Esmail sohouli | Analytical Chemistry | Best Researcher Award

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🌟Dr. Esmail sohouli, Analytical Chemistry, Best Researcher Award🏆

  •  Doctorate at Kharazmi University, Iran 

Esmail Sohouli is a dedicated researcher in the field of analytical chemistry, with a focus on nanomaterials and electrochemical sensors. With a strong academic background and extensive research experience, Sohouli has contributed significantly to the development of novel materials and methods for energy conversion and storage, as well as environmental applications. He is known for his expertise in materials synthesis, structural characterization, and electrochemical analysis, as well as his proficiency in software tools for data interpretation. Sohouli is a member of various scientific organizations and has received numerous honors and awards for his contributions to the field.

Author Metrics:

Sohouli’s publications have been published in journals with notable impact factors, indicating the significance of his research contributions. He has collaborated with renowned researchers and has demonstrated expertise in a wide range of topics within analytical chemistry and nanotechnology.

Scopus Profile

Esmail Sohouli is a researcher based in Tehran, Iran, affiliated with Shahid Rajaee Teacher Training University. He has a Scopus Author Identifier with a total of 1,181 citations from 705 documents. Sohouli has authored 54 documents, resulting in an h-index of 22. His research interests lie in the fields of analytical chemistry, nanomaterials, and electrochemical sensors.

Education:

Sohouli holds a Ph.D. in Analytical Chemistry from Imam Hossein University, where he conducted research on the supercapacitive properties of metal oxides with carbon nanomaterials. Prior to his doctoral studies, he completed a Master of Science in Nanoscience and Nanotechnology and a Bachelor of Science in Applied Chemistry.

Research Focus:

Sohouli’s research primarily focuses on sustainable energy conversion and storage, with an emphasis on developing advanced materials for electrochemical applications. He specializes in the synthesis and characterization of nanomaterials, particularly carbon-based nanostructures, and their integration into electrochemical sensors for the detection of various compounds, including drugs and environmental pollutants.

Professional Journey:

Sohouli has gained extensive research experience through various positions as a research assistant and postdoctoral fellow at several prestigious institutions in Iran. He has worked on numerous projects involving the design and fabrication of electrochemical biosensors, nanocomposite materials, and photocatalysts for environmental remediation and drug analysis.

Honors & Awards:

Throughout his academic and professional career, Sohouli has received several honors and awards, including being among the top 2% of scientists and winning the National Elite Foundation Grant for Postdoctoral Fellowship. He has also been recognized for his exceptional academic achievements and contributions to the field of analytical chemistry.

Publications Noted & Contributions:

Sohouli has made significant contributions to the scientific community through his publications in reputable journals, covering various aspects of nanomaterials, electrochemical sensors, and environmental applications. His research articles have been well-cited and have contributed to advancements in the field.

Third-order nonlinear optical susceptibility of (Cu, Mn, Cd) doping zeolitic imidazolate framework-67 in the visible region

  • Authors: Ghalkhani, M.; Nadafan, M.; Sohouli, E.
  • Published in: Optics and Laser Technology, 2024, Volume 171, Article 110338
  • Description: This study explores the third-order nonlinear optical susceptibility of (Cu, Mn, Cd) doping zeolitic imidazolate framework-67 in the visible region, with contributions from Esmail Sohouli and other researchers.

Synthesis and characterization of N-MPG/CuS flower-like/MXene to modify a screen-printed carbon electrode for electrochemical determination of nalbuphine

  • Authors: Hossein Mashhadizadeh, M.; Ghalkhani, M.; Sohouli, E.
  • Published in: Journal of Electroanalytical Chemistry, 2024, Volume 957, Article 118130
  • Description: This article presents the synthesis and characterization of N-MPG/CuS flower-like/MXene for modifying a screen-printed carbon electrode for electrochemical determination of nalbuphine, with contributions from Esmail Sohouli and others.

Preparation of high-performance supercapacitor electrode with nanocomposite of CuO/NCNO flower-like

  • Authors: Sohouli, E.; Teymourinia, H.; Ramazani, A.; Adib, K.
  • Published in: Scientific Reports, 2023, Volume 13(1), Article 16221
  • Description: This article describes the preparation of a high-performance supercapacitor electrode using a nanocomposite of CuO/NCNO flower-like structure, with Esmail Sohouli among the contributing authors.

Highly sensitive electrochemical azaperone sensor based on magnetic silica –NH2-CS2 in the ostrich meat and rat plasma and its comparison with HPLC–MS/MS

  • Authors: Gandomi, F.; Taghizadeh, M.J.; Khosrowshahi, E.M.; Joseph, Y.; Rahimi-Nasrabadi, M.; Sohouli, E.
  • Published in: Journal of Nanostructure in Chemistry, 2023, Volume 13(6), Pages 591–604
  • Description: This article presents a highly sensitive electrochemical azaperone sensor based on magnetic silica –NH2-CS2, with Esmail Sohouli as one of the contributing authors.

Development of CNOs/PANI-NTs/AuNPs nanocomposite as an electrochemical sensor and Z-scheme photocatalyst for determination and degradation of ciprofloxacin

  • Authors: Teymourinia, H.; Al-nayili, A.; Alshamsi, H.A.; Gholami, M.; Sohouli, E.
  • Published in: Surfaces and Interfaces, 2023, Volume 42, Article 103412
  • Description: This article discusses the development of a CNOs/PANI-NTs/AuNPs nanocomposite as an electrochemical sensor and Z-scheme photocatalyst for the determination and degradation of ciprofloxacin, with Esmail Sohouli among the contributing authors.

Research Timeline:

Sohouli’s research journey has evolved over the years, starting from his undergraduate studies to his current position as a postdoctoral fellow. He has worked on numerous projects, gaining expertise in materials synthesis, structural characterization, and electrochemical analysis. His research trajectory reflects a commitment to addressing important challenges in energy, environment, and health through innovative scientific solutions.

Subing Yang | Material characterization

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Celebrating Excellence: Congratulations to Dr. Subing Yang on Receiving the “Best Researcher Award”! 🌟🏆

  • Assoc Prof Dr. Subing Yang, Jiangsu University, China: Material characterization

🎉 Congratulations, Dr. Subing Yang! 🎉It is with great joy and admiration that we extend our heartfelt congratulations on receiving the prestigious “Best Researcher Award” by ScienceFather Your outstanding contributions to the field of materials science, particularly in the areas of microstructure characterization, irradiation effects, and surface modification, have set a remarkable standard for excellence.

Your dedication to advancing knowledge and your innovative approach to understanding and mitigating irradiation-induced damage have not only enriched the scientific community but have also brought immense pride to our institution. This well-deserved recognition is a testament to your hard work, perseverance, and the impactful contributions you’ve made to the world of research.

May this award serve as a celebration of your accomplishments thus far and as an inspiration for the continued brilliance we anticipate from your future endeavors. We are honored to have such an exceptional researcher as part of our academic community. Once again, congratulations on this well-earned achievement, and here’s to many more successes in your illustrious career! 🌟👏

 

Professional Profiles:

Bio Summary:

Dr. Subing Yang is an Associate Professor at Jiangsu University with expertise in microstructure characterization, irradiation effects on materials, and surface modification. He completed his Ph.D. in Quantum Science and Engineering from Hokkaido University, focusing on residual elastic strain and defects in He+ ion irradiated 4H-SiC. Dr. Yang has a strong background in electron microscopy and has actively contributed to research in the field of materials science, particularly in understanding and mitigating irradiation-induced damage. His current research at Jiangsu University continues to explore microstructure characterization and surface modification techniques for metals.

Education:
  • Doctor of Philosophy (Ph.D.) in Quantum Science and Engineering
    • Hokkaido University, 2017.09 – 2020.09
    • Research: Residual elastic strain and defects in He+ ion irradiated 4H-SiC
  • Master of Metallurgical Engineering
    • University of Science and Technology Beijing, 2014.09 – 2017.01
    • Research: Irradiation effect of high-energy particles on steel
  • Bachelor of Metallurgical Engineering
    • Inner Mongolia University of Science and Technology, 2010.09 – 2014.06
Professional Journey:
  • Postdoctoral Fellow
    • Hokkaido University, 2020.10 – 2022.09
    • Research: Microstructure characterization, irradiation effect of high-energy particles, surface modification, and oxidation of metal.
  • Associate Professor
    • Jiangsu University, from 2022.12 – present
    • Research: Continuation of microstructure characterization, irradiation effects, and surface modification studies.
Research Focus and Skills:
  1. Microstructure Characterization:
    • Analyzing inner material microstructures using various microscopy technologies.
    • Proficient in electron microscopy, including focused-ion-beam system, transmission electron microscope, and scanning TEM.
    • Skills in SEM, EBSD, XPS, AFM.
  2. Irradiation Effects on Materials:
    • Studying the impact of irradiation-induced damage on materials used in nuclear reactors and aerospace.
    • Characterizing damages using EBSD, Raman microscopy, TEM, etc.
    • Investigating mechanisms to mitigate damages.
  3. Surface Modification and Metal Oxidation:
    • Modifying surfaces using ion implantation and studying the effects on oxidation.
    • Exploring anti-oxidation technologies like coatings and surface alloying.
Publications & Contributions:
  1. Author Metrics:
    • Document & Citation Trends:
      • Chart displaying the number of documents published and citations received across the years (2015-2023).
    • Documents:
      • 11 documents in total.
      • Results list showing the most recent 10 documents.
    • Metrics Summary:
      • 2 Preprints
      • 18 Co-Authors
    Notable Publications:
    1. Effects of gas phase ion irradiation and vacuum annealing on the visible light photocatalytic properties of WO3
      • Published in Vacuum, 2022, 206, 111519
      • 1 Citation
    2. Tailored copper oxidation in alkaline aqueous solution after helium cation implantation
      • Published in Applied Surface Science, 2022, 591, 153087
      • 1 Citation
    3. An investigation of surface contamination introduced during He+ implantation and subsequent effects on the thermal oxidation of Cu
      • Published in Applied Surface Science, 2022, 579, 152163
      • 2 Citations
    4. Room-Temperature Hydrogen Absorption of Ti with Robust Surface Coated by Hexagonal Boron Nitride
      • Published in ACS Applied Energy Materials, 2022, 5(1), pp. 951–957
      • 1 Citation
    5. Anisotropic defect distribution in He+-irradiated 4H-SiC: Effect of stress on defect distribution
      • Published in Acta Materialia, 2021, 211, 116845
      • 19 Citations
    6. Electron energy-loss spectroscopic evaluation of depth-dependent swelling of He+ ion-irradiated 4H-SiC correlated with defect type
      • Published in Journal of Applied Physics, 2020, 127(17), 175106
      • 4 Citations
    7. Development of Laser-HVEM and Its Application on In-situ Observation on Lattice Defects Behavior
      • Published in Jiegou Huaxue, 2020, 39(4), pp. 623–629
      • 0 Citations
    8. Non-destructive evaluation of the strain distribution in selected-area He+ ion irradiated 4H-SiC
      • Published in Applied Surface Science, 2020, 500, 144051
      • 11 Citations
    9. Effect of pulsed-laser and/or electron irradiation on vacancy diffusion in SUS316L austenitic stainless steel
      • Published in Gongcheng Kexue Xuebao/Chinese Journal of Engineering, 2017, 39(6), pp. 903–908
      • 2 Citations
    10. Effect of laser and/or electron beam irradiation on void swelling in SUS316L austenitic stainless steel
      • Published in Journal of Nuclear Materials, 2017, 488, pp. 215–221
      • 8 Citations
Research Timeline of Dr. Subing Yang
  • 2010 – 2014: Bachelor’s Degree
    • Metallurgical Engineering at Inner Mongolia University of Science and Technology
  • 2014 – 2017: Master’s Degree
    • Metallurgical Engineering at University of Science and Technology Beijing
    • Research: Irradiation effect of high-energy particles on steel
  • 2017 – 2020: Ph.D. in Quantum Science and Engineering
    • Quantum Science and Engineering at Hokkaido University
    • Research: Residual elastic strain and defects in He+ ion irradiated 4H-SiC
  • 2020 – 2022: Postdoctoral Fellowship
    • Research at Hokkaido University
      • Microstructure characterization
      • Irradiation effect of high-energy particles
      • Surface modification and oxidation of metal
  • 2022 – Present: Associate Professor at Jiangsu University
    • Continued research in microstructure characterization, irradiation effects, and surface modification