Madeha Awad | Intracellular Transport Systems | Best Researcher Award

Posted on by sciencefather

Assoc. Prof. Dr. Madeha Awad | Intracellular Transport Systems | Best Researcher Award

Assoc. Prof. Dr. Madeha Awad, Sohag university, Egypt

Dr. Madeha Ahmed Aboelfadl Awad is an accomplished Associate Professor in the Physics Department, Faculty of Science, Sohag University, Egypt. Born on January 27, 1979, she has established herself as a leading researcher in the field of nanomaterials physics, with a focus on the synthesis and characterization of metal, metal oxide, and oxysulfide nanostructures. Fluent in Arabic, English, and French, Dr. Awad has contributed extensively to sustainable material applications, including photocatalysis, photodetectors, and smart coatings. Her passion for scientific inquiry and dedication to environmental and energy-related innovations have positioned her as a significant academic voice in Egypt and internationally. Married and residing in Sohag, she continues to inspire through both her teaching and prolific research publications, contributing to over 10 international journal articles and conference presentations. Dr. Awad’s interdisciplinary approach bridges materials science with real-world industrial and environmental applications.

Publication Profile:

Scopus

✅ Strengths for the Award:

  1. Innovative Research Focus:
    Dr. Awad has demonstrated consistent innovation in synthesizing and characterizing advanced nanostructured systems (metal oxides, oxysulfides, and thin films), with real-world applications in environmental remediation, energy conversion, and optoelectronics.

  2. Publication Record:
    She has published 10+ articles in reputable international journals such as Physica Scripta and Journal of Materials Science: Materials in Electronics. Many of these works address pressing global challenges, including pollution control, clean energy, and smart coatings.

  3. Multidisciplinary Impact:
    Her work intersects physics, materials science, and environmental engineering, creating sustainable technologies like photocatalysts, hydrogen generation systems, and photodetectors.

  4. Active Conference Participation:
    Dr. Awad has presented at national and international scientific conferences, sharing her findings on SnO₂ thin films and transparent conductors, reflecting leadership in academic dissemination.

  5. Academic Development:
    She has completed multiple training courses in competitive research, digital transformation, and teaching methodologies, ensuring continuous growth and contribution to higher education quality.

🧩 Areas for Improvement:

  1. International Collaborations:
    While Dr. Awad is actively publishing, there is potential for expanding collaborations with global research institutes and industrial sectors to enhance the scope and visibility of her work.

  2. Research Funding Diversification:
    Engaging in international grant applications or large-scale collaborative projects would further strengthen her research sustainability and resource access.

  3. Visibility in High-Impact Conferences:
    Increasing participation in high-impact global conferences or symposiums (e.g., MRS, APS) could amplify her academic footprint and foster more research exchange.

🎓 Education:

Dr. Awad earned her B.Sc. in Physics with a very good degree from Sohag University in 2003. She pursued her M.Sc. in Solid State Physics (2008), focusing on the structural, electrical, and optical properties of Sn-Sb-Se compounds. In 2015, she received her Ph.D. in Nanomaterials Physics for her pioneering work on ZnO-based nanomaterials. Her Ph.D. research emphasized growth and characterization techniques vital for optoelectronic applications. In October 2020, she became an Associate Professor, having specialized in the synthesis and analysis of nanostructured systems, including metal oxides and oxysulfides, with targeted industrial uses. Her academic path reflects a deep commitment to solid-state physics, materials engineering, and nanotechnology. She has also enhanced her academic competencies with digital transformation, student assessment, and competitive research training, aligning her education with modern interdisciplinary needs and research innovations.

🧪 Professional Experience:

Dr. Awad began her academic journey as an Assistant Lecturer in 2013 at Sohag University’s Physics Department. Following the completion of her Ph.D. in 2015, she was promoted to Lecturer, contributing to undergraduate and postgraduate instruction while intensifying her research. In 2020, she was appointed Associate Professor in Materials Science. Over the years, Dr. Awad has participated in international conferences, served as a research mentor, and collaborated with national and international scholars. Her expertise in synthesizing thin films and evaluating their optical, structural, and electrical characteristics has enabled her to lead multiple applied research projects. In addition to teaching and supervision, she has completed various training programs on student assessment, digital transformation, and competitive research funding. Her holistic academic profile blends high-impact research with educational excellence, making her a valuable contributor to Egypt’s scientific and academic landscape.

🔬 Research Focus:

Dr. Madeha Awad’s research focuses on the synthesis, characterization, and application of nanostructured materials, particularly metal and metal oxide thin films. Her work addresses real-world challenges through environmentally friendly solutions such as photocatalysis for pollutant degradation, hydrogen generation from seawater, and smart coatings for self-cleaning surfaces. She is also active in developing photodetectors for environmental sensing. Her interdisciplinary approach integrates solid-state physics, material science, and environmental engineering. Her recent projects involve advanced nanocomposites like In2O3/CuO and TiO2-based systems, with optimized optoelectronic and wettability properties for diverse industrial applications. By modifying surface and structural properties of nano-films, Dr. Awad aims to enhance energy efficiency, sustainability, and environmental remediation technologies. She is a strong advocate for applied research and often collaborates on global research initiatives that promote clean energy and green technologies. Her vision merges innovation with impact.

📚 Publications Top Notes:

  1. 🔬 Photocatalytic characteristics of indium oxide, copper oxide and indium oxide/copper oxide thin films on plastic waste substrates for organic pollutants degradation

  2. 🔍 Influence of oxygen flow rates on the optoelectronic properties SnO2 thin films

  3. 🌿 A comparison between the effect of zinc oxide and zinc oxide nanoparticles on the growth and metabolic processes of Cosmarium sp

  4. 🌞 Highly sensitive TiO2 based photodetector for environmental sensing applications

  5. 🔦 Optoelectronic characteristics of In2O3/CuO thin films for enhanced visible-light photodetector

  6. 🧼 Photocatalysis, wettability and optical properties of N-doped Cu2O/CuO thin films for smart coating applications

  7. 💧 Surface wettability and photocatalytic activities of ZrOxNy/Au/TeO2 trilayers for antifogging coatings

  8. Some characteristics of Cu/Cu2O/CuO nanostructure heterojunctions and their applications in hydrogen generation from seawater

  9. 🌐 WNxOy prepared by oxidation of tungsten nitride as alternative photocatalyst to N-doped WO3

📝 Conclusion:

Dr. Madeha Ahmed Aboelfadl Awad exemplifies the qualities of a modern researcher who blends academic rigor with real-world impact. Her research in nanomaterials for environmental and energy applications is both timely and significant. With a strong foundation in materials science and a clear trajectory of impactful publications, she is an excellent candidate for the Best Researcher Award.

Noureddine Allouche | Molecular Mechanisms Signaling | Best Research Article Award

Posted on by sciencefather

Prof. Noureddine Allouche | Molecular Mechanisms Signaling | Best Research Article Award

Prof. Noureddine Allouche , Faculty of Sciences of Sfax, University of Sfax , Tunisia

Professor Noureddine Allouche, born in 1971, is a Full Professor of Chemistry at the Faculty of Sciences of Sfax (FSS), Tunisia. He is the Head of the Natural Substances Team in the Laboratory of Organic Chemistry. With over 150 peer-reviewed publications, an h-index of 35, and more than 4500 citations, he is recognized for his impactful research on natural products and environmental valorization. He has led and contributed to multiple national and European research projects, including FP7, H2020, Erasmus+, and ARIMNET. His work focuses on extraction, isolation, and bioactivity of plant-based compounds and sustainable management of industrial waste. Prof. Allouche has supervised 20 Ph.D. theses and 42 M.Sc. students, contributing significantly to scientific advancement in Tunisia and beyond. He is also involved in applied research in green chemistry and cosmetic sciences. His collaborative work and leadership have earned him recognition in the academic and research communities.

Publication Profile: 

Orcid

✅ Strengths for the Award:

  1. High Research Productivity and Impact

    • Over 150 peer-reviewed scientific articles with a h-index of 35 and 4,500+ citations, which reflect sustained academic influence and quality.

    • Contributor to top-tier journals such as Plants, Biomolecules, and Molecules.

  2. Strong Focus on Societal Relevance

    • Work addresses critical environmental issues such as olive mill waste valorisation, bioconversion, and sustainable resource use.

    • Research applied in green chemistry, natural product-based pharmaceuticals, and eco-cosmetics.

  3. International Collaboration and Leadership

    • Coordinator of six major European and international research projects (FP7, H2020, Erasmus+, ARIMNET).

    • Active partnerships with institutions in France, Germany, and the Mediterranean region, showcasing leadership in multidisciplinary and multinational research.

  4. Methodological Rigor and Innovation

    • Use of advanced analytical techniques (e.g., HPLC-HESI-MS/MS, LC-MS/MS, ESI-MS/MS).

    • Integration of green technologies for natural substance extraction.

  5. Mentorship and Academic Development

    • Supervised 20 Ph.D. theses (plus 4 ongoing), 42 Master’s theses, and numerous diploma projects, especially in applied fields like cosmetic science.

🛠️ Areas for Improvement:

  1. Broader International Recognition

    • While highly active in regional and EU collaborations, increased visibility in global North America/Asia-led consortia or global forums could enhance recognition.

  2. Science Communication and Outreach

    • Publishing in public engagement platforms or delivering talks/webinars to non-specialist audiences could expand the impact of his research beyond academia.

  3. Open Access and Data Sharing

    • Encouraging open data practices and reproducibility of extraction and formulation protocols could enhance scientific transparency and citations.

🎓 Education:

Professor Noureddine Allouche earned his Ph.D. in Chemistry from the University of Sfax between 2000 and 2005, focusing on the treatment and valorisation of olive mill waste, a subject that would lay the foundation for his future research career. Following this, he undertook a prestigious postdoctoral training (2006–2007) at the Institute of Natural Products Chemistry of CNRS in Gif-sur-Yvette, France, enhancing his expertise in natural substances and analytical chemistry. His academic foundation was built on rigorous training in organic chemistry, natural products, and environmental biotechnology. These experiences equipped him with robust research methodologies and an interdisciplinary approach, especially in the extraction and biological evaluation of phytochemicals. His educational path reflects a strong commitment to green and sustainable chemistry, positioning him well for leading high-impact research on natural product development and eco-friendly industrial applications.

💼 Experience:

Professor Allouche has over 20 years of academic and research experience. He currently leads the Natural Substances Team at the Faculty of Sciences of Sfax and supervises a group of over 20 researchers. He has played a vital role in international research collaborations, serving as the national coordinator of six European-funded projects under FP7, ARIMNET, H2020, Erasmus+, and PHC-Maghreb. His experience also includes participation in the INCO-MED project on detoxification and recovery from olive mill wastewater. Prof. Allouche has an extensive mentoring portfolio, having supervised 20 Ph.D. theses (with 4 ongoing) and 42 M.Sc. students. He has authored 150+ articles, two book chapters, and holds two patents. His career reflects a blend of scientific innovation and applied industrial research, particularly in green technologies, bioactive compounds, and waste valorisation. He is also a regular collaborator with European institutions, reflecting his global outlook and leadership in sustainable science.

🔍 Research Focus:

Prof. Noureddine Allouche’s research centers on natural substances chemistry, green extraction methods, and biotechnological valorisation of industrial wastes, particularly from agro-food sources. He has made significant contributions to the identification and biological evaluation of bioactive compounds such as phenolics, flavonoids, and essential oils. His team is particularly active in analyzing plant extracts for their antioxidant, antimicrobial, cytotoxic, and anti-aging activities, often employing advanced techniques like HPLC, LC-MS/MS, and ESI-MS/MS. Another pillar of his work includes developing biopesticides and bio-cosmetics through green and eco-sustainable approaches. He contributes to nanoformulation research and the design of nature-based products aligned with circular economy principles. His interdisciplinary projects bridge chemistry, pharmacology, environmental science, and cosmetic formulation, making his research highly relevant for addressing current scientific and industrial challenges. His recent involvement in projects like GreenCosmIn and 25MAG23 reflects his leading role in European research on sustainable innovation.

📚 Publications Top Notes:

  1. 🌿 HPLC-HESI-MS/MS Analysis of Phenolic Compounds from Cynoglossum tubiflorus Leaf Extracts (Plants, 2024)

  2. 🫒 Intensification of Biophenols Extraction Yield from Olive Pomace Using Innovative Green Technologies (Biomolecules, 2022)

  3. 🌸 Antioxidant and Antimicrobial Activities of Erodium arborescens Extracts Characterized by LC-HESI-MS² (Molecules, 2022)

  4. 🌿 ESI-MS/MS Analysis of Aeonium arboreum Leaf Extracts and Evaluation of Antioxidant and Antimicrobial Activities (Molecules, 2021)

  5. 🍇 Novel Natural Products for Healthy Ageing from Mediterranean Diet – The MediHealth Project (Molecules, 2018)

🧾 Conclusion:

Professor Noureddine Allouche stands out as a highly qualified and deserving candidate for the Best Research Article Award. His impressive record in sustainable chemistry, natural products research, international project coordination, and scholarly mentorship underlines his academic excellence and real-world impact. His research directly contributes to health, environmental sustainability, and circular economy principles, aligning well with the goals of high-impact, solution-driven science.

Allegra Wundersitz | Signal Transduction Mechanisms | Young Scientist Award

Posted on by sciencefather

Mrs. Allegra Wundersitz | Signal Transduction Mechanisms | Young Scientist Award

Mrs. Allegra Wundersitz , RWTH Aachen University, Molekulare Ökologie der Rhizosphäre , Germany

Allegra Wundersitz is a passionate molecular biologist currently pursuing her PhD at RWTH Aachen University, Germany, in the group of Molecular Ecology of the Rhizosphere. Her research delves into the molecular mechanisms of plant oxygen sensing and the regulatory role of acyl-CoA-binding proteins (ACBPs) in stress signaling. Allegra has been recognized for her academic excellence, receiving the ISPA Poster Award and the Best Botanic Master’s Thesis Award from the German Society for Plant Sciences (DBG). With expertise in cloning, yeast-two-hybrid, luciferase complementation, and computational modeling, she seamlessly integrates biochemical and molecular approaches. Allegra actively collaborates with interdisciplinary teams, bridging plant physiology, structural biology, and molecular dynamics. Her commitment to research and mentoring makes her a promising young scientist aiming to contribute not only to fundamental plant science but also to translational applications in health and agriculture.

Publication Profile:

Orcid

✅ Strengths for the Award:

  • Innovative Research Focus: Allegra’s work on acyl-CoA-binding proteins (ACBPs) in plant oxygen sensing and stress signaling demonstrates high originality. Her approach of integrating protein biochemistry, gene regulation, and computational modeling is both novel and impactful.

  • Early Recognition: Despite being in the early stages of her career, she has received notable honors, including the ISPA Poster Award and the Best Master’s Thesis Award (DBG)—highlighting the quality and relevance of her work.

  • Interdisciplinary Collaboration: She engages with experts in molecular dynamics and structural biology, enriching her research with advanced modeling of protein mutations—showing strong collaborative and technical competencies.

  • Mentorship & Leadership: Supervising undergraduate students showcases her commitment to academic development and science communication.

  • Publication Record: Her first peer-reviewed article in New Phytologist indicates strong potential for growing her scientific influence.

🧩 Areas for Improvement:

  • Professional Engagement: Joining relevant scientific societies or organizations could enhance her visibility, offer networking opportunities, and provide access to grants or awards.

  • Industry Exposure: While her current focus is on basic science, even limited engagement with applied research or biotechnology partnerships could broaden the translational scope of her work.

  • Publication Volume: As her research matures, expanding her publication record beyond reviews into primary experimental studies will strengthen her academic profile.

🎓 Education:

Allegra Wundersitz holds a Master’s degree in Plant Molecular Biology, where her thesis on acyl-CoA-binding proteins (ACBPs) earned national recognition by the German Society for Plant Sciences in 2024. She is currently a PhD student at RWTH Aachen University, Germany, specializing in the molecular ecology of the rhizosphere. Her academic training spans core fields such as structural biochemistry, plant physiology, and gene regulation. Through hands-on learning and international workshops, she has developed technical proficiency in protein interaction assays, biosensor design, and in silico modeling. Her education emphasizes a multidisciplinary approach, blending experimental and computational biology. She has also supervised undergraduate research projects, further strengthening her academic leadership. Allegra’s educational journey reflects her deep curiosity for understanding molecular mechanisms in plant biology and their broader implications.

🧪 Experience:

Allegra’s experience is rooted in academic molecular biology research. During her Master’s and now as a PhD candidate, she has completed two significant research projects: developing plant-based oxygen biosensors and exploring the role of ACBPs in gene regulation. Her current PhD project investigates how ACBPs act as acyl-CoA receptors, mediating responses to oxygen and stress in plants. She employs techniques such as yeast two-hybrid assays, luciferase complementation, cloning, and molecular modeling. Allegra has also collaborated with experts in molecular dynamics, including Prof. Maria Fyta and Dr. Chandan Das, to simulate structural effects of ACBP mutations. She has presented her work at international conferences and received a prestigious poster award at ISPA. Allegra is gaining valuable teaching experience through undergraduate supervision, making her a well-rounded early-career scientist. Though she has not yet worked in industry, her work holds potential translational value in agriculture and health.

🔍 Research Focus:

Allegra’s research centers on the role of acyl-CoA-binding proteins (ACBPs) as key molecular players in plant oxygen sensing and stress signaling. She investigates how ACBPs function as acyl-CoA receptors and modulate gene expression through dynamic protein-protein interactions. Her goal is to uncover how lipid signals like acyl-CoAs are translated into physiological responses under stress conditions. Using a combination of experimental techniques—such as cloning, luciferase complementation assays, yeast-two-hybrid screens—and computational molecular dynamics, she deciphers the structural and functional aspects of ACBP interactions. Her research not only expands fundamental plant molecular biology but also contributes insights with potential applications in crop resilience, metabolic regulation, and even human health, given ACBPs’ links to cancer and metabolic disorders. Through interdisciplinary collaboration, Allegra aims to bridge structural biochemistry and plant physiology to understand how cells adapt to fluctuating oxygen and energy levels.

📚 Publications Top Notes:

  • 🧬 Acyl-CoA-binding proteins: bridging long-chain acyl-CoA metabolism to gene regulationTansley Insight, New Phytologist (April 22, 2025)

🧾 Conclusion:

Allegra Wundersitz is a highly promising young researcher who combines technical excellence, creativity, and interdisciplinary integration in her approach to plant molecular biology. Her foundational work on ACBPs not only deepens our understanding of plant stress responses but also hints at broader implications in health and metabolic research. With her trajectory and dedication, she is an ideal candidate for the Young Scientist Award, and this recognition would further support her impactful scientific journey.