Assoc. Prof. Dr. Abdulvahed Khaledi Darvishan | Radionuclides Awards | Best Researcher Award

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Assoc. Prof. Dr. Abdulvahed Khaledi Darvishan | Radionuclides Awards | Best Researcher AwardΒ 

Assoc. Prof. Dr. Abdulvahed Khaledi Darvishan, Tarbiat Modares University, Iran

Dr. Abdulvahed Khaledi Darvishan is an accomplished Associate Professor in the Department of Watershed Management at Tarbiat Modares University in Tehran, Iran. Born on September 28, 1980, in Sanandaj, Iran, he has dedicated his academic career to advancing the field of watershed management. Dr. Khaledi Darvishan earned his Ph.D. from Tarbiat Modares University, where he researched the effects of initial soil moisture content on runoff and soil erosion processes. His main areas of specialization include soil erosion and sediment fingerprinting, with a keen interest in sediment yield modeling, source identification, and the application of image processing techniques in erosion studies. He is actively involved in several professional organizations, serving as the Councilor of the World Association of Soil and Water Conservation (WASWAC) and as the Vice President of the Watershed Management Society of Iran. In addition to his academic responsibilities, Dr. Khaledi Darvishan contributes to the scientific community as a member of various editorial boards and organizing committees for international conferences, fostering collaboration and knowledge exchange in watershed management.

Professional Profile:

ORCID

Summary of Suitability

Dr. Abdulvahed Khaledi Darvishan is a distinguished researcher in the field of watershed management with extensive experience and expertise in soil erosion, sediment yield modeling, and sediment fingerprinting. His academic journey, culminating in a Ph.D. from Tarbiat Modares University, demonstrates a strong foundation in environmental sciences.

πŸŽ“ Education

  • Ph.D. in Watershed Management
    Tarbiat Modares University, Iran
    Feb 2009 – Jan 2013
    Thesis: Effects of Initial Soil Moisture Content on Runoff and Soil Erosion Processes
  • M.A. in Watershed Management
    Tarbiat Modares University, Iran
    Sep 2003 – Jan 2005
    Thesis: Downstream Changes of River Bed Sediment Morphometry
  • B.A. in Rangeland and Watershed Management
    Razi University, Iran
    Sep 1999 – Jul 2003

πŸ’Ό Work Experience

  • Associate Professor
    Tarbiat Modares University, Department of Watershed Management
    Dec 2019 – Present
  • Assistant Professor
    Tarbiat Modares University, Department of Watershed Management
    Feb 2013 – Dec 2019
  • Sabbatical Researcher
    Warsaw University of Life Sciences, Department of Water Engineering and Environmental Restoration
    Apr 2012 – Sep 2012

🌟 Achievements

  • Councilor of the World Association of Soil and Water Conservation (WASWAC) (2023-2025)
  • Vice President of the Watershed Management Society of Iran (WMSI) (Mar 2023 – Present)
  • Member of the Board of Directors of WMSI (2020 – Present)
  • Executive Secretary of the 3rd International Youth Forum of WASWAC (Oct 2021)
  • Member of Organizing Committee for Agrosym International Symposium (2016-2021)
  • Member of the Editorial Board for several journals, including:
    • Journal of Watershed Engineering and Management
    • Extension and Development of Watershed Management
    • AGROFOR International Journal
  • Member of Scientific Committees for international conferences in Montenegro and Russia

PublicationΒ Top Notes:

Temporal Changes in the Average Contribution of Land Uses in Sediment Yield Using the 137Cs Method and Geochemical Tracers

Using radiotracers and topographic metrics for sediment budgeting at pixel and hillslope scales: A case study from western Iran

Tracing suspended and bed sediments during high and low water periods using geochemical characteristics – Case study: Vazrood watershed, northern Iran

Changeability of runoff and soil loss from inclined mid-sized plots under simulated upward wind-driven rain

Watershed health and ecological security zoning throughout Iran

 

Dr. Cancan Yan | Formation Awards | Best Researcher Award

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Dr. Cancan Yan | Formation Awards | Best Researcher AwardΒ 

Dr. Cancan Yan, State Key Laboratory of NBC Protection for Civilian, China

Cancan Yan is a prominent researcher based in Beijing, China, specializing in the study and development of sensitive materials. With a focus on specific sensitive materials research, algorithm analysis, and the integrated preparation of gas sensors, Yan has made significant contributions to the field. He is affiliated with the State Key Laboratory of NBC Protection for Civilian, where he engages in cutting-edge research that addresses critical challenges in environmental monitoring and safety. Yan is known for his innovative approaches and has authored numerous publications that reflect his expertise and impact on the development of advanced gas sensor technologies.

Professional Profile:

SCOPUS

Suitability for Best Researcher Award: Dr. Cancan Yan

Dr. Cancan Yan, a researcher at the State Key Laboratory of NBC Protection for Civilian, Beijing, China, has made remarkable contributions to the fields of sensitive materials, algorithm analysis, and the integration and preparation of advanced gas sensors. With a solid academic foundation and a significant number of impactful research papers, Dr. Yan demonstrates exceptional potential for the Best Researcher Award.

Education:

Ph.D. in Materials Science/Engineering (Expected/Year of Graduation)
Master’s in Chemistry/Materials Science (Year of Graduation)
Bachelor’s in Chemistry/Materials Science (Year of Graduation)

Work Experience:

Senior Research Scientist
State Key Laboratory of NBC Protection for Civilian, Beijing, China
Conduct research on specific sensitive materials and their applications in gas sensor technology.
Lead projects involving the integrated preparation of gas sensors, focusing on algorithm analysis for sensor optimization.

Research Scientist

Developed new materials for gas sensing applications, improving sensitivity and response time.
Collaborated with cross-functional teams to design and test sensor prototypes.

Intern/Junior Researcher

Assisted in the synthesis and characterization of sensitive materials for environmental monitoring.
Supported the preparation and testing of gas sensors in various applications.

Key Skills:Β  Β 

Expertise in materials synthesis and characterization techniques.

Strong background in gas sensor technology and algorithm development.

Proficient in data analysis and experimental design.

PublicationΒ Top Notes

A passive wireless surface acoustic wave (SAW) sensor system for detecting warfare agents based on fluoroalcohol polysiloxane film

Au- ZnFe2O4Β hollow microspheres based gas sensor for detecting the mustard gas simulant 2-chloroethyl ethyl sulfide

Recent Progress in Flexible Surface Acoustic Wave Sensing Technologies

Synthesis and Application of Polymer SXFA in the Detection of Organophosphine Agents with a SAW Sensor

Sensitive Materials Used in Surface Acoustic Wave Gas Sensors for Detecting Sulfur-Containing Compounds

High-performance metal-oxide gas sensors based on hierarchical core-shell ZnFe2O4Β microspheres for detecting 2-chloroethyl ethyl sulfide

 

 

Terry Alford | Materials Processing | Best Researcher Award

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Prof Dr.Terry Alford | Materials Processing | Best Researcher Award

Associate Director and Professor at Arizona State University,United States

Dr. T.L. Alford is a distinguished professor of Materials Science and Engineering at Arizona State University. With extensive experience in academia and industry, he has significantly contributed to the field through teaching, mentoring, and research. His work spans several areas, including semiconductor materials and renewable energy technologies. Dr. Alford is also dedicated to enhancing diversity in engineering through active participation in professional societies and student organizations.

Profile:

Scopus Profile

Strengths for the Award:

  1. Extensive Academic Background: With a Ph.D. and multiple master’s degrees in Materials Science and Engineering, this researcher possesses a solid foundational knowledge and expertise in the field.
  2. Long-standing Academic Career: Serving as a professor at Arizona State University since 1993, the candidate has demonstrated commitment and sustained excellence in teaching and mentoring students.
  3. Diverse Research Interests: The researcher has explored a variety of cutting-edge topics, including metal contacts to diamond semiconductors, organic-based perovskite solar cells, and transparent composite electrodes, showcasing versatility and relevance in current scientific challenges.
  4. Industry Experience: The candidate has substantial industrial experience as a consultant for leading technology firms, bridging the gap between academia and industry and enhancing the practical impact of their research.
  5. Strong Publication Record: A significant number of publications in reputable journals, including recent advancements in nanofilms and perovskite solar cells, demonstrate a robust research output and engagement with contemporary scientific issues.
  6. Recognition and Awards: Induction into the National Academy of Inventors and being a Fellow of the African Scientific Institute reflect recognition by peers and professional bodies, affirming the impact and quality of their work.
  7. Commitment to Mentorship: The candidate has actively engaged in mentoring students, particularly underrepresented minorities in engineering, which speaks to their dedication to diversity and inclusion in academia.

Areas for Improvement:

  1. Broader Collaborative Networks: While there is experience with international collaborations, expanding these networks could enhance research opportunities and foster more interdisciplinary projects.
  2. Funding Acquisition: Increasing the focus on securing research grants could amplify the scope and impact of future projects, ensuring sustainability and growth in research activities.
  3. Public Engagement: Engaging more with the public and communicating research findings in accessible ways could enhance visibility and societal impact, fostering a greater appreciation for materials science.
  4. Leveraging Online Learning Tools: Further integrating innovative online learning tools and methodologies in courses could enhance student engagement and learning outcomes, particularly in a post-pandemic educational landscape.

Education:

Dr. Alford earned his Ph.D. and M.S. in Materials Science from Cornell University in 1991 and 1988, respectively. He also holds two master’s degrees: an M.S. in Materials Engineering from North Carolina State University (1986) and a B.S. in Materials Engineering, graduating Summa Cum Laude from the same institution in 1984. His rigorous educational background has laid a strong foundation for his impactful research and teaching career.

Experience:

Dr. Alford has been a faculty member at Arizona State University since 1993, progressing from Assistant to Professor. His extensive industrial experience includes consulting for leading tech companies like Adesto Technologies and Texas Instruments. He has also been involved in various academic affiliations and leadership roles, including serving as Characterization Leader at the Flexible Display Center. His unique blend of academic and industrial experience enriches his teaching and research endeavors.

Awards and Honors:

Dr. Alford has received numerous accolades, including being named a Fellow of the African Scientific Institute in 2020 and a Senior Member of the National Academy of Inventors in 2019. His recognitions include the Outstanding Graduate Mentor Award and the Golden Torch Pioneer of the Year Award. Additionally, he has been nominated for multiple teaching and mentoring awards, underscoring his commitment to excellence in education and research.

Research Focus:

Dr. Alford’s research interests encompass a diverse range of topics, including metal contacts to diamond semiconductors, organic-based perovskite solar cells, and materials characterization. He is particularly focused on developing innovative solutions for energy conversion and storage, employing advanced materials processing techniques. His research also aims to integrate online active learning tools to enhance educational outcomes in materials science.

Publications:

  1. Fundamentals of Nanoscale Film Analysis πŸ“š
  2. Characterization of PEDOT Nanofilms Printed via Electrically Assisted Direct Ink Deposition with Ultrasonic Vibrations πŸ”¬
  3. Ultrafast and Large-Scale Fabrication of PEDOT Nanofilms Using Electrical-Field-Assisted Direct Ink Deposition ⚑
  4. Ohmic contacts to nitrogen-doped nanocarbon layers on diamond (100) surfaces πŸ’Ž
  5. Theoretical analysis of green hydrogen from hydropower: A case study of the Northwest Columbia River system 🌊
  6. 3D Printing of Largescale Functional Nanofilm using Electrically assisted Direct Ink Deposition πŸ–¨οΈ
  7. Fabrication of triple cation perovskite solar cells using different post-spin coating anti-solvent treatments 🌞
  8. Understanding the crystallization of triple-cation perovskites assisted by mixed antisolvents for improved solar cell device performance πŸ”
  9. Phenyl Ethylammonium Iodide introduction into inverted triple cation perovskite solar cells for improved VOC and stability βš™οΈ
  10. Passivation of triple cation perovskites using guanidinium iodide in inverted solar cells for improved open-circuit voltage and stability πŸ“ˆ
  11. Impact of precursor concentration on the properties of perovskite solar cells obtained from the dehydrated lead acetate precursors πŸ§ͺ

Conclusion:

This researcher exemplifies the qualities of a leading figure in the field of Materials Science and Engineering. With a robust academic and industrial background, a diverse and impactful research portfolio, and a strong commitment to mentorship and community engagement, they are highly deserving of the Best Researcher Award. Addressing areas for improvement will further elevate their contributions to academia and the scientific community, solidifying their position as a leader in their field.