Assoc. Prof. Dr Amal Zaher | Microbial Cell Biology | Best Researcher Award

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Assoc. Prof. Dr Amal Zaher | Microbial Cell Biology | Best Researcher Award

Assoc. Prof. Dr Amal Zaher | Beni-suef University | Egypt

Dr. Amal Zaher Shehata Mohamad is a distinguished researcher in the field of Microbial Cell Biology, affiliated with the Faculty of Postgraduate Studies for Advanced Sciences at Beni-Suef University, Egypt. Her research primarily focuses on sustainable energy solutions, environmental remediation, and the application of nanomaterials in biotechnological processes. Dr. Shehata has co-authored several impactful publications, including studies on the repurposing of Co-Fe LDH and Co-Fe LDH/cellulose micro-adsorbents for sustainable energy generation in direct methanol fuel cells. Her work has been recognized for its innovative approach to recycling waste materials into high-value applications, contributing significantly to the advancement of green technologies

Publication Profile:

scopus

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Summary of Suitability for Best Researcher Award:

Dr. Amal Zaher Shehata Mohamad is a seasoned and highly productive researcher in the fields of microbial cell biology, nanomaterials, wastewater treatment, and environmental remediation. Her multidisciplinary research intersects applied chemistry, sustainable environmental practices, and biotechnology, making substantial contributions to both academic knowledge and societal needs.

Her publication record is impressive, with dozens of peer-reviewed journal articles, book chapters, and conference presentations in internationally indexed outlets such as Scientific Reports, Environmental Science and Pollution Research, Nanomaterials, and Journal of Molecular Liquids. These works highlight her proficiency in synthesizing and characterizing advanced nanomaterials, particularly layered double hydroxides (LDHs), metal-organic frameworks (MOFs), and electrocatalysts, applied to energy generation and water purification.

Dr. Zaher has repeatedly demonstrated an ability to address real-world environmental challenges through academic rigor. Her investigations into antibiotic and heavy metal removal, green synthesis techniques, and renewable energy solutions underline a commitment to sustainable development goals (SDGs).

She is also a collaborator on various multidisciplinary projects, working alongside chemists, biotechnologists, and engineers, indicating strong team science experience. Furthermore, she has contributed to the academic development of her institution and country through teaching, mentoring, and scholarly engagement.

Education :

Dr. Shehata completed her undergraduate studies at Minia University, Egypt, where she earned her Bachelor’s degree in a relevant field. She further pursued her academic ambitions by obtaining a Master’s degree, followed by a Ph.D. in a specialized area of Microbial Cell Biology. Her doctoral research focused on the application of nanomaterials in environmental and energy-related biotechnological processes. Throughout her academic journey, Dr. Shehata has demonstrated a strong commitment to scientific excellence and innovation, which is evident in her extensive publication record and contributions to the field.

Research Skills :

Dr. Shehata possesses a diverse skill set in microbial cell biology and environmental biotechnology. Her research expertise includes the synthesis and characterization of nanomaterials, particularly Co-Fe LDH and Co-Fe LDH/cellulose composites, for applications in environmental remediation and energy generation. She is proficient in various analytical techniques such as FT-IR, XRD, SEM, TEM, TGA, and zeta potential analyses, which she employs to assess the properties and effectiveness of synthesized materials. Furthermore, Dr. Shehata has experience in designing and conducting experiments to evaluate the adsorption capacities and catalytic activities of these materials, contributing to the development of sustainable solutions for wastewater treatment and energy production. Her interdisciplinary approach and technical proficiency make her a valuable asset to the field of microbial cell biology

Publications Top Note:

  • 📘 Nanomaterials for Electrochemical Sensing of Heavy Metals in Wastewater Streams

    • Book: Handbook of Nanosensors

    • Authors: Rehab Mahmoud, E. E. Abdel-Hady, Hamdy F. M. Mohammed, Mohamed Ibrahim, Gehad Abd El-Fatah, Amal Zaher, Yasser Gadelhak

    • Year: 2024

  • 🧪 Iron-trimesic metal organic frameworks as nano-adsorbents for tetracycline and Ceftriaxone contaminated wastewater effluents

    • Journal: Egyptian Journal of Chemistry

    • Authors: Amal Zaher, Hossam Nassar, Alzahraa Shaban, Taha Abdelmonein, Esaraa Salama, Yasser Gaber, Nabila Shehata, Reda Abdelhameed, Rehab Mahmoud

    • Year: 2022

  • 🏭 Application of Quality Control Tools in Carpet Industry: A Case Study

    • Journal: Trends in Sciences

    • Authors: Amal Zaher, Said Ahmed, Hamada Mohamed, Abdel Hakeem EL Minhawy

    • Year: 2022

  • 🦠 Antibacterial activities of layer double hydroxide nanocubes based on Zeolite templates

    • Journal: Egyptian Journal of Chemistry

    • Author: Amal Zaher

    • Year: 2022

  • 🧲 LDH nanocubes synthesized with zeolite templates and their high performance as adsorbents

    • Journal: Nanomaterials

    • Authors: Elkartehi M.E., Mahmoud R., Shehata N., Farghali A., Gamil S., Zaher A.

    • Year: 2021

Conclusion:

Dr. Amal Zaher Shehata Mohamad exhibits all qualities worthy of the Best Researcher Award: an extensive and impactful publication record, demonstrated interdisciplinary collaboration, contribution to solving urgent environmental issues, and an ongoing commitment to scientific excellence.

Her body of work is not only significant in terms of innovation and academic depth but also reflects real-world applicability and societal relevance—key benchmarks for any researcher considered for high-level recognition. As such, she is eminently qualified and deserving of consideration for this prestigious honor.

Jing Zhang | Microbial Cell Biology | Best Researcher Award

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Prof. Jing Zhang | Microbial Cell Biology | Best Researcher Award

Prof. Jing Zhang , Southern Medical University , China

Jing Zhang is a renowned researcher in the Department of Laboratory Medicine at Nanfang Hospital, Southern Medical University, China. With a focus on the development and biomedical applications of novel luminescent materials, Jing Zhang has authored 49 papers as the first or corresponding author, contributing to 70 publications overall in prestigious journals like Nature Communications, Advanced Materials, Angewandte Chemie, and ACS Nano. His research spans the realms of aggregation-induced emission (AIE) luminogens, phototherapy, tumor targeting, and antibacterial strategies. Dr. Zhang has been involved in cutting-edge research that integrates materials science with clinical applications, particularly in tackling challenges such as drug resistance in pathogens and developing innovative therapies for diseases like cancer and Alzheimer’s. His contributions to the scientific community have earned him significant recognition, positioning him as a leading figure in his field.

Publication Profile: 

Orcid

Strengths for the Award:

Jing Zhang has made exceptional contributions to the field of luminescent materials and their biomedical applications. His research on aggregation-induced emission (AIE) luminogens, anti-bacterial photosensitizers, and tumor-targeted therapies is groundbreaking. With 70 published papers, including influential journals such as Nature Communications, Advanced Materials, and Angewandte Chemie International Edition, he has demonstrated a consistent track record of innovation. Notably, his work spans areas such as drug-resistant bacterial elimination, tumor eradication via chemo-phototherapy, and multi-modal therapy using luminescent materials. His collaborative approach with top researchers in the field enhances his impact, and his work holds significant potential for real-world applications in healthcare, particularly in the fight against cancer and drug-resistant pathogens.

Areas for Improvement:

While his scientific contributions are highly commendable, expanding the outreach of his work through interdisciplinary collaborations and ensuring more clinical applications of his research could further amplify his influence. Additionally, increasing visibility in global collaborations could help strengthen his role as a leader in the biomedical materials field.

Education:

Jing Zhang obtained his education from Southern Medical University, where he earned his advanced degrees in laboratory medicine. He demonstrated a keen interest in the intersection of chemistry, materials science, and biomedical research, which laid the foundation for his expertise in luminescent materials. Zhang’s academic journey reflects a commitment to exploring innovative solutions in material science, particularly those that bridge the gap between chemistry and clinical applications. His focus has been on advanced luminescent systems and their integration into real-world therapeutic applications. Over the years, he has built a strong foundation in both theoretical knowledge and practical, experimental research, publishing numerous high-impact papers. His work showcases a deep understanding of aggregation-induced emission (AIE) and photonic materials, which have significant implications for modern diagnostics and therapies.

Experience:

Jing Zhang has extensive experience in the field of laboratory medicine and material science, specializing in luminescent materials. Over the years, he has led numerous research projects that focus on the synthesis, application, and characterization of aggregation-induced emission (AIE) luminogens. His contributions have significantly advanced the development of innovative materials for cancer therapy, antibacterial treatments, and diagnostic applications. Zhang has published extensively in high-impact journals, collaborating with leading researchers in various scientific disciplines. His work has focused on the design of photoactive materials for photodynamic therapy, drug-resistant bacterial elimination, and brain-targeting cancer therapies. In addition to his research, Dr. Zhang has been actively involved in mentoring students and researchers in the field, guiding the next generation of scientists. His research and leadership have cemented his role as an influential figure in biomedical material science.

Research Focus:

Jing Zhang’s research primarily focuses on the development of novel luminescent materials, particularly aggregation-induced emission (AIE) luminogens, for a variety of biomedical applications. He has made significant contributions to creating multifunctional materials for photodynamic therapy, tumor targeting, and antibacterial treatment, specifically addressing the challenges of drug-resistant pathogens. Zhang’s research also includes the development of advanced nanomaterials for imaging and therapy, including near-infrared (NIR) systems that can be used for real-time diagnosis and therapy. His work often integrates materials science with clinical applications, targeting diseases such as cancer and neurodegenerative conditions like Alzheimer’s. A key aspect of his research involves exploring how these materials can be engineered for specific medical needs, including precision targeting of tumors and bacteria. Zhang’s research aims to bridge the gap between basic science and therapeutic applications, ultimately contributing to advancements in medical diagnostics and treatment.

Publications Top Notes:

  1. AIE-Active Antibacterial Photosensitizer Disrupting Bacterial Structure: Multicenter Validation against Drug-Resistant Pathogens 🦠💡
  2. Strategically Engineered Au(I) Complexes for Orchestrated Tumor Eradication: Chemo-Phototherapy & Immunogenic Cell Death 🧬💀
  3. A One-Two Punch Targeting Reactive Oxygen Species and Fibril: Rescuing Alzheimer’s Disease 🧠⚡
  4. Construction of Interlayer Coupling Diatomic Nanozyme with Peroxidase-Like & Photothermal Activities for Efficient Synergistic Antibacteria ⚙️🔥
  5. Elaborately Engineered Au(I)-Based AIEgens: Robust & Broad-Spectrum Elimination Abilities Toward Drug-Resistant Bacteria 🦠🌟
  6. A New Strategy to Elevate Absorptivity of AIEgens for Intensified NIR-II Emission and Synergized Multimodality Therapy 🌈💉
  7. A Brain-Targeting NIR-II Ferroptosis System: Effective Visualization and Oncotherapy for Orthotopic Glioblastoma 🧠🛑
  8. A Novel Drug Susceptibility Testing AIEgen with Spatiotemporal Resolved Progress-Reporting for Therapy of Drug-Resistant Tumors 💊🔬
  9. Aggregation-Induced Conversion from TADF to Phosphorescence of Gold(I) Complexes with Millisecond Lifetimes 💫💰
  10. Novel Quinolizine AIE System: Visualization of Molecular Motion and Tailoring for Biological Application 🔬🧬

Conclusion:

Jing Zhang’s contributions to materials science and biomedicine through innovative luminescent technologies make him a strong candidate for the Best Researcher Award. His research is not only academically enriching but also holds immense promise for future healthcare applications. By continuing his multidisciplinary research, he can further solidify his position as a key figure in both academia and industry.

 

 

 

Chong-Miao Zhang | Microbial Cell Biology | Best Researcher Award

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Prof. Chong-Miao Zhang | Microbial Cell Biology | Best Researcher Award

Prof. Chong-Miao Zhang , Xi’an University of Architecture and Technology , China

Prof. Chong-Miao Zhang, Ph.D., is a distinguished Professor and Ph.D. Supervisor at Xi’an University of Architecture and Technology, China. He is a recognized member of the International Water Association (IWA) and holds influential positions in the Water Treatment and Reuse Professional Committee of the Chinese Society for Environmental Sciences and the Shaanxi Provincial Society of Toxicology. Prof. Zhang has dedicated his career to advancing research in environmental science and engineering. His efforts have led to numerous achievements, including over 100 published academic papers, several patented inventions, and the completion of multiple projects funded by the National Natural Science Foundation of China. He is a celebrated educator and researcher in the field of environmental health and wastewater treatment.

Publication Profile:

Scopus

Strengths for the Award:

Prof. Chong-Miao Zhang is highly deserving of the Best Researcher Award due to his outstanding contributions to environmental science and engineering. His work on environmental risk assessments, biological pollutants, and antibiotic resistance provides crucial insights into sustainable practices for wastewater reclamation and environmental health. He has successfully completed major research projects funded by the National Natural Science Foundation of China and the Key Research and Development Project of Shaanxi Province. Furthermore, Prof. Zhang has published over 100 papers in prestigious journals and holds 7 patents. His influence extends beyond research, with his active membership in key environmental societies and professional committees.

Areas for Improvement:

Although Prof. Zhang’s research output is impressive, further emphasis on the interdisciplinary application of his findings to real-world policy or industrial solutions could amplify his impact. Additionally, collaborations with international researchers could enhance the global applicability of his work. Increasing citation rates of his more recent papers would further solidify his standing in the scientific community.

Education:

Prof. Zhang holds a Ph.D. in Environmental Engineering from a prestigious institution, where he honed his expertise in environmental sciences, focusing on risk assessment, water treatment, and pollutants’ impact on human health. His educational background has equipped him with deep knowledge in both biological and chemical aspects of environmental engineering, enabling his success in various high-profile research projects. Prof. Zhang’s academic journey laid the foundation for his current work in advancing sustainable solutions for water reclamation and the detection of emerging pollutants. His training and educational path have made him an expert in handling complex environmental challenges, shaping his career toward becoming a leader in environmental research and policy development.

Experience:

Prof. Chong-Miao Zhang has extensive experience in both academia and research, serving as a Professor and Ph.D. Supervisor at Xi’an University of Architecture and Technology. He has led various national and provincial research projects, including those funded by the National Natural Science Foundation of China. His research has primarily focused on environmental engineering, biological pollutants, antibiotic resistance, and water treatment technologies. Prof. Zhang’s leadership is evident in his ability to guide multidisciplinary teams, publish over 100 academic papers, and secure patents. Furthermore, his involvement in professional committees, such as the Water Treatment and Reuse Professional Committee and Shaanxi Provincial Microbiology Society, has enhanced his reputation as a key figure in environmental sciences and public health.

Research Focus:

Prof. Zhang’s research primarily focuses on the risk assessment of biological pollutants, antibiotic resistance genes, and the detection and ecotoxicology of emerging pollutants like antibiotics and microplastics. His work investigates the impacts of pollutants in wastewater and their environmental consequences. He also conducts extensive research on the ecological and toxicological effects of contaminants, including antihistamine drugs such as loratadine, and the conjugative transfer of antibiotic resistance genes. Prof. Zhang’s research aims to develop advanced methods for environmental risk mitigation and improve water treatment practices to enhance sustainability and public health protection. His interdisciplinary approach makes him a leading expert in environmental risk assessment, wastewater treatment, and pollutant ecology.

Publications Top Notes:

  • “Antihistamine drug loratadine at environmentally relevant concentrations promotes conjugative transfer of antibiotic resistance genes: Coeffect of oxidative stress and ion transport” (2025) 📄
  • “Eliminating bacterial endotoxins and associated inhalation hazards in reclaimed water via ultraviolet/ferrate combination disinfection” (2025) 📄
  • “Characteristics of heterotrophic endophytic bacteria in four kinds of edible raw vegetables: species distribution, antibiotic resistance, and related genes” (2024) 📄
  • “Inhalation of ferrate-disinfected Escherichia coli caused lung injury via endotoxin-induced oxidative stress and inflammation response” (2024) 📄
  • “Effects of gradual increase of ciprofloxacin and cefotaxime on nitrogen and phosphorus removal and microbial community in moving bed biofilm reactor” (2024) 📄
  • “Variation Characteristics of Endotoxin Concentration and Its Occurrence During Chlorine Disinfection of Bacteria Contaminated Water” (2024) 📄
  • “Metagenomic insights into effects of carbon/nitrogen ratio on microbial community and antibiotic resistance in moving bed biofilm reactor” (2024) 📄

Conclusion:

Prof. Zhang’s exceptional contributions to environmental engineering, innovative research on pollutant detection, and expertise in microbial communities make him an exemplary candidate for the Best Researcher Award. His ability to integrate cutting-edge science with practical solutions demonstrates his potential for future breakthroughs in environmental science and engineering. Prof. Zhang’s continued influence in this field positions him as a key thought leader for global environmental sustainability challenges.