Ms. Yossra Ounis Dkhil | Nanomaterials | Best Researcher Award

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Ms. Yossra Ounis Dkhil | Nanomaterials | Best Researcher Award

Ms. Yossra Ounis Dkhil, Faculty of Sciences of Gabes, University of Gabes, Tunisia

Yossra Ounis Dkhil, is a dedicated PhD candidate specializing in catalysis and nanomaterials for environmental applications. Currently affiliated with the Catalysis and Materials for the Environment and Processes Research Laboratory at the University of Gabes, Yossra has been a guest researcher at the Leibniz Institute for Catalysis (LIKAT) in Germany, where she explored ZnO nanomaterials for photocatalytic degradation of organic pollutants. With publications in renowned journals, she exemplifies excellence in green synthesis and advanced characterization techniques. Beyond her academic pursuits, Yossra enjoys reading, traveling, and gaming. 🌱📚🌍🎮

Professional Profile:

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Summary of Suitability for the Best Researcher Award

Yossra Ounis Dkhil stands as a strong candidate for the Best Researcher Award, given her outstanding contributions to catalysis and nanomaterials for environmental applications. Her interdisciplinary expertise, commitment to sustainability, and active engagement in both research and professional development distinguish her as a leader in her field.

Education and Experience 

🎓 Education

  • PhD (2021 – Present): Catalysis and Materials for Environment, University of Gabes
  • Master’s (2018 – 2020): Materials and Environmental Chemistry, University of Gabes, with honors
  • Bachelor’s (2014 – 2017): Chemistry, University of Gabes, with comprehensive training in analytical and organic chemistry

💼 Experience

  • Guest PhD Researcher (2023 – 2024): Leibniz Institute for Catalysis, Germany
  • Dental Assistant (2018): Gabes, Tunisia
  • Internships (2015 – 2018): Laboratory-based roles in medical analysis, quality control, and biological testing

Professional Development 

Yossra Ounis Dkhil actively participates in professional development activities to enhance her expertise in catalysis and nanomaterials. She attended international conferences such as the SPASEC-25 🌞 and 57th Jahrestreffen Deutscher Katalytiker 🔬. She has undertaken specialized training in Raman spectroscopy 🎥, ISO standards 📏, and photovoltaic systems ⚡. Yossra’s academic engagement extends to workshops on advanced oxidation technologies 🌊 and Springer training sessions 📚. These experiences have deepened her understanding of environmental challenges and strengthened her skills in green synthesis, photocatalysis, and material characterization, aligning her with global sustainability goals. 🌍🧪

Research Focus 

Yossra Ounis Dkhil focuses on the synthesis, characterization, and application of nanomaterials for environmental remediation 🌱. Her PhD research emphasizes green synthesis methods for ZnO nanoparticles, leveraging natural extracts like chia seeds 🌿 to achieve sustainable solutions. She investigates photocatalytic degradation mechanisms for pharmaceuticals and organic pollutants 🌊, aiming to mitigate their environmental impact. Additionally, Yossra explores advanced techniques such as X-ray diffraction and thermal analysis 🔬 to understand material properties. Her interdisciplinary approach bridges chemistry, environmental science, and nanotechnology, contributing to cleaner, greener technologies. 🌍🧪

Awards and Honors 

  • 🏆 2024: Presenter at the 57th Jahrestreffen Deutscher Katalytiker Conference
  • 🌞 2022: Participant in the SPASEC-25 and AOTs-26 International Conferences
  • 📚 2021: Recognition for excellence during Raman Spectroscopy training, University of Gabes
  • 🔬 2021: Participation in the International Colloquium on Arts, Sciences, and Technologies, Gabes
  • 🎓 2020: Honored for completing Springer and CABI doctoral training programs

Publication Top Notes:

Green Synthesis of Photocatalytically Active ZnO Nanoparticles Using Chia Seed Extract and Mechanistic Elucidation of the Photodegradation of Diclofenac and <i>p</i>-Nitrophenol
X-Ray Diffraction Analysis by Modified Scherrer, Williamson–Hall and Size–Strain Plot Methods of ZnO Nanocrystals Synthesized by Oxalate Route: A Potential Antimicrobial Candidate Against Foodborne Pathogens

 

Dr. Samer Asadi| nanoparticle |Best Researcher Award

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Dr. Samer Asadi| nanoparticle |Best Researcher Award

Dr. Samer Asadi, Ayatollah Boroujerdi University, Iran

Samer Asadi is a professor at the Chemical Engineering Department, Ferdowsi University of Mashhad, Iran. 🎓 His research expertise spans nanoparticle synthesis, activated carbon characterization, and sulfur recovery optimization. 🌟 Dr. Asadi has authored several impactful journal articles, including works on titanium dioxide nanotubes, silver nanoparticles, and macadamia nutshell-derived activated carbons. 🧪 With significant contributions to materials science and chemical engineering, he bridges the gap between academic innovation and practical applications in energy and sustainability. ♻️

Professional Profile

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Suitability

Dr. Samer Asadi is a strong contender for the Best Researcher Award, given his impactful contributions to chemical engineering and materials science. His research efforts not only demonstrate scientific innovation but also address critical challenges in energy sustainability and materials development. Below is an analysis of his suitability, key contributions, and a concluding assessment of his candidacy.

Education and Employment

  • 🎓 Professor: Chemical Engineering Department, Ferdowsi University of Mashhad, Iran
  • 🏫 Education and Research: Focused on material synthesis, environmental applications, and sulfur recovery

Professional Development

Dr. Samer Asadi has established himself as a leader in chemical engineering and materials science. 🧪 His work explores cutting-edge methods to synthesize nanoparticles and optimize activated carbons for industrial and environmental applications. 🌱 Through advanced techniques like neural networks and equilibrium characterization, Dr. Asadi addresses challenges in energy, environmental sustainability, and industrial optimization. ⚙️ His interdisciplinary research fosters global collaboration and innovation. 🌍

Research Focus

Dr. Asadi’s research centers on:

  • 🌱 Nanoparticles: Synthesis using natural sources like plant leaves
  • 🔬 Activated Carbon: Preparation, characterization, and application
  • 🔥 Sulfur Recovery: Optimizing reaction furnace temperatures
  • ♻️ Environmental Applications: Focus on sustainability and industrial improvements

Awards and Honors

  • 🏆 Excellence in Research: High-impact publications in top journals
  • 🌟 Recognition for Innovation: Advanced materials and sustainable practices
  • 📚 Academic Contributions: Author of impactful journal articles and a book on sulfur recovery optimization
  • 🌍 Global Impact: Contributions to sustainability and energy efficiency

Publication top notes

From nature to nanoparticles: Synthesizing silver nanoparticles from Moortalkh plant leaves with potent antibacterial properties
An Investigation of reaction furnace temperatures and sulfur recovery
Application of Optimal RBF Neural Networks for Optimization and Characterization of Porous Materials
Characterization of modified activated carbons: Equilibria and dynamics studies

Assist. Prof. Dr. HudaF Khalil | Nanomaterials Awards | Excellence in Research

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Assist. Prof. Dr. HudaF Khalil | Nanomaterials Awards | Excellence in Research

Assist. Prof. Dr. HudaF Khalil | Nanomaterials Awards | Excellence in Research

Huda F. Khalil is a researcher in the Electronic Materials Department, specializing in the field of physics. She earned her PhD in Physics from Tanat University in 2021 and her MSc in Physics from Alexandria University in 2013. With a background in Special Physics from Alexandria University (2007), Huda has significantly contributed to materials science, particularly in nanomaterials and their applications. Her research interests include superconductivity, thermoelectric properties, and nanotechnology. She has been recognized for her work with various awards and certifications, including the Generation Program Scholarship and multiple certifications in workshops and training programs. Huda is also an active member of the Egyptian Society for Basic Sciences and the Materials Science Society. Her notable publications span a range of topics from optical properties of materials to advanced sensor applications in viral diagnosis.

Professional Profile:

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Summary of Suitability for the “Excellence in Research” Award

Huda F. Khalil is an exceptionally qualified candidate for the “Excellence in Research” award due to her extensive contributions to the field of electronic materials and her impressive academic and professional background.

🎓Education:

Huda F. Khalil earned her PhD in Physics from Tanat University in 2021, where she conducted research within the Faculty of Science’s Physics Department. Prior to this, she completed her MSc in Physics at Alexandria University in 2013, also in the Faculty of Science’s Physics Department. Her academic journey began with a BSc in Special Physics, which she obtained from Alexandria University in 2007.

🏢Work Experience:

Huda F. Khalil currently works as a researcher in the Electronic Materials Department, where she focuses on advanced materials and their applications. She has previously served as a research assistant at the Academy of Scientific Research and Technology, part of Egypt’s Ministry of Higher Education & Scientific Research. Additionally, Huda has worked as an instructor at SRTA-CITY, where she has led various training programs, including those on Nanoscience Materials and Their Applications.

🏆Awards and Recognitions:

Huda F. Khalil has been recognized with several prestigious awards and honors throughout her career. She received the Generation Program Scholarship (SNG) and a Research Assistantship grant of 100,000 EGP from the Academy of Scientific Research and Technology. In 2022, she was honored with the Best Idea award at the Arab Youth Forum and also received an award from the Idea’s Competition at SRTA-CITY. Additionally, Huda was recognized with a Certification of Excellence in Reviewing by the Journal of Pharmaceutical Research International in 2020. She has also been awarded a Certificate of Appreciation for her contributions as an instructor at SRTA-CITY and has attended numerous workshops and seminars related to entrepreneurship, nanoscience, and materials science.

Publication Top Notes:

  • “Phase Change and Optical Band Gap Behavior of Se0.8S0.2 Chalcogenide Glass Films”

    Cited by: 22

  • “Preparation and Characterization of ZnS Nanocrystalline Thin Films by Low Cost Dip Technique”

    Cited by: 19

  • “Epitaxial Growth and Optical Properties of Laser Deposited CdS Thin Films”

    Cited by: 11

  • “Role of Cr3+ and In3+ Ions Substitution on Magnetic and Dielectric Properties for Developing Soft Magnetic M-Type Sr Nanohexaferrite”

    Cited by: 6

  • “Structural, Morphological, and γ-ray Attenuation Properties of M-Type Hexaferrite BaFe12O19 Doped with V2O5, Ce2O3, and Bi2O3 for Radiation Shielding Applications”

    Cited by: 4

 

 

 

 

Dr. Amy Lewis | Nanomaterials Awards | Best Researcher Award

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Dr. Amy Lewis | Nanomaterials Awards | Best Researcher Award

Dr. Amy Lewis , Oklahoma State University , United States

Dr. Amy King-Lewis is an Assistant Professor of Construction Engineering Technology at Oklahoma State University, with a Ph.D. in Civil Engineering from the same institution. Her research focuses on diversity and inclusion, particularly the participation and persistence of women in the construction industry. Dr. King-Lewis has extensive teaching experience, including courses on construction law, scheduling, and business practices. She has a robust industry background, having served in leadership roles at various construction and engineering firms. Additionally, Dr. King-Lewis is actively involved in outreach, mentoring, and presenting at national and international conferences.

Professional Profile:

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Summary of Suitability for Best Researcher Award

The individual under consideration has demonstrated exceptional qualifications for the Best Researcher Award in the field of construction engineering, with a particular emphasis on diversity, equity, and inclusion (DEI) within the industry.

🎓Education:

Dr. Amy King-Lewis earned her Ph.D. in Civil Engineering from Oklahoma State University in December 2020, where she conducted research under the guidance of Dr. Yongwei Shan, focusing on the diversity and inclusion of women in the construction industry. Prior to this, she completed a Master of Science in Engineering Technology (MST) from Texas State University in May 2006, with a concentration in Engineering Management and Entrepreneurship Studies. Dr. King-Lewis began her academic journey with a Bachelor of Science in Construction Management, Engineering Technology from Oklahoma State University, graduating in May 1991.

🏢Work Experience:

Dr. Amy King-Lewis is currently an Assistant Professor of Construction Engineering Technology at Oklahoma State University, a position she has held since January 2021. In this role, she teaches various courses, including Construction Law, Introduction to Construction, Construction Scheduling, Mechanical and Electrical Systems of Buildings, and Business Practices. Alongside her academic career, Dr. King-Lewis serves as Vice President of R & J Lewis Oil Company, a position she has held since August 2017. Prior to her current roles, she worked as a Project Manager at Oklahoma State University from March 2016 to January 2021, where she managed construction projects for Long Range Facilities Management. Dr. King-Lewis also has entrepreneurial experience as the Co-Founder and CEO of Ontrack Texas Scheduling, a construction scheduling firm she led from June 2011 to June 2016, scaling the company to 12 employees. Earlier in her career, she served as Business Development Director for Sundt and Satterfield & Pontikes Construction in San Antonio from April 2008 to June 2011 and as a Project Manager at Brown & Root – A Halliburton Company in Houston, where she managed new construction, shutdowns, and turnarounds in refinery and chemical plants for major clients like Shell, Exxon, and Phillips 66, from May 1990 to June 2003.

🏆Awards and Grants:

Dr. Amy King-Lewis has received multiple travel grants and awards throughout her academic career, demonstrating her commitment to professional development and student mentorship. In June 2023, she was awarded a $2,500 travel grant by MEAC to attend the Mechanical and Electrical Faculty Boot Camp in Milwaukee, WI. Earlier in March 2023, she secured a $7,500 CMAB matching grant to attend the AGC National Convention. In December 2022, Dr. King-Lewis received a $7,500 travel grant from the TEXO Foundation. She had previously been awarded MEAC travel grants for the same Boot Camp in June 2022 and August 2021, both amounting to $2,500 each. Additionally, in February 2022, she was recognized as the faculty sponsor for the team that won 1st Place in the Commercial Building Division at the TEXO Foundation Region 5 Student Competition, with a prize of $1,000.

Publication Top Notes:

  • “A Systematic Approach to Developing Sustainable Post-Disaster Shelters in the Southern Region of the United States”
  • “Persistence of Women in the Construction Industry”
  • “Student Perceptions of Bias in University Construction Programs”
  • “Gender Bias and Its Impact on Self-Concept in Undergraduate and Graduate Construction Education Programs in the United States”
  • “Influencing Factors on Recruitment and Retention of Women in Construction Education: A Literature Review”

 

 

Mr. Muhammad Aoun Abbas | Nanoscale Awards | Best Researcher Award

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Mr. Muhammad Aoun Abbas | Nanoscale Awards | Best Researcher Award

Mr. Muhammad Aoun Abbas , Sejong University , South Korea

Muhammad Aoun Abbas, a Pakistani researcher currently pursuing a combined Master’s and Ph.D. at Sejong University in Seoul, South Korea, specializes in nanotechnology and advanced materials engineering. His research focuses on titanium-based alloys and high-entropy alloys, contributing to significant advancements in the field. Abbas has published several notable papers in journals such as the Journal of Alloys and Compounds and Intermetallics. He actively participates in international conferences and seminars related to materials science. In addition to his academic work, he is involved in volunteering with the Korea Islamic Culture Exchange Association, supporting blood donation drives and social initiatives.

Professional Profile:

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Suitability of Muhammad Aoun Abbas for Best Researcher Award:

Summary of Suitability:

Muhammad Aoun Abbas is an outstanding candidate for the Best Researcher Award due to his significant contributions to the field of nanotechnology and advanced materials engineering. Currently pursuing a combined Master’s and Ph.D. at Sejong University, Abbas specializes in titanium-based alloys and high-entropy alloys, which are critical areas of research with substantial implications for material science.

🎓Education:

Muhammad Aoun Abbas is currently pursuing a combined Master’s and Ph.D. in Nanotechnology and Advanced Materials Engineering at Sejong University in Seoul, South Korea, starting from March 2020. This advanced program reflects his commitment to specializing in cutting-edge materials science, focusing on innovations in nanotechnology and advanced materials.

🏢Work Experience:

Since March 2020, Muhammad Aoun Abbas has been working as a University Research Assistant at Sejong University in the Department of Nanotechnology and Advanced Materials Engineering. His research focuses on titanium-based alloys and high-entropy alloys, contributing to advancements in these specialized fields.

Publication Top Notes:

  1. Nano-scale structural evolution of quaternary AlCrFeNi based high entropy alloys by the addition of specific minor elements and its effect on mechanical characteristics
    Cited by: 42
  2. Evolution of microstructure and mechanical characteristics of (CrFeNiCu)100–xTix high-entropy alloys
    Cited by: 6
  3. Evolution of microstructure and mechanical properties of a Ti80 (CoFeNi) 20 ultrafine eutectic composite during thermal processing
  4. Large enhancement of yield strength in Ti80Cr20−x (CoFeNi)x alloys by modulating phase stability and introducing ultrafine eutectic structure
  5. Microstructural Evolution of Quaternary AlCoCrNi High-Entropy Alloys during Heat Treatment

 

 

 

Dr. Jonathan Wood | Nanoparticle Awards | Best Researcher Award

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Dr. Jonathan Wood | Nanoparticle Awards | Best Researcher Award

Dr. Jonathan Wood ,Swinburne University,Australia

Jonathan Wood is an accomplished researcher with over 13 years of experience in Scanning Probe Microscopy. He holds a Doctor of Philosophy in Nanomedicine and Biomedical Devices, a Master’s by Research in Surface and Material Physics, and dual Bachelor’s degrees in Physics and Philosophy. Jonathan has served in various academic and technical roles, including Technical Officer at Swinburne College, Research Associate at the University of South Australia, and Laboratory Demonstrator at La Trobe University. His expertise spans SolidWorks, LabView, Origin data analysis, MATLAB, and managing laboratory environments. Jonathan’s notable contributions to nanostructured materials and antibacterial surface research have been widely recognized and published, underscoring his suitability for high-level research awards

Professional Profile:

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Summary of Suitability for Best Researcher Award: Jonathan Wood:

Jonathan Wood stands out as a highly qualified candidate for the Best Researcher Award due to his extensive experience, significant contributions to the field of nanostructured materials, and robust academic background.

🎓Education:

Jonathan Wood holds a Doctor of Philosophy in Nanomedicine and Biomedical Devices, completed between 2019 and 2022. Prior to this, he earned a Masters by Research in Surface and Material Physics from 2011 to 2017, and an Honours degree in the same field from 2009 to 2011. His academic journey began with a dual Bachelor’s degree in Physics and Philosophy, which he obtained from 2004 to 2009.

🏢Work Experience:

Jonathan Wood has extensive work experience, having held various academic and technical roles throughout his career. In 2023, he served as a Technical Officer and Laboratory Instructor at Swinburne College, where he was responsible for SolidWorks design for 3D printing, LabView, Origin data analysis, MATLAB, equipment maintenance, Arduino and breadboard setup, and teaching the use of digital oscilloscopes, function generators, and DC power supplies. He also acted as the WH&S representative. From 2022 to 2023, Jonathan worked as a Research Associate at the University of South Australia, focusing on the research of emulsions and interfaces, laboratory management, and the analysis of data using Profile Analysis Tensiometer and Wilhelm Balance instrumentation, including SAX/WAX Synchrotron data. Additionally, in 2022, he held the role of University Technical Officer at the University of South Australia, specializing in laboratory maintenance, safety testing, plant inspections, and Atomic Force Microscopy. Earlier, in 2018, he was a Pipette Calibration Technician at Mettler Toledo, where he handled NATA standard calibration, pipette adjustments, repairs, and servicing reports. He also served as a Research Assistant at Deakin University in 2018, assisting in 3D printing and micro-milling for microfluidic devices and researching point-of-care diagnostics. Jonathan’s career includes a long tenure as a Customer Service Officer at Museum Victoria from 2004 to 2018, where he engaged in tour guiding, ticket sales, exhibit guiding, and science demonstrations. From 2009 to 2015, he was a Lab Demonstrator and Technician at La Trobe University Physics Department, demonstrating and training in Atomic Force Microscopy and Scanning Probe Microscopy, supervising XRF, XRD, and SEM research, and demonstrating radiation safety courses

Publication Top Notes:

  1. Long-term antibacterial properties of a nanostructured titanium alloy surface: An in vitro study
    • Cited by: 36
  2. Bio-inspired nanostructured Ti-6Al-4V alloy: the role of two alkaline etchants and the hydrothermal processing duration on antibacterial activity
    • Cited by: 30
  3. Surfaces containing sharp nanostructures enhance antibiotic efficacy
    • Cited by: 18
  4. Spiked titanium nanostructures that inhibit anaerobic dental pathogens
    • Cited by: 14
  5. Antibacterial nanostructured surfaces modulate protein adsorption, inflammatory responses, and fibrous capsule formation
    • Cited by: 12