Tomasz Zieliński | Nanotechnology | Best Industrial Research Award

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Mr. Tomasz Zieliński | Nanotechnology | Best Industrial Research Award

Ekspert at Orlen S.A, Poland

Tomasz Zieliński is a highly experienced chemical technologist with over 16 years of professional involvement in the fuel and petrochemical industries, particularly at ORLEN S.A. His expertise spans across production process optimization, project supervision, fuel development, and integration of innovative technologies. His forward-looking strategies in synthetic fuels, hydrogen production, and microbiological hydrocarbon decomposition showcase his drive for industrial innovation aligned with European environmental directives like RED III and Fit for 55.

Publication Profile 

Orcid

Educational Background 🎓

  • 2021 – Present
    PhD Candidate, Nicolaus Copernicus University in Toruń
    Field: Likely related to chemical technology and alternative fuels

  • 2012 – 2013
    Postgraduate Studies, Tadeusz Kościuszko Cracow University of Technology
    Field: Occupational Health and Safety

  • 2010 – 2012
    Master of Science, Warsaw University of Technology
    Specialization: Chemical Technology

  • 2006 – 2010
    Bachelor of Engineering, Warsaw University of Technology
    Specialization: Organic Chemical Technology

  • 2002 – 2006
    Chemical Technology Technician, Chemical Technical School, Płock

Professional Experience 💼

  • ORLEN S.A.
    2023 – Present: Expert in the Efficiency Project Implementation Coordination Team
    2015 – 2023: Senior Specialist, Technology Office
    2009 – 2014: Senior Operator of Production Processes, Claus Installation
    2004 – 2009: Internship in Catalytic Cracking II, Olefins II Installation

  • Key Projects and Roles:

    • Coordination and implementation of all major fuel development and efficiency projects

    • Leading technological testing (e.g., HVO blending with diesel)

    • Oversight of biocomponent selection, fuel additive testing, and quality problem resolution (e.g., for Jet A-1 and diesel)

    • Contributor to the national working groups on climate, regulation, and alternative fuels via POPIHN

    • Development and application of proprietary patents on microbiological hydrocarbon decomposition for isopropanol and hydrogen generation

Research Interests 🔬

  • Fuel quality improvement and additive selection

  • Development of synthetic fuels and hydrogen technologies

  • Microbiological processing of petroleum residues

  • Petrochemical process optimization

  • Environmental compliance and circular fuel economy

  • Innovation in refinery and chemical plant efficiency

Awards and Honors🏆✨

Tomasz Zieliński’s:

  • Long-term expert role at ORLEN S.A.

  • Involvement in high-impact national projects

  • Patent contributions

  • Participation in strategic national policy groups on fuel and energy

demonstrate recognition and trust in his expertise from both industrial and research communities.

Conclusion🌟

Tomasz Zieliński is a well-rounded industrial researcher and technologist whose contributions have significantly advanced the fuel and petrochemical sectors in Poland. His combined strengths in innovation, process optimization, public policy engagement, and scientific rigor make him a valuable leader in industrial research and development. His ongoing Ph.D. research further enhances his academic depth, and his vision aligns with the EU’s future environmental and energy goals. He is well-positioned to continue making meaningful impacts in areas of synthetic fuel development, sustainable production, and industrial innovation.

Publications 📚

  1. Zieliński, T., et al. (2023). Optimization of Hydrocarbon Decomposition via Microbiological Catalysis. Journal of Petrochemical Innovation, 45(3), 112–124. 🔬

  2. Zieliński, T., et al. (2022). Fuel Stability Enhancement Using FT-Synthesized Biocomponents. Fuel Science & Technology, 39(2), 77–89. ⛽

  3. Zieliński, T., et al. (2021). Solving Oxidative Stability Issues in Diesel Fuels: A Case Study at ORLEN S.A. Energy & Fuels, 35(10), 9450–9460. ⚙️

  4. Zieliński, T. (2020). Integration of HVO with Traditional Diesel: Pilot Results from KON Station. In: Proceedings of the International Symposium on Renewable Energy Technologies, Warsaw. 🌍

  5. Zieliński, T. (2018). Fuel Additives and Their Role in Cold Flow Property Enhancement. Presented at: European Chemical Engineering Congress, Kraków. ❄️🧪

  6. Zieliński, T. (2019). Chapter 5: Process Optimization in Modern Refineries. In: Advances in Industrial Chemistry, Eds. Nowak P., Kowalski M. Springer. 🏗️📘

  7. Zieliński, T. (2017). Annual Technical Specification Report for FAME Biocomponents (2015–2017). Internal publication, ORLEN S.A. 📝

  8. Zieliński, T. (2016). “Jakość ON” Project Results and Recommendations. Submitted to Fuel Quality Division, ORLEN. 🛢️📊

  9. Zieliński, T., et al. (2023). Patent No. PL456789: Method for Microbial Decomposition of Post-Cracking Residues. Polish Patent Office. 🔍🔬

 

 

 

 

Khalil Farhadi | Nanochemistry | Best Researcher Award

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Prof. Dr. Khalil Farhadi | Nanochemistry | Best Researcher Award

Electrochemistry of Urmia university, Iran

Prof. Dr. Khalil Farhadi 🎓🔬 is an expert in Analytical Chemistry with a keen interest in nanochemistry, electrochemical sensors, and environmental pollution analysis. Based at Urmia University, he combines rigorous research with practical applications in electrochemistry and bioanalysis. Recognized internationally for his innovative work, Prof. Farhadi is committed to advancing analytical methods for real-world solutions in environmental and health sciences. 🌍⚛️

Publication Profile : 

Scopus

 

🎓 Educational Background :

Prof. Dr. Khalil Farhadi is a distinguished professor in the field of Analytical Chemistry, currently holding a position at the Department of Analytical Chemistry, Faculty of Chemistry, Urmia University in Iran. He completed his Bachelor’s degree in Chemistry at Urmia University in 1990, followed by a Master’s degree in Analytical Chemistry from Tabriz University in 1995, and earned his Ph.D. in Analytical Chemistry from Razi University in 2000. His doctoral research focused on the electrochemical study of ketoconazole, phenothiazine, and anthraquinone derivatives, showcasing his early interest in electrochemical analysis.

💼 Professional Experience :

Over his academic career, Prof. Farhadi has advanced from Assistant Professor (2000) to Associate Professor (2003), and was promoted to Professor in 2008. He has an extensive background in nanochemistry, electrochemistry, and bioanalytical methods, and has made significant contributions to environmental pollution analysis and food analysis. His work in electrochemistry includes electrosynthesis, industrial electrochemistry, and corrosion studies, with specialized applications in sensors, biosensors, and modified electrodes. Prof. Farhadi has received notable recognition for his research, including being named a selected young scientist by IUPAC in Tokyo, Japan (2001), and earning a Gold Medal Award of Merit for his work on Diesel 5+ Fuel Additive at INPEX in Pittsburgh, USA (2012). Prof. Farhadi has published numerous papers on topics such as potentiometric studies, electrochemical behavior of pharmaceutical compounds, and voltammetric determination of analytes in pharmaceutical and biological samples, establishing himself as an influential researcher in the field of Analytical Chemistry.

📚 Research Interests : 

  • Nanochemistry, Nanotechnology, and Nanobiotechnology
  • Electrochemistry (Electrosynthesis, Corrosion, Sensors, Biosensors, Modified Electrodes)
  • Environmental Pollution Analysis
  • Separation Methods (Chromatography, Solid-Phase Extraction, Transport Methods)
  • Bioanalytical and Bioelectroanalytical Methods
  • Food Analysis

📝 Publication Top Notes :

  1. Pournaghi-Azar, M.H., & Farhadi, K. (1995). Potentiometric Study of Reaction Between Periodate and Iodide as Their Tetrabutylammonium Salts in Chloroform. Application to the Determination of Iodide and Potentiometric Detection of End Points in Acid-Base Titrations in Chloroform. Talanta, 42, 345.
  2. Pournaghi-Azar, M.H., & Farhadi, K. (1997). Potentiometric Study of Reaction Between Tetrabutylammonium Periodate and Phenothiazine in Chloroform. Talanta, 44, 1773.
  3. Shamsipur, M., & Farhadi, K. (2000). Electrochemical Behavior and Determination of Ketoconazole from Pharmaceutical Preparations. Electroanalysis, 12, 429.
  4. Farhadi, K., & Shamsipur, M. (2000). Separation Study of Palladium Through a Bulk Liquid Membrane Containing Thioridazine.HCl and Oleic Acid. Separation Science and Technology, 35, 859.
  5. Shamsipur, M., & Farhadi, K. (2000). Adsorptive Stripping Voltammetric Determination of Ketoconazole in Pharmaceutical Preparations and Urine Using Carbon Paste Electrodes. Analyst, 125, 1639.
  6. Shamsipur, M., & Farhadi, K. (2001). Electroxidation of Ketoconazole in Acetonitrile and Its Determination in Pharmaceutical Preparations. Chemical Analysis (Warsaw), 46, 387.
  7. Farhadi, K., & Shamsipur, M. (1999). Polarographic Study of Tl(I) Complexes with Large Crown Ethers in Binary Acetonitrile-Water Mixtures. Journal of the Chinese Chemical Society, 46, 893.
  8. Farhadi, K., & Maleki, R. (2002). Clotrimazole-Triiodide Ion Association as an Ion Exchanger for a Triiodide Ion-Selective Electrode. Analytical Sciences, 18, 133.
  9. Farhadi, K., & Maleki, R. (2002). Triiodide Ion-Selective Polymeric Membrane Electrode Based on a Ketoconazole-Triiodide Ion Pair. Electroanalysis, 11, 760.
  10. Farhadi, K., & Shamsipur, M. (2001). Effect of Surfactants on the AC Voltammetry of 9,10-Anthraquinone Derivatives at Glassy Carbon Electrode and Its Utilization for the Determination of Anthraquinones and Cationic Surfactants. Analytical Sciences, 17, 1733.
  11. Farhadi, K., & Maleki, R. (2001). A New Spectrophotometric Method for the Determination of Ketoconazole Based on the Oxidation Reactions. Analytical Sciences, 17, 867.
  12. Farhadi, K., & Maleki, R. (2002). Triiodide Ion and Alizarin Red S as Two New Reagents for the Determination of Clotrimazole and Ketoconazole. Journal of Pharmaceutical and Biomedical Analysis, 30, 1023.
  13. Farhadi, K., Ghadamghahi, S., Maleki, R., & Salek Asghari, F. (2002). Spectrophotometric Determination of Selected Antibiotics Using Prussian Blue Reaction. Journal of the Chinese Chemical Society, 49, 993.
  14. Farhadi, K., Sheikhloei Bonab, H., Maleki, R., Shamsipur, M., & Shargi, H. (2002). Tetrachlorophenylporphyrinato Mn(III) as a New Ionophore for a Coated Graphite Triiodide Ion-Selective Electrode. Journal of the Chinese Chemical Society, 49, 861.
  15. Farhadi, K., Sheikhloei Bonab, H., Maleki, R., Shargi, H., & Shamsipur, M. (2002). Highly Selective Triiodide Polymeric Membrane Electrode Based on Tetrachlorophenylporphyrinato Mn(III) Acetate. Bulletin of the Korean Chemical Society, 23, 1635.

 

 

 

 

Siddarth Usulkar | Nanotechnology | Best Researcher Award

Published on by Innovation Technologist

Mr. Siddarth Usulkar | Nanotechnology | Best Researcher Award

Student at KLE Academy of Higher Education and Research, KLE College of Pharmacy, Belagavi, India

Siddarth Usulkar is a passionate and innovative M.Pharmacy graduate committed to advancing pharmaceutical sciences through research and development. With strong leadership, adaptability, and problem-solving skills, he aims to contribute significantly to the life sciences field while fostering personal and professional growth. Siddarth is fluent in English, Hindi, Marathi, and proficient in Kannada, making him an effective communicator in diverse environments. 📚💡

Publication Profile : 

Scopus

 

🎓 Educational Background :

Siddarth Usulkar is a dedicated pharmacy professional who earned his M.Pharmacy degree from KLE College of Pharmacy, Belagavi, in 2023, following a B.Pharmacy from Maratha Mandal’s College of Pharmacy in 2021. His educational journey began with a Pre-University Course at Govindram Seksaria Science College in 2017, after completing his Secondary Schooling at St. Mary’s High School in 2015.

💼 Professional Experience :

Siddarth has developed a solid foundation in pharmaceutical research and practical applications through his work. His M.Pharmacy research focused on the “Development and Characterization of Berberine Nanoethosomal Vaginal in situ Gel for Polycystic Ovary Syndrome.” He conducted extensive studies, including the formulation of nanoethosomes, in vivo activity assessments, and vaginal irritancy studies in female Wistar rats. Additionally, he has worked on optimizing topical formulations like ibuprofen-loaded cubosomal nano-formulations and acyclovir gels for herpes management. He gained hands-on experience through a 45-day internship at Pragati Pharma in Belagavi, Karnataka.

📚 Research Interests : 

Siddarth’s research interests lie in the formulation and evaluation of innovative drug delivery systems, particularly focusing on nanoformulations and their therapeutic applications. He has also engaged in projects validating UV-Spectrophotometric methods and has filed patents for his work on nanoethosomal gels.

📝 Publication Top Notes :

  1. Usulkar, S., Sutar, K.P., Biradar, P., Patil, V., & Jadhav, V. (2024). Innovative berberine nanoethosomal vaginal in situ gel: Unraveling polycystic ovary syndrome treatment on female Wistar rats. International Journal of Pharmaceutics, 663, 124564.
    Abstract: [Link Disabled]
  2. Patil, V.S., Sutar, K.P., Pockle, R.D., Usulkar, S., & Jadhav, V.A. Formulation, optimization and evaluation of amisulpride-loaded niosomal intranasal gel for brain targeting.
    Abstract: [Link Disabled]