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

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:

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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.

Huadong Peng | Microbial Cell Biology | Best Researcher Award

Dr. Huadong Peng | Microbial Cell Biology | Best Researcher Award

Dr. Huadong Peng , University of Queensland , Australia

Dr. Huadong Peng is a Senior Research Fellow at the Australian Institute for Bioengineering and Nanotechnology (AIBN) at the University of Queensland. He is also a Future Academic Leader with Australia’s Food and Beverage Accelerator and UQ’s Biosustainability Hub. Dr. Peng earned his PhD from Monash University in 2018, followed by postdoctoral research at Imperial College London and the Technical University of Denmark. He worked as a research associate at Novozymes China before pursuing his academic journey. Dr. Peng’s work focuses on synthetic biology, metabolic engineering, and microbial communities. He has made significant contributions to the sustainable production of food ingredients, biochemicals, biofuels, and biomedicines. With 34 peer-reviewed publications and multiple patents, his research has earned recognition in prestigious journals. Dr. Peng is an active collaborator with international research institutions and a member of several professional societies.

Publication Profile: 

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Strengths for the Award:

Dr. Huadong Peng is highly suitable for the “Best Researcher Award” due to his outstanding contributions to the field of synthetic biology and metabolic engineering. With an h-index of 17 and over 900 citations, his research has significantly advanced the production of biochemicals, biofuels, and food ingredients using innovative microbial platforms. His work on synthetic microbial communities is pioneering, helping optimize bioproduction processes and contributing to sustainable practices in biotechnology. Dr. Peng has authored 34 peer-reviewed articles, including 18 as (co-)first or corresponding author, and has published in prestigious journals like Nature Microbiology, PNAS, and Nature Chemical Biology. Furthermore, his active collaboration with renowned institutions such as Imperial College London and the Technical University of Denmark enhances his global impact. His leadership in high-impact research projects and his commitment to industry-academic collaborations further showcase his strength as a researcher.

Areas for Improvement:

Although Dr. Peng has made remarkable strides in his research, expanding the visibility of his work through wider media channels could increase its impact beyond academic and professional communities. Additionally, while he has a strong publication record, engaging more in interdisciplinary research across different sectors like environmental sustainability could broaden the scope and influence of his work. Further patenting and commercializing his research could translate his innovations into more widespread industrial applications, fostering a greater connection between research and real-world outcomes.

Education:

Dr. Huadong Peng holds a PhD in synthetic biology from Monash University (2018). His doctoral research centered on metabolic engineering and synthetic microbial communities. Prior to his PhD, Dr. Peng earned a Master’s degree in Biotechnology from the University of Chinese Academy of Sciences in 2013. During his early career, he worked as a research associate at Novozymes China from 2013 to 2015, where he focused on biotechnological applications in the industrial sector. Dr. Peng’s academic journey further expanded with postdoctoral training at Imperial College London and the Technical University of Denmark, where he developed expertise in metabolic engineering and synthetic biology. These institutions have significantly shaped his research approach, allowing him to collaborate across international boundaries and achieve high-impact outcomes in sustainable bioengineering and biotechnology fields. His solid academic foundation combined with industry experience positions him as a leading figure in his research area.

Experience:

Dr. Huadong Peng has extensive experience in academic research and industrial collaborations. He is currently a Senior Research Fellow at the Australian Institute for Bioengineering and Nanotechnology (AIBN) at the University of Queensland, where he leads innovative projects on synthetic biology and metabolic engineering. Prior to this, Dr. Peng worked as a Future Academic Leader within Australia’s Food and Beverage Accelerator and UQ’s Biosustainability Hub. Dr. Peng’s postdoctoral experience at renowned institutions like Imperial College London and the Technical University of Denmark helped hone his expertise in synthetic biology, metabolic engineering, and synthetic microbial communities. His industrial experience includes working as a research associate at Novozymes China, which provided a deep understanding of applied biotechnology in real-world settings. His broad experience spans both academia and industry, positioning him to develop impactful and scalable biotechnological solutions. With multiple international collaborations, Dr. Peng continues to push the boundaries of bioengineering and sustainability.

Research Focus:

Dr. Huadong Peng’s research primarily revolves around synthetic biology, metabolic engineering, and the creation of synthetic microbial communities to enhance bioproduction. His work aims to develop microbial platforms capable of producing valuable biochemicals, biofuels, food ingredients, and biomedicines. By utilizing advanced genetic engineering techniques, Dr. Peng focuses on optimizing microbial strains for industrial-scale production of bio-based products, which can be sustainable alternatives to traditional chemical processes. His research on synthetic microbial communities has gained significant attention for its potential to create efficient, interdependent biological systems capable of enhanced bioproduction. Additionally, Dr. Peng works on metabolic pathways in microorganisms, focusing on increasing the yield and efficiency of bio-based production systems. His innovative approaches in metabolic engineering have direct applications in industries such as food, pharmaceuticals, and biofuels, contributing to both environmental sustainability and economic viability. He is a key figure in advancing biotechnological solutions to global challenges in sustainability.

Publication Top Notes:

  1. “High-throughput G protein‐coupled receptor‐based autocrine screening for secondary metabolite production in yeast” 🍃🧬
  2. “Engineered cross-feeding creates inter- and intra-species synthetic yeast communities with enhanced bioproduction” 🔬🍞
  3. “Metabolic Engineering of Corynebacterium glutamicum for the High-Level Production of l-Valine under Aerobic Conditions” 🧪⚙️
  4. “High-throughput GPCR-based autocrine screening for secondary metabolite production in yeast” 🧑‍🔬🌿
  5. “Yeast Platforms for Production and Screening of Bioactive Derivatives of Rauwolscine” 🍇🔬
  6. “Exploring engineering strategies that enhance de novo production of exotic cyclopropane fatty acids in Saccharomyces cerevisiae” 🧪🌱
  7. “A molecular toolkit of cross-feeding strains for engineering synthetic yeast communities” 🧬🍞
  8. “Bioconversion of Glucose-Rich Lignocellulosic Wood Hydrolysates to 3-Hydroxypropionic Acid and Succinic Acid using Engineered Saccharomyces cerevisiae” 🌿🍞
  9. “DELLA Proteins Recruit the Mediator Complex Subunit MED15 to Co-activate Transcription in Land Plants” 🌱🧬
  10. “Spontaneously established syntrophic yeast communities improve bioproduction” 🍞🌿

Conclusion:

Dr. Peng’s academic and professional journey, combined with his prolific research output, makes him an ideal candidate for the “Best Researcher Award.” His work addresses critical global challenges, particularly in sustainable production and biotechnology, positioning him at the forefront of synthetic biology and metabolic engineering. With his extensive experience, high-impact publications, and ongoing research initiatives, Dr. Peng is a deserving nominee for this prestigious award.