Sepideh Khoee | Polymer Chemistry | Best Researcher Award

Published on by Global Scholar Awards

🌟 Prof Dr. Sepideh Khoee, University of Tehran, Iran: Polymer Chemistry🏆

Professional Profiles:

Bio Summary:

Dr. Sepideh Khoee is a highly accomplished polymer chemist and professor at the University of Tehran, Iran. She earned her Ph.D. in polymer chemistry from Isfahan University of Technology in 2002, following an M.Sc. in organic chemistry and a B.Sc. in chemistry from Isfahan University. With a focus on nanotechnology and drug delivery, Dr. Khoee has made substantial contributions to her field, earning her international recognition and several prestigious awards.

Education:

  • Ph.D. in Polymer Chemistry, Isfahan University of Technology, 2002
  • M.Sc. in Organic Chemistry, Isfahan University, 1994
  • B.Sc. in Chemistry, Isfahan University, 1990

Research Focus:

  • Synthesis of micro/nanomotors
  • Synthesis of linear and branched copolymers
  • Synthesis of drug-loaded nanopolymers for drug delivery investigations

Professional Journey:

  • Professor, Department of Polymer Chemistry, University of Tehran (2013-present)
  • Visiting Associate Professor, Department of Materials Science and Engineering, Lehigh University, USA (2009-2010)
  • Associate Professor, Department of Polymer Chemistry, University of Tehran (2008-2013)
  • Assistant Professor, Department of Polymer Chemistry, University of Tehran (2003-2008)

Honors & Awards:

  • Maryam Mirzakhani Award at the 4th National Festival of Women and Science (2021)
  • COMSTECH Patent Award (2019)
  • Distinguished Researcher of Chemistry, University of Tehran Research Week (2018, 2015)
  • Outstanding Researcher, 7th Iran Nano Festival (NanoMatch, 2013)

Publications Top Noted & Contributions:

  • Author of several book chapters on nanotechnology and drug delivery
  • Notable works include chapters on medicinal plant-based terpenoids, reversible core–shell crosslinked micelles, and Janus nanoparticles in drug delivery

Title: “Use of NIR/NaBH4 Combinatorial Techniques for Simultaneous and High-Efficient Adsorption of Heavy Metal Ions from Contaminated Water by Chitosan/Au Janus Microdisks”

  • Journal: Surfaces and Interfaces
  • Publication Date: December 2023
  • DOI: 10.1016/j.surfin.2023.103801
  • Source: Crossref
  • Summary: This study explores the application of NIR (Near-Infrared) and NaBH4 combinatorial techniques for the simultaneous and efficient adsorption of heavy metal ions from contaminated water. The adsorption is facilitated by Chitosan/Au Janus Microdisks.

Title: “Magnetite‐Based Janus Nanoparticles, Their Synthesis and Biomedical Applications”

  • Journal: WIREs Nanomedicine and Nanobiotechnology
  • Publication Date: November 2023
  • DOI: 10.1002/wnan.1908
  • Source: Crossref
  • Summary: This article focuses on the synthesis of Magnetite-based Janus Nanoparticles and explores their potential biomedical applications.

Title: “Tuning the Motion Velocity of Enzyme-Driven Dextran/Polyacrylamide Janus Nanomotors by Incorporating the Thermo-Switchable PNIPAM Moieties in Their Structure”

  • Journal: European Polymer Journal
  • Publication Date: July 2023
  • DOI: 10.1016/j.eurpolymj.2023.112113
  • Source: Crossref
  • Summary: This research investigates the modulation of motion velocity in enzyme-driven Dextran/Polyacrylamide Janus Nanomotors through the incorporation of thermo-switchable PNIPAM moieties.

Title: “Dual-Drug Delivery by Anisotropic and Uniform Hybrid Nanostructures: A Comparative Study of the Function and Substrate–Drug Interaction Properties”

  • Journal: Pharmaceutics
  • Publication Date: April 11, 2023
  • DOI: 10.3390/pharmaceutics15041214
  • Source: Crossref
  • Summary: This study presents a comparative analysis of dual-drug delivery using anisotropic and uniform hybrid nanostructures, exploring their function and substrate-drug interaction properties.

Title: “The Simultaneous Role of Porphyrins’ H- and J- Aggregates and Host–Guest Chemistry on the Fabrication of Reversible Dextran-PMMA Polymersome”

  • Journal: Scientific Reports
  • Publication Date: December 2021
  • DOI: 10.1038/s41598-021-82256-7
  • Source: Crossref
  • Summary: This article explores the simultaneous roles of porphyrins’ H- and J-aggregates and host–guest chemistry in the fabrication of reversible Dextran-PMMA polymersomes.

These publications showcase Dr. Sepideh Khoee’s diverse research interests, spanning from environmental applications to biomedical nanotechnology and drug delivery. Her work reflects a multidisciplinary approach with a focus on innovative materials and techniques.

Author Metrics:

  • Holds a patent: “Synthesizing Nanocapsules Containing Reactive Amine” (US Patent 20,150,307,649)
  • Recognized for significant contributions to the field with awards such as the COMSTECH Patent Award and the Maryam Mirzakhani Award
  • Citations: 3,332 citations across 2,636 documents
  • Documents: 143
  • h-index: 36

Research Timeline:

  • 1996-2002: Ph.D. in polymer chemistry
  • 2003-2008: Assistant Professor, Department of Polymer Chemistry, University of Tehran
  • 2008-2013: Associate Professor, Department of Polymer Chemistry, University of Tehran
  • 2009-2010: Visiting Associate Professor, Lehigh University, USA
  • 2013-present: Professor, Department of Polymer Chemistry, University of Tehran

Dr. Khoee’s research journey reflects a commitment to advancing polymer chemistry, nanotechnology, and drug delivery, earning her accolades and recognition both nationally and internationally.

Noureddine Iberache | Electrochemical

Published on by Global Scholar Awards

🌟Mr. Noureddine Iberache, Congratulations on Winning the Best Researcher Award! 👏🌟🏆

  • Mr. Noureddine Iberache, Ibn Zohr University/Faculty of Sciences Agadir, Morocco: Electrochemical

Mr. Noureddine Iberache 🌟,Congratulations on being honored with the Best Researcher Award! 🏆 by ScienceFather Your dedication, commitment, and outstanding contributions to the field of electrochemistry have truly set you apart. 🚀

Your innovative work in Electrochemical Advanced Oxidation Processes, nanomaterial synthesis, and catalytic performance evaluation has not only advanced scientific knowledge but has also made a positive impact on our community.

This prestigious recognition is a testament to your hard work, perseverance, and passion for pushing the boundaries of knowledge. 🌐 Your research on the removal of agriculture and industrial effluents using advanced oxidation processes is making a significant difference in addressing environmental challenges.

May this award be a stepping stone to even greater achievements in your academic and research journey. 🎓 Your success inspires us all and serves as a beacon for aspiring researchers. Once again, heartfelt congratulations on this well-deserved honor! 🎉

Professional Profiles:
Bio Summary:

Noureddine Iberache is a dedicated and highly motivated 3rd-year PhD student specializing in electrochemistry. His research focuses on Electrochemical Advanced Oxidation Processes, metal oxide nanoparticles synthesis, catalytic performance evaluation, and pesticide mineralization studies. Noureddine is currently pursuing his PhD at Ibn Zohr University, Agadir, Morocco, with a thesis entitled “Removal of agriculture and industrial effluents using advanced oxidation processes (AOPs).” His academic journey includes a Master’s degree in Environmental Sciences and a Bachelor’s degree in fundamental studies in Chemistry.

Research Focus:

Noureddine’s research primarily centers around the development and application of Electrochemical and Photochemical Advanced Oxidation Processes. His expertise extends to the synthesis of nanomaterials based on metallic oxides, along with their structural, morphological, and chemical characterization. He is also actively involved in evaluating the catalytic performance of nanomaterials and studying the mineralization of pesticides. His proficiency in modeling optimal operating conditions using RSM-CDD and ANN methods demonstrates his commitment to advancing the field of electrochemistry.

Professional Journey:

Throughout his academic journey, Noureddine has demonstrated strong problem-solving skills and an analytical mindset. He actively engages in effective collaboration with cross-functional teams, ensuring the on-time and successful completion of projects. With teaching experiences at the License level, he contributes to the academic development of students in the field of Chemistry.

Research Timeline:
  • 2015-2018: Bachelor’s degree in fundamental studies in Chemistry.
  • 2018-2020: Master’s degree in Environmental Sciences.
  • Since 2021: Pursuing a PhD in Electrochemistry, specializing in the removal of agriculture and industrial effluents using AOPs.
Publications & Contributions:

He has made significant contributions to the scientific community through publications. Notable works include articles on the toxicity profile, phytochemical composition, and antiscaling properties of the aqueous extract of Ocimum basilicum L. leaves, as well as research on the degradation of fungicide Chlorothalonil using Fe3O4 nanoparticles. His research on the removal of the insecticide Imidacloprid from water using Electro-Fenton and Photo-Electro-Fenton processes was presented at the INTERNATIONAL KORKUT ATA SCIENTIFIC RESEARCHES CONFERENCE.

1.Title: “Toxicity Profile, Phytochemical Composition, and Anti-scaling Properties of the Aqueous Extract of Ocimum basilicum L. Leaves as Novel Green and Cost-Effective Inhibitor: Experimental, MC/SAA and DFT Approach”

Authors:

  • M.E. Housse
  • A. Hadfi
  • I. Karmal
  • N. Iberache (corresponding author)
  • A. Driouiche

Journal: Waste and Biomass Valorization

Year: 2023

Volume and Issue: Volume 14, Issue 11

Pages: 3553–3573

Summary: The document focuses on the aqueous extract of Ocimum basilicum L. leaves and its potential as a green and cost-effective inhibitor. The study includes an experimental approach and utilizes MC/SAA (Monte Carlo/Simulated Annealing) and DFT (Density Functional Theory) methods. The investigation covers the toxicity profile, phytochemical composition, and anti-scaling properties of the mentioned extract.

2. Title: “Removal of the Insecticide Imidacloprid from Water in Commercial Formulation using Electro-Fenton and Photo-Electro-Fenton: Optimization of COD Removal through Response Surface Methodology RSM-CCD.”

Journal: Chemical Engineering and Processing – Process Intensification

Year: 2023-12

Type: Journal Article

Summary: The research focuses on the removal of the insecticide Imidacloprid from water in its commercial formulation. Electro-Fenton and Photo-Electro-Fenton methods are employed, with an emphasis on optimizing Chemical Oxygen Demand (COD) removal. The study utilizes Response Surface Methodology (RSM-CCD) for optimization.