Assist. Prof. Dr. Samia Dhahri | Nanoscience | Innovative Nanomaterials Research Award

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Assist. Prof. Dr. Samia Dhahri | Nanoscience | Innovative Nanomaterials Research Award

Assist. Prof. Dr. Samia Dhahri, University Tunis El Manar, Tunisia

Dr. Samia Dhahri is an Assistant Professor specializing in Nanoscience & Nanotechnology at the University of Tunis El Manar, Tunisia. With a Ph.D. in Nano-Bio-Geophysics from the University of Montpellier, France, she has extensive experience in nanotechnology applications in health, environment, and agriculture. She has led cutting-edge research projects, supervised Master’s and Ph.D. students, and organized scientific events and training sessions. Dr. Dhahri’s expertise extends to technology transfer, intellectual property, and innovation management. Her contributions to international collaborations and EU-funded projects continue to impact sustainability, bioremediation, and nanocharacterization.

Professional Profile:

Scopus

Suitability of Dr. Samia Dhahri for the Innovative Nanomaterials Research Award

Dr. Samia Dhahri is highly suitable for the Innovative Nanomaterials Research Award due to her extensive contributions to nanoscience and nanotechnology across multiple domains, including health, environment, and agriculture. With a Ph.D. in Nano-Bio-Geophysics and a strong academic and research background, she has led numerous cutting-edge projects focused on nanomaterials and their real-world applications. Her expertise in nanocharacterization, bioremediation, and sustainable nanotechnology solutions positions her as a leader in the field.

Education & Experience 🎓💼

🔹 Ph.D. in Nano-Bio-Geophysics – CNRS, University of Montpellier, France (2013) 🏅
🔹 Master of Science in Food Sciences & Biotechnology – National Polytech Institute of Lorraine, Nancy, France (2010) 🍏
🔹 Bachelor of Biological Engineering – National Institute of Applied Sciences & Technology, Tunisia & University Claude Bernard, Lyon, France (2009) 🧪

🔹 Assistant Professor – University of Tunis El Manar, Tunisia (2023–Present) 🎓
🔹 Assistant Professor – Centre of Research on Microelectronics & Nanotechnology, Tunisia (2015–2023) 🏛️
🔹 Lecturer & Researcher – University of Montpellier, France (2010–2013) 🔬
🔹 Lecturer – Ecole Centrale Polytechnique of Tunis – Honoris United (2014–2015) 📚

Professional Development 📈🛠️

Dr. Dhahri has specialized training in intellectual property, innovation management, and technology transfer. She holds certifications from WIPO, focusing on patent drafting (DL301) and intellectual property (DL101). Her expertise extends to Industry 4.0, territorial intelligence, and advanced nanocharacterization techniques. She has led over 100 workshops and training programs, fostering multicultural collaboration in nanoscience, sustainability, and bioremediation. Her leadership in EU and African Union-funded projects has bridged scientific research with real-world applications, emphasizing interdisciplinary solutions in health, agriculture, and environmental sustainability.

Research Focus 🔬🌱🌍

Dr. Dhahri’s research is at the intersection of nanotechnology, biotechnology, and geophysics. She explores nanoscience applications in health, agriculture, and environmental sustainability, focusing on:

🩺 Medical Nanotechnology – Nano-based drug delivery & disease diagnostics.
🌿 Agriculture & Food Security – Nanotech solutions for sustainable farming.
🌍 Environmental Nanoscience – Nano-bioremediation of pollutants & microplastic studies.
Nanocharacterization & Materials Science – Advanced analysis of nanomaterials.
🔄 Technology Transfer & Innovation – Bridging research with industry for sustainable applications.

Awards & Honors 🏆🎖️

🏅 Very Honorable Mention – Ph.D. in Nano-Bio-Geophysics, University of Montpellier (2013)
📜 WIPO Certifications – Patent Drafting (DL301) & Intellectual Property (DL101) (2024)
🔬 Innovation & Technology Transfer Leader – Centre of Research on Microelectronics & Nanotechnology (2015–2023)
🌍 EU & AU Project Leadership – Key roles in international research collaborations
🏆 Science Communicator & Educator – Conducted 100+ scientific workshops and training sessions

Publication Top Notes:

Atomic Force Microsocopy: Key Unconventional Approach for Bacterial Nanotubes Characterization In Vivo

 

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

Mr. Vinod Vanarse | Nano Fluidic Awards |

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Mr. Vinod Vanarse | Nano Fluidic Awards | Best Researcher Award

Mr. Vinod Vanarse , Indian Institute of Technology Guwahati , India

Vinod B. Vanarse is a dedicated Ph.D. candidate in Chemical Engineering at the Indian Institute of Technology, Guwahati, specializing in field-induced interfacial instabilities in open-confined µ-systems. He holds an M.Tech in Chemical Engineering from NIT Durgapur and a B.E. in Chemical Engineering from JNEC, Aurangabad. With significant industry experience, Vinod has worked as a Senior Executive in the Crop Protection Division at ATUL Ltd. and as a Jr. Executive in the Solvent Recovery Division at Hospira Healthcare Pvt. Ltd. His research contributions include several high-impact publications and presentations at international conferences. Proficient in various programming and simulation software, Vinod also has extensive experience with analytical instruments. He has been a Teaching Assistant for multiple courses, demonstrating his commitment to both research and education in the field of chemical engineering.

Professional Profile:

Google Scholar

Summary of Suitability for the Research for Best Researcher Award

  • Innovative Research: Vinod is actively pursuing a Ph.D. in Chemical Engineering at IIT Guwahati, focusing on “Field-Induced Interfacial Instabilities in Open-Confined µ-Systems,” showcasing his ability to tackle complex, cutting-edge problems.
  • Significant Publications: His work has been published in high-impact journals such as Physics of Fluids, Industrial & Engineering Chemistry Research, and Processes. Notable papers include investigations into instability modes at solvent/non-solvent interfaces and electroosmotic micromixing in patterned microchannels.
  • Conference Presentations: Vanarse has presented his research at prestigious conferences including the BIFD-2024 in Scotland and the Indo-German Workshop-2024. His work on microdroplet sensors and mesoscopic structures in porous media underscores his research’s impact and relevance.

🎓Education:

Vinod B. Vanarse is currently pursuing a Ph.D. in Chemical Engineering at the Indian Institute of Technology, Guwahati, where he focuses on “Field-Induced Interfacial Instabilities in Open-Confined µ-Systems” under the guidance of Prof. Dipankar Bandyopadhyay and Prof. T. K. Mandal. He holds an M.Tech in Chemical Engineering from NIT Durgapur, achieved with a CGPA of 8.63. His foundational education includes a B.E. in Chemical Engineering from JNEC, Aurangabad, with a percentage of 67%. Vinod completed his Higher Secondary Certificate (HSC) with 66.0% from the HSC Board, Pune, and his Secondary School Certificate (SSC) with 79.60% from the SSC Board, Pune.

🏢Work Experience:

Vinod B. Vanarse worked as a Senior Executive in the Production (Crop Protection) Division at ATUL Ltd. in Valsad, Gujarat, from January 2015 to December 2016. In this role, he served as the Technical Team Lead for Product Formulation and managed the Legal Advisory Committee. Prior to this, he was a Jr. Executive in the Production (Solvent Recovery (SRP)) Division at Hospira Healthcare Pvt. Ltd. in Aurangabad, Maharashtra, from August 2012 to December 2014. His responsibilities there included overseeing distillation operations, acting as Shift-Incharge, and leading the Safety Team.

Publication Top Notes:

  • Coupled instability modes at a solvent/non-solvent interface to decorate cellulose acetate flowers

    Cited by: 2

  • Electroosmotic Micromixing in Physicochemically Patterned Microchannels

    Cited by: 1

  • Controlled Micro–Nano-Scale Droplet Generation via Spin Dewetting
  • Forming flower-like fingers with fluid instabilities
  • Microdroplet sensor for point-of-care-testing of glycemic index using gold-amylase nanocomposite

 

 

 

Dr. Gyungtae Kim | Nanoscale Awards | Excellence in Research

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Dr. Gyungtae Kim | Nanoscale Awards | Excellence in Research

Dr. Gyungtae Kim ,National nanofab center , South Korea

Gyungtae Kim is a principal researcher at the National Nanofab Center in the Department of Measurement & Analysis, specializing in nanoscale characterization and surface analysis. Born on July 17, 1977, in South Korea, he earned his Ph.D. in Electronics, Radio Sciences & Engineering and Information Communications from Chungnam National University in February 2016. He has extensive experience in the semiconductor industry, having worked as a senior engineer at SK Hynix from 2004 to 2011 before joining the National Nanofab Center. Over his 13-year research career, he has contributed significantly to the field of semiconductor metrology, with key expertise in surface and X-ray analysis. His research has resulted in numerous publications in high-impact journals and involvement in several high-profile projects. Gyungtae is also an active member of several academic committees and has presented his work at major international conferences.

Professional Profile:

Google Scholar

Suitability for Excellence in Research Award: Gyungtae Kim

Gyungtae Kim is a highly qualified researcher with extensive experience in the field of nanoscale characterization. His educational background, professional experience, and significant contributions to research and development make him a strong candidate for the Excellence in Research Award.

🎓Education:

Gyungtae Kim holds a Ph.D. in Electronics, Radio Sciences & Engineering and Information Communications from Chungnam National University, completed in February 2016. His doctoral thesis, titled “Reliable Electro-Thermal Modeling and Characterization for Highly Uniform Amorphous-Silicon Microbolometer,” was supervised by Prof. Hyoungho Ko. Prior to his Ph.D., he earned a Master’s degree in the same field from Chungnam National University in February 2014. He also holds a Bachelor’s degree in Electronics Engineering from Inha University, which he completed in February 2004.

🏢Work Experience:

Gyungtae Kim is a Principal Researcher in the Department of Measurement & Analysis at the National Nanofab Center, a position he has held since 2016. His key experiences in this role include surface analysis, X-ray analysis, and semiconductor metrology. Prior to this, he served as a Senior Researcher in the Semiconductor Device Department at the same institution from 2011 to 2016. Before joining the National Nanofab Center, Gyungtae worked as a Senior Engineer at SK Hynix from 2004 to 2011, where he gained substantial industry experience.

🏅Conferences and Presentations:

Gyungtae has presented his work at major international conferences such as the European Conference on X-ray Spectrometry (EXRS) and the Korean Physical Society (KPS) Fall Meeting, among others. His contributions to these conferences have focused on advancements in semiconductor metrology and surface analysis techniques

 

Publication Top Notes:

  • Nano-mapping of vertical contact electrodes using synchrotron scanning photoelectron microscopy
  • Effect of Bias Potential on the Interface of a Solid Electrolyte and Electrode during XPS Depth Profiling Analysis
  • Stabilizing a lithium metal anode through the sustainable release of a multi-functional AgNO3 additive
  • Controlled adsorption of gas molecules by tuning porosity of titanium film
  • Contact holes in vertical electrode structures analyzed by voltage contrast-SEM and conducting AFM

    Cited by: 2