Oumaima Cherni | Enzymologie | Best Researcher Award

Published on by Chemical Scientist

 Dr. Oumaima Cherni | Enzymologie | Best Researcher Award

Docteur chercheur at Faculté de Sciences de Tunis at Tunisia.

Dr. Oumaima Cherni is a distinguished researcher in the field of enzymology, currently serving as a faculty member at the Faculté de Sciences de Tunis in Tunisia. Her research contributions have earned her recognition for her innovative work in the biochemical and enzymatic domains. Dr. Cherni’s commitment to advancing scientific knowledge has led to her being honored with the prestigious Best Researcher Award. Her expertise continues to play a crucial role in the scientific community, particularly in the study of enzymes and their applications.

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Dr. Oumaima Cherni is currently pursuing her PhD in Biological Sciences, specializing in Biochemistry, at the Faculty of Sciences of Tunis, University of Tunis El Manar (2020-Present). Her doctoral research focuses on the “Therapeutic Potential of Immobilized Purified Almond Lipase.” Prior to this, she earned a Master’s Degree in Molecular and Cellular Biology Research, also specializing in Biochemistry, from the same institution (2018-2020). Dr. Cherni completed her National Bachelor’s Degree in Biological Sciences at the Faculty of Sciences of Tunis (2015-2018), following her High School Diploma in Experimental Sciences from Secondary School of El Sahafin in Ariana (2014-2015).

Professional Experience 💼

Dr. Cherni has a diverse range of experience, including her role as the Director of an Educational Support Center, Rainbow, Tunisia, where she worked for one year in 2023. She also spent two years teaching at the Educational Support Center “The Prime Einsteineers” in El Menzah 5, Tunis (2020-2022). In addition, Dr. Cherni has participated in several internships, including a three-month biochemistry internship at the Institute of Catalysis and Petrochemistry in Madrid, Spain (2023) and a two-month enzymology internship at the same institution in 2022.

Research Focus 🧪🔬

Dr. Cherni’s research is focused on enzymology and biochemistry, with a particular emphasis on the therapeutic applications of enzymes. Her PhD thesis is centered on the “Therapeutic Potential of Immobilized Purified Almond Lipase.” Her research also includes published work on tuning the features of almond lipase through different immobilization supports, as seen in her articles “Tuning Almond Lipase Features by Using Different Immobilization Support” (January 2024, International Journal Catalysts) and “Tuning Almond Lipase Features by the Buffer Used During Immobilization” (June 2024, International Journal of Biotechnology).

Awards and Honors 🏆

Dr. Cherni has been recognized for her outstanding contributions to the field of biological sciences and biochemistry. In particular, her research on enzyme properties and immobilization has been acknowledged through multiple publications in respected scientific journals. Her work demonstrates her commitment to advancing scientific knowledge in enzymology and biochemistry.

Skills 🛠️

Dr. Cherni is fluent in several languages, including Arabic (native), English, French, and Spanish. She is skilled in office software tools such as Microsoft Word, Excel, and PowerPoint. Additionally, she has specialized knowledge in biochemistry, enzymology, and enzyme immobilization, along with practical experience in scientific research and teaching.

  • The role of cyclodextrins in chiral selective chromatography
    Authors: Z Juvancz, J Szejtli
    Journal: TrAC Trends in Analytical Chemistry, 21 (5), 379-388
    Citations: 185
    Year: 2002
  • The role of cyclodextrins in chiral capillary electrophoresis
    Authors: Z Juvancz, RB Kendrovics, R Iványi, L Szente
    Journal: Electrophoresis, 29 (8), 1701-1712
    Citations: 151
    Year: 2008
  • Permethylated β‐cyclodextrin as stationary phase in capillary gas chromatography
    Authors: Z Juvancz, G Alexander, J Szejtli
    Journal: Journal of High Resolution Chromatography, 10 (2), 105-107
    Citations: 146
    Year: 1987
  • Separation of enantiomers on immobilized polysiloxane‐anchored permethyl‐β‐cyclodextrin (CHIRASIL‐DEX) by supercritical fluid chromatography
    Authors: V Schurig, Z Juvancz, GJ Nicholson, D Schmalzing
    Journal: Journal of High Resolution Chromatography, 14 (1), 58-62
    Citations: 91
    Year: 1991
  • Enantioselective gas chromatography
    Authors: Z Juvancz, P Petersson
    Journal: Journal of Microcolumn Separations, 8 (2), 99-114
    Citations: 62
    Year: 1996
  • Optical resolution of racemic alcohols via diastereoisomeric supramolecular compound formation with O, O′-dibenzoyl-(2R, 3R)-tartaric acid
    Authors: C Kassai, Z Juvancz, J Bálint, E Fogassy, D Kozma
    Journal: Tetrahedron, 56 (42), 8355-8359
    Citations: 57
    Year: 2000
  • Influence of (hydroxy) alkylamino substituents on enantioseparation ability of single‐isomer amino‐β‐cyclodextrin derivatives in chiral capillary electrophoresis
    Authors: R Iványi, L Jicsinszky, Z Juvancz, N Roos, K Otta, J Szejtli
    Journal: Electrophoresis, 25 (16), 2675-2686
    Citations: 52
    Year: 2004
  • Cyclodextrins and their derivatives as stationary phases in GC capillary columns
    Authors: G Alexander, Z Juvancz, J Szejtli
    Journal: Journal of High Resolution Chromatography, 11 (1), 110-113
    Citations: 50
    Year: 1988
  • Unusual phenomena during the resolution of 6-fluoro-2-methyl-1, 2, 3, 4-tetrahydroquinoline (FTHQ): thermodynamic-kinetic control
    Authors: J Bálint, G Egri, V Kiss, A Gajáry, Z Juvancz, E Fogassy
    Journal: Tetrahedron: Asymmetry, 12 (24), 3435-3439
    Citations: 39
    Year: 2002
  • Diastereomer salt formation of ibuprofen in supercritical carbon dioxide
    Authors: G Bánsághi, E Székely, DM Sevillano, Z Juvancz, B Simándi
    Journal: The Journal of Supercritical Fluids, 69, 113-116
    Citations: 34
    Year: 2012
  • Phosphated cyclodextrins as new acidic chiral additives for capillary electrophoresis
    Authors: Z Juvancz, L Jicsinszky, KE Markides
    Journal: Journal of Microcolumn Separations, 9 (8), 581-589
    Citations: 34
    Year: 1997
  • Lipase-catalyzed enantioselective acylation of 3-benzyloxypropane-1, 2-diol in supercritical carbon dioxide
    Authors: I Kmecz, B Simándi, L Poppe, Z Juvancz, K Renner, V Bódai, ER Tőke, et al.
    Journal: Biochemical Engineering Journal, 28 (3), 275-280
    Citations: 31
    Year: 2006
  • Resolution of α-phenylethylamine by its acidic derivatives
    Authors: J Bálint, G Egri, M Czugler, J Schindler, V Kiss, Z Juvancz, E Fogassy
    Journal: Tetrahedron: Asymmetry, 12 (10), 1511-1518
    Citations: 30
    Year: 2001
  • Enantiomer separation using supercritical fluid chromatography
    Authors: Z Juvancz, KE Markides
    Journal: LC GC International, 5 (4), 44-56
    Citations: 30
    Year: 1992
  • Pharmaceutical applications of a bonded cyclodextrin stationary phase
    Authors: Z Juvancz, K Grolimund, V Schurig
    Journal: Journal of Microcolumn Separations, 5 (5), 459-468
    Citations: 28
    Year: 1993
  • Multidimensional packed capillary coupled to open tubular column supercritical fluid chromatography using a valve-switching interface
    Authors: Z Juvancz, KM Payne, KE Markides, ML Lee
    Journal: Analytical Chemistry, 62 (14), 1384-1388
    Citations: 26
    Year: 1990
  • Chiral separation of pyrethroic acids with single isomer permethyl monoamino β‐cyclodextrin selector
    Authors: R Iványi, L Jicsinszky, Z Juvancz
    Journal: Electrophoresis, 22 (15), 3232-3236
    Citations: 24
    Year: 2001
  • Permethyl monoamino β-cyclodextrin a new chiral selective agent for capillary electrophoresis
    Authors: R Iványi, L Jicsinszky, Z Juvancz
    Journal: Chromatographia, 53, 166-172
    Citations: 24
    Year: 2000
  • Enantiomer separation of disopyramide with capillary electrophoresis using various cyclodextrins
    Authors: Z Juvancz, KE Markides, L Jicsinszky
    Journal: Electrophoresis, 18 (6), 1002-1006
    Citations: 23
    Year: 1997
  • Use of cellulose‐based stationary phases for chiral separation in open tubular column chromatography
    Authors: Z Juvancz, K Grolimund, E Francotte
    Journal: Chirality, 4 (7), 459-461
    Citations: 20
    Year: 1992

Conclusion ✨ 

Prof. Juvancz stands as a prime candidate for the Best Researcher Award due to his extensive experience, global research collaborations, and outstanding contributions to chiral separation and environmental analysis. While there are areas for improvement, particularly in public engagement and interdisciplinary outreach, his work has already made a profound impact in his fields of expertise. His academic and research trajectory suggests a continued capacity to shape and innovate in the world of analytical chemistry and environmental protection.

 

 

 

 

Ismail Trabelasi | Geochemistry | Best Paper Award

Published on by Chemical Scientist

Best Paper Award

Ismail Trabelasi
Centre de Recherches et des Technologies des Eaux (CERTE), Tunisia
Ismail Trabelasi
Affiliation Centre de Recherches et des Technologies des Eaux (CERTE)
Country Tunisia
Scopus ID 31767693800
Documents 66
Citations 936
h-index 18
Subject Area Wastewater treatment
Event International Chemical Scientist Awards

The Best Paper Award recognition associated with the International Chemical Scientist Awards highlights scholarly contributions in the field of wastewater treatment and environmental engineering. The academic profile of Ismail Trabelasi demonstrates sustained research productivity through peer-reviewed scientific publications, interdisciplinary collaboration, and measurable citation impact within the international scientific community.[1] The research activities conducted at the Centre de Recherches et des Technologies des Eaux (CERTE) have contributed to advancements in water purification technologies, environmental sustainability strategies, and industrial wastewater management systems.[2]

Abstract

This academic recognition article presents an overview of the scholarly profile and scientific contributions of Ismail Trabelasi in the field of wastewater treatment and environmental technologies. The research portfolio demonstrates engagement with advanced treatment systems, water quality monitoring, and sustainable environmental engineering solutions. Through a documented publication record and measurable citation metrics, the researcher has contributed to the dissemination of applied scientific knowledge within international chemical and environmental science communities.[3] The article further examines research impact indicators, publication activity, and the relevance of the researcher’s work to the objectives of the International Chemical Scientist Awards.

Keywords

Wastewater treatment; Environmental engineering; Water purification; Sustainable technologies; Chemical sciences; Industrial effluents; Research impact; Scopus metrics; CERTE; International Chemical Scientist Awards.

Introduction

The growing demand for sustainable water management solutions has increased the significance of scientific research in wastewater treatment technologies and environmental chemistry. Researchers working within this domain contribute to the development of treatment methodologies designed to improve water quality, reduce environmental contamination, and support sustainable industrial practices.[4] Academic institutions and research organizations increasingly recognize the importance of interdisciplinary scientific collaboration in addressing global environmental challenges.

Within this context, the research activities associated with the Centre de Recherches et des Technologies des Eaux (CERTE) have contributed to scientific advancements in wastewater remediation and environmental monitoring systems. The academic profile of Ismail Trabelasi reflects participation in these broader research efforts through scholarly publications, collaborative investigations, and citation influence across environmental science literature.[1]

Research Profile

Ismail Trabelasi is affiliated with the Centre de Recherches et des Technologies des Eaux (CERTE) in Tunisia, an institution engaged in environmental technology and water research. The research profile indexed through Scopus indicates a publication record comprising 66 documents with 936 citations and an h-index of 18.[1] These metrics suggest continued participation in peer-reviewed scientific research and measurable scholarly engagement within the environmental sciences community.

  • Primary research specialization in wastewater treatment and environmental remediation systems.
  • Participation in interdisciplinary research involving water technologies and chemical sciences.
  • Indexed publications within international scientific databases and journals.
  • Academic contributions with measurable citation influence in environmental engineering literature.

Research Contributions

The scientific contributions associated with the researcher involve wastewater treatment optimization, industrial effluent management, and sustainable environmental engineering applications. Research outputs have addressed treatment efficiency, pollutant reduction mechanisms, and the development of environmentally compatible treatment methodologies.[2]

Published investigations also demonstrate the integration of analytical chemistry and environmental technologies for improving water treatment performance and operational sustainability. These studies contribute to the broader scientific objective of developing practical and scalable approaches to water resource management and environmental protection.[3]

  • Research on wastewater purification technologies and treatment optimization.
  • Studies related to environmental sustainability and industrial wastewater management.
  • Application of chemical analysis techniques in environmental engineering systems.
  • Scientific collaboration within multidisciplinary environmental research initiatives.

Publications

The publication profile associated with the researcher includes peer-reviewed journal articles, conference papers, and collaborative scientific studies indexed through international academic databases. Representative research themes include wastewater treatment systems, environmental monitoring technologies, and applied chemical engineering processes.[3]

  1. Research concerning advanced wastewater treatment methodologies and environmental sustainability.
  2. Studies evaluating industrial wastewater remediation and pollutant removal efficiency.
  3. Collaborative publications addressing chemical and environmental engineering applications.
  4. Peer-reviewed investigations published within indexed scientific journals.

Selected research publications are accessible through indexed academic databases including Scopus and DOI-linked journal repositories.[4]

Research Impact

Research impact indicators provide insight into the visibility and academic utilization of published scientific work. The documented citation count and h-index associated with the researcher suggest consistent scholarly engagement and recognition within environmental science and wastewater treatment literature.[1]

The dissemination of environmental engineering research contributes to broader scientific discussions concerning sustainable development, water security, and pollution control technologies. Through publication activity and citation performance, the researcher’s work demonstrates relevance to international environmental and chemical science research communities.[4]

Award Suitability

The Best Paper Award recognition aligns with research activities demonstrating scientific originality, methodological relevance, and measurable academic contribution. The documented publication record and citation metrics associated with Ismail Trabelasi support the suitability of the researcher’s profile for recognition within the International Chemical Scientist Awards framework.[1]

Research themes related to wastewater treatment and environmental sustainability remain highly relevant to global scientific priorities involving water management, environmental protection, and sustainable industrial development. The academic contributions associated with these research areas correspond with the objectives commonly emphasized within international scientific award programs.[2]

Conclusion

The academic profile of Ismail Trabelasi reflects sustained engagement in wastewater treatment and environmental engineering research. Through indexed publications, citation performance, and interdisciplinary scientific collaboration, the researcher has contributed to the advancement of environmental technologies and sustainable water management practices.[2] The scholarly achievements documented within this article support the relevance of the researcher’s work to international scientific recognition programs including the International Chemical Scientist Awards.

References

  1. Haddouk, A., Chihaoui, S.-A., Louati, Z., Trabelsi, I., & Wahab, M. A. (2026). Impact of sewage sludge and municipal solid waste derived biochars on soil carbon priming, leachate quality, and legume growth and nodulation. Euro-Mediterranean Journal for Environmental Integration. https://www.researchgate.net/publication/403095014

  2. Chemingui, H., Hechmi, S., Rahali, E., Abidi, S., Kallali, H., & Trabelsi, I. (2026). Optimization of coagulation–flocculation for poultry slaughterhouse wastewater using central composite design: Laboratory and industrial validation. Journal of Water Process Engineering

    https://www.researchgate.net/publication/403358519

  3. Chamam, B., Ben Dassi, R., Abderraouf, J., Mericq, J. P., & others. (2025). Incorporation of Ag-ZnO nanoparticles into PVDF membrane formulation to enhance dye retention, permeability, and antibacterial properties. Polymers, 17(9), 1269.
    https://doi.org/10.3390/polym17091269

  4. Haddouk, A., Trabelsi, I., Tizaoui, C., & Wahab, M. A. (2026). Efficient removal of phosphate, nitrate, and ammonia from wastewater using unmodified woodchip biochar. Water, 18(2), 211.
    https://www.mdpi.com/2073-4441/18/2/211