
  3. Exploring sustainable energy conversion and storage solutions.
  4. Applying advanced nanostructures to improve catalytic efficiency in acidic and alkaline media.
    Zhu’s interdisciplinary approach bridges materials science, energy engineering, and electrochemistry to address global energy challenges.

Awards and Recognitions

🏆 Zhu Min has earned several prestigious accolades in recognition of her contributions to materials science and energy research. These awards reflect her dedication and excellence in advancing hydrogen energy technologies:

  1. Best Research Paper Award in Hydrogen Energy Applications.
  2. Recognition as a Top Emerging Researcher in renewable energy by an international academic association.
  3. Multiple grant awards for groundbreaking research in sustainable energy.

Top Notes Publications

📚 Zhu Min’s publications demonstrate her impactful contributions to materials science and electrochemistry. A few key publications include:

  • Zhu, M., Tang, P.C., et al. (2025). Interface engineering of NiSe2/FeSe2 for efficient UOR and OER. International Journal of Hydrogen Energy, 102, 626-634. [Cited by 30 articles].
  • Lv, C.M., Sun, C., Zhu, M., et al. (2024). One-step construction of Fe0.5Mo0.5Se2 with P doping. International Journal of Hydrogen Energy, 51, 413-422. [Cited by 25 articles].
  • Zhu, M., Yan, Q., et al. (2022). Free-standing P-doped NiSe2/MoSe2 heterostructure for HER. ACS Sustainable Chemistry & Engineering, 10, 279-287. [Cited by 45 articles].

Conclusion

Zhu Min is an exceptional candidate for the Best Researcher Award. Her extensive publication record, groundbreaking contributions to electrochemical water splitting, and leadership role as a professor at a young age make her highly deserving of recognition. Addressing the areas for improvement, particularly by expanding her global presence and demonstrating the real-world application of her research, could further solidify her candidacy. Based on her current achievements, Zhu Min represents a strong contender for this award.