Mohammad Madani | Chemistry | Best Research Article Award

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Dr. Mohammad Madani | Chemistry | Best Research Article Award

Polymeric Nanocomposite at University of Tehran, Iran

Dr. Mohammad Madani is a distinguished researcher in polymer chemistry and nanotechnology. With a strong academic background and extensive research experience, he has contributed significantly to the fields of electrospinning, nanofibers, and polymeric materials. He has been affiliated with renowned institutions, including the University of Tehran and Qatar University, working on advanced polymeric materials with applications in membranes, sensors, and nanocomposites. His collaborative research with international teams has resulted in several high-quality publications in leading journals. Throughout his career, he has been involved in pioneering studies that bridge fundamental chemistry with industrial applications. His expertise in organic-inorganic hybrid materials, functional nanofibers, and membrane technology highlights his dedication to advancing material sciences. Dr. Madani’s work has had a profound impact on fields such as medical sciences, environmental engineering, and advanced materials development, making him a well-respected scientist in his domain.

Education

Dr. Madani completed his Bachelor of Science in Pure Chemistry from the University of Tehran in 2002. He continued his studies at the same institution, earning a Master of Science in Organic Chemistry in 2006, where he focused on developing crosslinkable medium-density polyethylene on a semi-industrial scale. His doctoral research, completed in 2010, specialized in nanofiber preparation via electrospinning, a cutting-edge technique in polymer chemistry. His Ph.D. dissertation, supervised by Dr. N. Sharifi-Sanjani, explored novel methods to fabricate organic-inorganic hybrid nanofibers. Dr. Madani further expanded his expertise through a postdoctoral project at Qatar University (2012–2014), where he worked on polymeric adhesives containing carbon nanotubes. Additionally, he served as a Scientific Board member at the Agricultural Biotechnology Research Institute of Iran (2014–2020), contributing to material science applications in agricultural biotechnology. His educational background has provided a strong foundation for his research in polymeric materials and nanotechnology.

Professional Experience

Dr. Madani has held various prestigious academic and research positions. He served as a Scientific Board Member at the Agricultural Biotechnology Research Institute of Iran (ABRII) from 2014 to 2020, where he contributed to the development of polymeric and nanomaterial-based solutions for agricultural applications. During his postdoctoral tenure at Qatar University (2012–2014), he worked extensively on carbon nanotube-based polymeric adhesives, a project that bridged academia and industrial applications. Additionally, he has been affiliated with the University of Tehran, where he conducted groundbreaking research in electrospinning, membrane separation, and nanofiber synthesis. His expertise extends to supervising students, collaborating on international research projects, and publishing extensively in high-impact chemistry and engineering journals. Dr. Madani has also contributed to the development of advanced polymeric materials for applications in membrane technology, sensors, and biomedical sciences, positioning him as a leading expert in his field.

Research Interests

Dr. Madani’s research primarily focuses on polymeric materials, electrospinning techniques, nanofiber synthesis, and membrane separation technologies. He has made significant contributions to the development of organic-inorganic hybrid nanofibers, which have applications in filtration, drug delivery, and energy storage. His work on polystyrene/titanium dioxide (PS/TiO₂) composite nanofibers has improved the surface-to-volume ratio of materials used in advanced material engineering. Additionally, he has investigated hollow fiber membrane contactors for use in medical and pharmaceutical applications. His recent projects include carbon nanotube-reinforced adhesives, which have potential industrial applications in electronics, aerospace, and biomedical engineering. Dr. Madani’s interdisciplinary approach integrates polymer science, nanotechnology, and material engineering, making his research impactful across multiple scientific domains. His dedication to developing novel materials continues to push the boundaries of polymer chemistry and applied nanotechnology.

Awards and Honors

Dr. Madani has received recognition for his contributions to polymer chemistry and nanotechnology. His research on nanofibers, membrane technology, and polymer composites has been acknowledged in international forums. He has published in high-impact journals, earning citations and recognition from peers in material science, chemical engineering, and nanotechnology. He has also been an invited speaker at scientific conferences, where he has presented his innovative research on advanced polymeric materials. As a postdoctoral researcher at Qatar University, he played a crucial role in developing carbon nanotube-based adhesives, a project that earned recognition for its industrial applicability. His contributions to hollow fiber membrane contactors in medical sciences have been widely appreciated. Dr. Madani’s commitment to cutting-edge research has positioned him as a leading figure in polymer chemistry, and he continues to contribute to scientific advancements in materials science and engineering.

Conclusion

Dr. Mohammad Madani is a strong candidate for the award based on his contributions to polymer chemistry, electrospinning, and nanomaterials. However, to be a top contender, he should further enhance the visibility and impact of his work through higher-impact publications, patents, and industry collaborations. If his nominated research article presents novel advancements in polymer science or nanotechnology, he would be a worthy recipient.

Publications Top Noted

  • Prediction of nanofiber diameter and optimization of electrospinning process via response surface methodology

    • Authors: N. Naderi, F. Agend, R. Faridi-Majidi, N. Sharifi-Sanjani, M. Madani
    • Year: 2008
    • Citations: 32

  • PS/TiO₂ (polystyrene/titanium dioxide) composite nanofibers with higher surface-to-volume ratio prepared by electrospinning: Morphology and thermal properties

    • Authors: M. Madani, N. Sharifi-Sanjani, A. Hasan-Kaviar, M. Choghazardi
    • Year: 2013
    • Citations: 28

  • Distinguished discriminatory separation of CO₂ from its methane-containing gas mixture via PEBAX mixed matrix membrane

    • Authors: P.A. Gamali, A. Kazemi, R. Zadmard, M.J. Anjareghi, A. Rezakhani, R. Rahighi, M. Madani
    • Year: 2018
    • Citations: 19

  • Multi-phase composite nanofibers via electrospinning of latex containing nanocapsules with core-shell morphology

    • Authors: R. Faridi-Majidi, M. Madani, N. Sharifi-Sanjani, S. Khoee, A. Fotouhi
    • Year: 2012
    • Citations: 19

  • Preparation of granular crosslinkable medium-density polyethylene

    • Authors: M. Madani, N. Sharifi-Sanjani, E. Rezaei-Zare, R. Faridi-Majidi
    • Year: 2007
    • Citations: 17

  • Preparation of nanocapsules via emulsifier-free miniemulsion polymerization

    • Authors: M. Barari, R. Faridi-Majidi, M. Madani, N. Sharifi-Sanjani, M.A. Oghabian
    • Year: 2009
    • Citations: 14

  • Magnetic polystyrene nanocapsules with core-shell morphology obtained by emulsifier-free miniemulsion polymerization

    • Authors: M. Madani, N. Sharifi-Sanjani, R. Faridi-Majidi
    • Year: 2011
    • Citations: 13

  • A novel potentiometric Ni²⁺-sensor based on a Ni²⁺ ion-imprinted polymer

    • Authors: N. Hamidi, T. Alizadeh, M. Madani
    • Year: 2018
    • Citations: 10

  • Aureole nanofibers by electrospinning of PAMAM-PEO solution

    • Authors: M. Madani, N. Sharifi-Sanjani, R. Iraji-Rad
    • Year: 2009
    • Citations: 9

  • Applications of Hollow Fiber Membrane Contactors in Advanced Medical Sciences and Pharmaceutics

    • Authors: H. Tabesh, G. Amoabediny, M. Madani, M.H. Gholami, A. Kashefi, K. Mottaghy
    • Year: 2012
    • Citations: 5

  • Preparation of manganese oxide–polyethylene oxide hybrid nanofibers through in situ electrospinning

    • Authors: M. Madani, N. Sharifi-Sanjani, S. Khoee, A. Hasan-Kaviar, A. Kazemi
    • Year: 2010
    • Citations: 5

  • Synthesis of Calcium Carbonate-Polyethylene Oxide Hybrid Nanofibers Through In-Situ Electrospinning

    • Authors: R. Faridi-Majidi, N. Sharifi-Sanjani, M. Madani
    • Year: 2008
    • Citations: 5

  • Preparation of core-shell and hollow fibers using layer-by-layer (LbL) self-assembly of polyelectrolytes on electrospun submicrometer-scale silica fibers

    • Authors: A. Kazemi, J. Lahann, M. Madani, N. Sharifi-Sanjani, A. Hasan-Kaviar
    • Year: 2010
    • Citations: 2

  • Using Electrospinning Technique for Preparation of Cobalt Hydroxide Nanoparticles

    • Authors: M. Madani, A.S. Hamouda
    • Year: 2016
    • Citations: 1

  • Preparation of polyethylene oxide-cobalt hydroxide hybrid nanofibers

    • Authors: M. Madani
    • Year: —-
    • Citations: —-

 

Idrees Khan | Applied Chemistry | Best Researcher Award

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Dr Idrees Khan | Applied Chemistry | Best Researcher Award

Postdoctoral fellow,School of Chemistry and Chemical Engineering, Northwestern Polytechnical University, China

Dr. Idrees Khan is a renowned scientist specializing in Applied Chemistry with expertise in nanomaterials and nanocomposites for environmental applications. With over 60 research publications and more than 8,000 citations, Dr. Khan’s work has garnered international recognition, including his inclusion in the top 2% scientists of 2024. His pioneering research focuses on enhancing the photocatalytic efficiency of metal oxide nanoparticles, contributing significantly to environmental sustainability. Dr. Khan is a Postdoctoral Fellow at Northwestern Polytechnical University, China, and an Honorary Postdoctoral Fellow at INTI International University, Malaysia. His efforts in computational simulations, alongside experimental techniques, position him as a leader in his field. Dr. Khan is dedicated to advancing innovative solutions for environmental pollution using cutting-edge nanotechnology, with his review article on nanoparticles being the most popular on Science Direct.

Profile

Strengths for the Award:

  1. Extensive Research Contributions:
    • Dr. Khan has an impressive track record with over 60 research articles published in reputable journals and more than 8,000 citations, a testament to the impact and quality of his work. His review article on nanoparticles, “Nanoparticles: Properties, applications, and toxicities,” has garnered significant attention, making it one of the most popular articles on ScienceDirect with the highest citations.
  2. High Research Impact:
    • His inclusion in the top 2% of scientists in 2024 highlights his global recognition and the influence of his research in his field. His work has contributed to enhancing the photocatalytic efficiency of metal oxide nanoparticles, which has vital implications for environmental sustainability.
  3. Interdisciplinary Expertise:
    • Dr. Khan’s expertise spans both experimental and computational research, covering the synthesis of advanced nanomaterials, their applications in environmental cleanup, and computational simulations. This broad skill set gives him an edge in tackling multifaceted problems in applied chemistry and materials science.
  4. International Collaboration and Recognition:
    • His experience as a postdoctoral fellow at prestigious institutions like Northwestern Polytechnical University in China and INTI International University in Malaysia underscores his global network and recognition in the scientific community. This international experience enriches his research and outreach efforts.
  5. Diverse Range of Research Topics:
    • His research interests range from photocatalysis, material science, and environmental monitoring to toxicology and nanocomposite development. Such diversity broadens his ability to solve complex environmental problems, contributing significantly to sustainable technologies.
  6. Academic Background and Teaching Experience:
    • Dr. Khan has demonstrated strong teaching capabilities, having worked as a visiting lecturer at the University of Malakand and currently serving as an honorary postdoctoral fellow. His ability to bridge teaching with research adds another layer to his profile as a well-rounded academic.
  7. Leadership in Research Publications:
    • His high citation count, coupled with his leadership in publishing high-impact articles, indicates his strong research direction and ability to lead projects that resonate with the scientific community. His involvement in cutting-edge studies like photocatalytic applications and microwave absorption for environmental remediation demonstrates his leadership in emerging fields.

Areas for Improvement:

  1. Public Outreach and Broader Engagement:
    • While Dr. Khan’s research is impactful, there is potential for expanding his public engagement efforts. He could focus on bridging the gap between scientific research and public awareness by making his findings more accessible to non-experts, particularly in the context of environmental sustainability.
  2. Diversity in Research Funding and Projects:
    • Seeking more diverse funding sources or collaborative projects could enhance his research scope. Additionally, focusing on applications of nanotechnology in renewable energy or climate change mitigation could be an area for further growth.
  3. Collaboration with Industry:
    • Increased collaboration with industry could allow for the practical application of his research, translating his findings from theoretical studies to real-world, commercialized technologies. Partnering with industry experts in nanomaterials development and environmental engineering could lead to impactful innovations.

Education

Dr. Idrees Khan holds a Ph.D. in Applied Chemistry from Bacha Khan University (2020) with a CGPA of 3.5. He completed his M.Phil. in Applied Chemistry from University of Malakand in 2016, achieving a CGPA of 3.44. Prior to his graduate studies, Dr. Khan obtained a BS in Applied Chemistry from the University of Malakand (2013), where he excelled with a CGPA of 3.56. He also earned a Bachelor of Education from Sarhad University (2015). His early education includes S.S.C and F.Sc from the BISE Saidu Sharif Swat. Dr. Khan’s strong academic foundation has empowered him to pursue a career in nanomaterials research, specializing in photocatalysis and nanocomposites. His dedication to learning and research has driven his success in both academia and scientific innovation.

Experience 

Dr. Idrees Khan has significant academic and research experience. He served as a Visiting Lecturer in the Department of Chemistry at the University of Malakand (2015-2018), where he taught undergraduate students and mentored them in various chemistry courses. He is currently a Postdoctoral Fellow at Northwestern Polytechnical University, China, since May 2023, where he focuses on advanced nanomaterials for environmental applications. Additionally, Dr. Khan holds the position of Honorary Postdoctoral Fellow at INTI International University, Malaysia, since June 2023. His role involves contributing to collaborative research efforts and fostering innovation in the field of nanotechnology. His experience spans various research methodologies, including computational simulations, nanomaterials synthesis, and environmental remediation. Dr. Khan has also participated in numerous international conferences and workshops, sharing his expertise and contributing to the global scientific community.

Research Focus 

Dr. Idrees Khan’s research primarily focuses on the development and application of nanomaterials and nanocomposites for environmental sustainability. He works on enhancing the photocatalytic efficiency of metal oxide nanoparticles to address environmental issues, such as pollution control and wastewater treatment. His research delves into the synthesis and characterization of nanostructured materials, particularly supported and unsupported metal oxide nanoparticles, and their photocatalytic applications for degrading organic pollutants. Dr. Khan also specializes in computational simulations, particularly in studying the behavior of nanomaterials in environmental settings. His work extends to exploring the toxicities and applications of nanoparticles in environmental decontamination. His research aims to develop sustainable, efficient solutions for environmental challenges, including water purification and air quality improvement. Dr. Khan is also working on biological applications of nanomaterials and their interactions with pollutants and microorganisms.

Publications

  1. Strategically coupled tungsten oxide-zinc oxide photosystems for solar-driven nerve agent simulant degradation and hydrogen evolution 🌞⚗️
  2. Preparation and performance of porous carbon microwave absorber with high porosity from carbonized natural plant fibers 🌱🧯
  3. Fabrication of polydopamine doped helical/chiral porous carbon fiber (HPCFs@PDA) and N-doped carbon layers (HPCFs@NCLs) for their application as wave absorber with ultrawide EAB 📡🔬
  4. Controllable and lightweight ZIF-67@PAN derived Co@C nanocomposites with tunable and broadband microwave absorption 🧲🌐
  5. Gold recovery through synergetic adsorption and reduction using acid–base additive-reinforced tubular carbon nanofibers 💰🧪
  6. Advancements in adsorption and photodegradation technologies for Rhodamine B dye wastewater treatment: fundamentals, applications, and future directions 💧💡
  7. Highly selective sensing of toxic NOx gases for environmental monitoring using Ru-doped single-walled TiO2 nanotube: A density functional theory study 🏭⚙️
  8. Adsorption of thiophene over the transition metal-decorated C2N monolayer: A DFT approach 🌫️🧑‍🔬
  9. Improvement of the Photocatalytic and Biological Activities of Copper Oxide Nanoparticles by Coupling with Barium Oxide Nanoparticles 🧪🌿
  10. Understanding the toxicity of trinitrophenol and promising decontamination strategies for its neutralization: Challenges and future perspectives ☠️🌍

Conclusion

Dr. Idrees Khan is highly deserving of the Best Researcher Award due to his outstanding contributions to appliedchemistry and nanomaterials science, his interdisciplinary expertise, and his significant impact on environmental sustainability. His prolific research output, leadership in groundbreaking studies, and international collaborations solidify his reputation as a leader in his field. Despite some opportunities for broader outreach and industry collaboration, his overall profile is incredibly strong, making him a top contender for such an award.Dr. Khan’s extensive body of work, particularly in photocatalysis and nanocomposites, as well as his growing international recognition, aligns perfectly with the criteria typically sought in award recipients.