Patrice X. Petit | Signal Transduction | Best Researcher Award

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Dr. Patrice X. Petit | signal transduction | Best Researcher Award

ย Research director | Centre National de la Recherche Scientifique | France

Dr. Patrice X. Petit, Doctor รจs Sciences and PhD in Biology, is a Research Director at the French National Centre for Scientific Research (CNRS), where he has served since 1979 and established an internationally recognized career in cell biology. Trained at the Universitรฉ Pierre et Marie Curie and the Universitรฉ Denis Diderot (Paris), his work has focused on the molecular mechanisms governing cell death, mitochondrial dynamics, oxidative stress, and their implications in cancer biology, immunology, and toxicology. Over more than four decades, he has developed a broad international scientific presence through extensive teaching and research collaborations across Europe, North America, and Asia, including academic engagements with institutions such as the Chinese Academy of Sciences, Caltech, UT Southwestern, the Beatson Cancer Research Center in Glasgow, the University of Madrid, and multiple leading universities throughout Scandinavia, Germany, and France. His scientific leadership is further reflected in his service as an elected member (2016โ€“2020) of the Scientific Council of the CNRS Institute of Biological Sciences (INSB). Dr. Petit has authored 134 scientific publications, accumulating approximately 12,500 citations and an h-index of 44, demonstrating sustained research influence across several biomedical domains, including contributions to plant biology. He is an active peer reviewer for major journals such as Cancer Research, Journal of Cell Biology, PNAS, Oncogene, and Cell Death and Differentiation, and he has served as a grant reviewer for major funding bodies, including the Austrian Academy of Sciences, the French National Research Agency (ANR), EMBO, the Swiss National Science Foundation, and the Fondation pour la Recherche Mรฉdicale. His interdisciplinary backgroundโ€”ranging from a formal qualification in history (Universitรฉ Paris Diderot, 1979) to a DIU in rare diseases (Universitรฉ de Strasbourg, 2017)โ€”underscores both scientific depth and broader intellectual engagement. Through his sustained research output, international collaborations, and service to the scientific community, Patrice X. Petit has contributed significantly to advancing fundamental and translational knowledge in cell biology, with measurable societal impact across biomedical research and education.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

Zamzami, N., Marchetti, P., Castedo, M., Decaudin, D., Macho, A., Hirsch, T., โ€ฆ Petit, P. X. (1995). Sequential reduction of mitochondrial transmembrane potential and generation of reactive oxygen species in early programmed cell death. The Journal of Experimental Medicine, 182(2), 367โ€“377.

Zamzami, N., Marchetti, P., Castedo, M., Zanin, C., Vayssiรจre, J. L., Petit, P. X., โ€ฆ Kroemer, G. (1995). Reduction in mitochondrial potential constitutes an early irreversible step of programmed lymphocyte death in vivo. The Journal of Experimental Medicine, 181(5), 1661โ€“1672.

Kroemer, G., Petit, P., Zamzami, N., Vayssiรจre, J. L., & Mignotte, B. (1995). The biochemistry of programmed cell death. The FASEB Journal, 9(13), 1277โ€“1287.

Petit, P. X., Lecoeur, H., Zorn, E., Dauguet, C., Mignotte, B., & Gougeon, M. L. (1995). Alterations in mitochondrial structure and function are early events of dexamethasone-induced thymocyte apoptosis. The Journal of Cell Biology, 130(1), 157โ€“167.

Petit, P. X., Susin, S. A., Zamzami, N., Mignotte, B., & Kroemer, G. (1996). Mitochondria and programmed cell death: Back to the future. FEBS Letters, 396(1), 7โ€“13.

Dr. Petitโ€™s work has fundamentally advanced our understanding of mitochondrial biology and programmed cell death, shaping modern concepts of apoptosis, autophagy, and cellular stress responses. His discoveries enabled new biomedical approaches to cancer, immunology, and rare diseases

Hector Baldoni | Sensores Fotoquimicos | Best Research Article Award

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Prof. Dr. Hector Baldoni | Sensores Fotoquimicos | Best Research Article Award

Profesor Titular at Universidad Nacional de San Luis, Argentina

Dr. Hรฉctor A. Baldoni is a distinguished researcher and full professor at Universidad Nacional de San Luis, Argentina, with over three decades of experience in computational chemistry, molecular modeling, and interdisciplinary scientific exploration. His prolific contributionsโ€”spanning over 40 high-impact journal articlesโ€”demonstrate a consistent focus on applied research, including photoluminescent sensors, antimicrobial agents, metal-organic frameworks, and drug-receptor interactions. Notably, his recent work on engineering photoluminescence for VOC sensing and SARS-CoV-2 epitope mapping reflects both innovation and societal relevance. His research strength lies in integrating theoretical insights with experimental validation, yielding practical applications in health, environment, and materials science. To further enhance impact, more visibility through international collaborations and citation-optimized publishing could be beneficial. Overall, Dr. Baldoniโ€™s scholarly productivity, cross-disciplinary approach, and sustained research excellence position him as a highly suitable candidate for the Best Research Article Award, particularly for his pioneering and well-recognized work in chemistry and computational biology.

Professional Profileย 

Education๐ŸŽ“

Dr. Hรฉctor A. Baldoni has cultivated a robust academic foundation that underpins his esteemed career in chemistry and computational science. He earned his degree in Chemistry from the Universidad Nacional de San Luis, Argentina, where he demonstrated early promise in scientific inquiry. His passion for theoretical and computational chemistry led him to pursue advanced studies, culminating in a Ph.D. in Chemistry from the same institution. During his doctoral training, he developed a deep expertise in molecular modeling and quantum chemistry, which became the cornerstone of his future research endeavors. Dr. Baldoni continued to build on his academic qualifications through postdoctoral work and active engagement in national and international scientific communities. His educational journey reflects a strong commitment to academic excellence and lifelong learning, which has shaped his role as a leading educator and researcher. Today, he serves as a Full Professor, mentoring future scientists and contributing significantly to the advancement of chemical sciences.

Professional Experience๐Ÿ“

Dr. Hรฉctor A. Baldoni possesses extensive professional experience marked by his dedication to research, teaching, and academic leadership in the field of chemistry. As a Full Professor at the Universidad Nacional de San Luis, Argentina, he has played a pivotal role in advancing both undergraduate and postgraduate education in theoretical and computational chemistry. His research has focused on molecular modeling, quantum chemistry, and the development of computational tools for chemical analysis, resulting in a strong record of scientific publications and collaborations. Dr. Baldoni has actively participated in national and international research projects, contributing valuable insights into the structure and behavior of complex chemical systems. In addition to his research achievements, he has served on academic committees, supervised numerous graduate theses, and promoted scientific development in Latin America. His professional journey is defined by a blend of scientific innovation, academic mentorship, and unwavering commitment to the growth of the scientific community.

Research Interest๐Ÿ”Ž

Dr. Hรฉctor A. Baldoni’s research interests lie primarily in the fields of theoretical and computational chemistry, with a particular focus on molecular modeling and quantum chemical calculations. His work aims to understand the electronic structure and reactivity of molecular systems through advanced computational methods. He is especially interested in the development and application of quantum chemical tools to study the properties of molecules and materials at the atomic level. Dr. Baldoni explores areas such as density functional theory (DFT), molecular interactions, and the design of new molecules with tailored properties. His research contributes significantly to predicting chemical behavior, aiding in the design of novel compounds for practical applications in materials science, nanotechnology, and drug development. He is also passionate about developing computational methodologies that enhance the accuracy and efficiency of chemical simulations, thereby expanding the capabilities of theoretical chemistry in solving real-world scientific problems.

Award and Honor๐Ÿ†

Dr. Hรฉctor A. Baldoni has received numerous awards and honors in recognition of his outstanding contributions to theoretical and computational chemistry. His academic excellence and impactful research have earned him national and international acclaim, including prestigious fellowships and research grants from scientific institutions. Dr. Baldoni has been honored for his innovative work in quantum chemistry and molecular modeling, which has significantly advanced the understanding of chemical reactivity and molecular design. His dedication to academic excellence has also been acknowledged through invitations to present at major conferences, serve on editorial boards, and participate in collaborative international projects. These accolades highlight not only his scientific achievements but also his leadership and mentorship in the scientific community. Dr. Baldoni’s recognitions serve as a testament to his commitment to pushing the boundaries of theoretical chemistry and inspiring the next generation of researchers in the field.

Research Skill๐Ÿ”ฌ

Dr. Hรฉctor A. Baldoni possesses exceptional research skills that span across theoretical, quantum, and computational chemistry. He is highly proficient in applying advanced quantum mechanical methods, such as density functional theory (DFT) and ab initio calculations, to investigate molecular structures, electronic properties, and reaction mechanisms. His expertise includes molecular modeling, simulation techniques, and the development of theoretical frameworks to interpret chemical phenomena. Dr. Baldoni is adept at using scientific software and programming tools for complex data analysis, contributing to the design of new materials and molecules with specific properties. He demonstrates strong analytical thinking, problem-solving abilities, and meticulous attention to detail, all essential for conducting high-level research. Additionally, his interdisciplinary approach allows him to collaborate effectively with chemists, physicists, and engineers, enriching the scope and impact of his research. His skills are further evidenced by his extensive publication record, mentorship of students, and successful acquisition of research funding.

Conclusion๐Ÿ’ก

Dr. Hรฉctor A. Baldoni is a strong and highly suitable candidate for the Best Research Article Award. His publication record demonstrates consistent, interdisciplinary, and impactful contributions over decades. The depth of his scientific work, especially in computational and structural chemistry applied to real-world challenges, aligns well with the awardโ€™s goals. With a strategic focus on highlighting one standout publication and showcasing its novelty and application, his nomination would be very compelling.

Publications Top Notedโœ๏ธ

  • Polyproline II helix conformation in a proline-rich environment: a theoretical study

    • Authors: JA Vila, HA Baldoni, DR Ripoll, A Ghosh, HA Scheraga

    • Year: 2004

    • Citations: 79

  • Structureโˆ’ Antifeedant Activity Relationship of Clerodane Diterpenoids. Comparative Study with Withanolides and Azadirachtin

    • Authors: RD Enriz, HA Baldoni, MA Zamora, EA Jรกuregui, ME Sosa, CE Tonn, …

    • Year: 2000

    • Citations: 74

  • Molecular modeling study of dihydrofolate reductase inhibitors. Molecular dynamics simulations, quantum mechanical calculations, and experimental corroboration

    • Authors: RD Tosso, SA Andujar, L Gutierrez, E Angelina, R Rodriguez, …

    • Year: 2013

    • Citations: 64

  • Peptide models XXIX. cisโ€“trans Isomerism of peptide bonds: ab initio study on small peptide model compound; the 3D-Ramachandran map of formylglycinamide

    • Authors: HA Baldoni, GN Zamarbide, RD Enriz, EA Jauregui, ร– Farkas, A Perczel, …

    • Year: 2000

    • Citations: 54

  • Peptide models XXIV: An ab initio study on N-formyl-L-prolinamide with trans peptide bond. The existence or non-existence of ฮฑL and ฯตL conformations

    • Authors: HA Baldoni, AM Rodriguez, MA Zamora, GN Zamarbide, RD Enriz, …

    • Year: 1999

    • Citations: 54

  • A substituted sulfonamide and its Co (II), Cu (II), and Zn (II) complexes as potential antifungal agents

    • Authors: JRA Diaz, M Fernรกndez Baldo, G Echeverrรญa, H Baldoni, D Vullo, …

    • Year: 2016

    • Citations: 52

  • Predicting 13Cฮฑ chemical shifts for validation of protein structures

    • Authors: JA Vila, ME Villegas, HA Baldoni, HA Scheraga

    • Year: 2007

    • Citations: 46

  • Characteristics of Ramachandran maps of L-alanine diamides…

    • Authors: AM Rodrรญguez, HA Baldoni, F Suvire, RN Vรกzquez, G Zamarbide, …

    • Year: 1998

    • Citations: 40

  • Peptide Models XXXVIII. Proline conformers from X-ray crystallographic database and from ab initio computations

    • Authors: I Hudรกky, HA Baldoni, A Perczel

    • Year: 2002

    • Citations: 39

  • An exploratory ab initio study of the full conformational space of N-acetyl-l-cysteine-N-methylamide

    • Authors: MA Zamora, HA Baldoni, JA Bombasaro, ML Mak, A Perczel, O Farkas, …

    • Year: 2001

    • Citations: 36

  • Performance of density functional models to reproduce observed 13Cฮฑ chemical shifts of proteins in solution

    • Authors: JA Vila, HA Baldoni, HA Scheraga

    • Year: 2009

    • Citations: 34

  • Structural and thermodynamic characteristics of the exosite binding pocket on the human BACE1

    • Authors: LJ Gutierrez, RD Enriz, HA Baldoni

    • Year: 2010

    • Citations: 33

  • Unblocked statistical-coil tetrapeptides and pentapeptides in aqueous solution: a theoretical study

    • Authors: JA Vila, DR Ripoll, HA Baldoni, HA Scheraga

    • Year: 2002

    • Citations: 33

  • Structure-Activity relationship of clerodane Diterpenoids acting as antifeedant agents

    • Authors: RD Enriz, HA Baldoni, EA Jauregui, ME Sosa, CE Tonn, OS Giordano

    • Year: 1994

    • Citations: 31

  • Looking for the interactions between omeprazole and amoxicillin in a disordered phase. An experimental and theoretical study

    • Authors: MG Russo, MI Sancho, LMA Silva, HA Baldoni, T Venancio, J Ellena, …

    • Year: 2016

    • Citations: 25

Andres J. Kreiner | Physics and Astronomy | Best Researcher Award

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Prof. Andres J. Kreiner | Physics and Astronomy | Best Researcher Award

Professor of Physics- Superior Investigator-Head Accelerator Technology and Applications Department at University of San Martin-National Atomic Energy Commission, Argentina

Prof. Andrรฉs Juan Kreiner is a distinguished physicist specializing in nuclear spectroscopy, accelerator technology, and medical physics applications. He holds a Ph.D. in Natural Sciences from the Technical University of Munich and has made significant contributions to nuclear research, particularly in boron neutron capture therapy (BNCT) and proton therapy. As a senior researcher at CNEA and CONICET, he has led interdisciplinary teams developing accelerator-based technologies for biomedical and nuclear applications. He has held visiting research positions at prestigious institutions such as Brookhaven National Laboratory, Oak Ridge National Laboratory, and the Institut de Physique Nuclรฉaire in France. Additionally, he has played a crucial role in academic leadership, serving as a professor at multiple universities and contributing to curriculum development in interdisciplinary science and technology programs. His extensive work in science policy, public engagement, and international collaborations has solidified his reputation as a leader in nuclear science and its applications.

Professional Profileย 

Education

Prof. Andrรฉs J. Kreiner pursued his higher education in physics, earning a Ph.D. in Natural Sciences from the Technical University of Munich, Germany. His doctoral research focused on nuclear spectroscopy and accelerator technology, laying the foundation for his extensive contributions to nuclear physics and medical applications. Prior to his Ph.D., he completed his undergraduate studies in physics, where he developed a strong background in nuclear reactions and experimental techniques. Throughout his academic journey, he engaged in multidisciplinary research, gaining expertise in areas such as boron neutron capture therapy (BNCT) and proton therapy. His education was further enriched by international collaborations and research stays at renowned institutions, including Brookhaven National Laboratory and Oak Ridge National Laboratory. His commitment to academic excellence and continuous learning has played a pivotal role in shaping his career, enabling him to lead groundbreaking research projects and mentor future generations of scientists in nuclear and medical physics.

Professional Experience

Prof. Andrรฉs J. Kreiner has had a distinguished career in nuclear physics, with extensive contributions to both fundamental research and applied sciences. He has held key academic and research positions, including his long-standing role at the National Atomic Energy Commission (CNEA) of Argentina, where he has been instrumental in advancing nuclear applications in medicine and industry. His expertise in accelerator-based nuclear reactions and boron neutron capture therapy (BNCT) has led to pioneering developments in cancer treatment. He has also collaborated with leading international institutions such as Brookhaven National Laboratory and Oak Ridge National Laboratory, enhancing global research efforts in nuclear spectroscopy and particle accelerator technologies. In addition to his research, Prof. Kreiner has mentored numerous students and contributed significantly to scientific literature, strengthening Argentinaโ€™s position in the field of nuclear physics. His professional career is marked by innovation, interdisciplinary collaboration, and a commitment to advancing both theoretical and applied nuclear science.

Research Interest

Prof. Andrรฉs J. Kreiner’s research interests lie at the intersection of nuclear physics, medical applications, and accelerator technology. His work focuses on nuclear reactions, spectroscopy, and the development of particle accelerators for both fundamental studies and applied sciences. A significant area of his research is Boron Neutron Capture Therapy (BNCT), a cutting-edge cancer treatment method that utilizes neutron beams to target malignant cells selectively. He has also contributed extensively to the advancement of accelerator-driven neutron sources, with applications in medicine, industry, and materials science. His studies in nuclear instrumentation and radiation detection have played a crucial role in improving diagnostic and therapeutic technologies. Prof. Kreinerโ€™s interdisciplinary approach integrates physics, engineering, and medical sciences, fostering collaborations with international research institutions. Through his contributions, he has advanced the understanding of nuclear interactions and their practical applications, particularly in healthcare and radiation-based technologies, making a lasting impact on the field.

Award and Honor

Prof. Andrรฉs J. Kreiner has received numerous awards and honors in recognition of his outstanding contributions to nuclear physics, accelerator technology, and medical applications such as Boron Neutron Capture Therapy (BNCT). His pioneering work in neutron-based cancer treatment and accelerator-driven neutron sources has earned him prestigious accolades from scientific institutions and professional organizations worldwide. He has been honored by national and international physics societies for his research excellence, leadership, and innovation in nuclear science and its applications. His contributions have also been recognized through invited lectures, keynote speeches, and memberships in esteemed scientific committees. Additionally, Prof. Kreiner has played a key role in advancing collaborative research efforts, earning recognition from academic institutions and research centers. His dedication to scientific progress, particularly in the medical and nuclear physics domains, has cemented his reputation as a leading figure in the field, with awards that reflect his impact on both science and society.

Research Skill

Prof. Andrรฉs J. Kreiner possesses a diverse and advanced set of research skills, particularly in the fields of nuclear physics, accelerator technology, and medical applications such as Boron Neutron Capture Therapy (BNCT). His expertise includes the development and optimization of particle accelerators, neutron sources, and radiation detectors for scientific and medical purposes. He has extensive experience in experimental physics, computational modeling, and data analysis, which he applies to improve neutron-based therapies and nuclear instrumentation. His ability to integrate theoretical knowledge with practical applications has led to significant advancements in nuclear medicine and radiation technology. Additionally, Prof. Kreiner has strong collaborative and interdisciplinary research skills, working with scientists, engineers, and medical professionals to develop innovative solutions. His proficiency in scientific communication, project management, and grant writing has facilitated numerous successful research initiatives, making him a recognized leader in his field. His work continues to shape the future of nuclear and medical physics.

Conclusion

Andrรฉs Juan Kreiner is an exceptionally strong candidate for the Best Researcher Award. His groundbreaking contributions in nuclear physics, accelerator technology, and medical applications, combined with his leadership in major scientific institutions, make him highly deserving. While adding more recent international recognitions and emphasizing his publication impact could further solidify his case, his vast experience and impact on both research and applied sciences position him as a top contender for this prestigious award.

Publications Top Noted

  • Title: Present status of accelerator-based BNCT
    Authors: AJ Kreiner, J Bergueiro, D Cartelli, M Baldo, W Castell, JG Asoia, …
    Year: 2016
    Citation: 169

  • Title: Study of atmospheric particulate matter in Buenos Aires city
    Authors: H Bogo, M Otero, P Castro, MJ Ozafrรกn, A Kreiner, EJ Calvo, RM Negri
    Year: 2003
    Citation: 143

  • Title: Concentrations and elemental composition of particulate matter in the Buenos Aires underground system
    Authors: LG Murruni, V Solanes, M Debray, AJ Kreiner, J Davidson, M Davidson, …
    Year: 2009
    Citation: 103

  • Title: Rotational structures in doubly odd 198Tl
    Authors: AJ Kreiner, M Fenzl, S Lunardi, MAJ Mariscotti
    Year: 1977
    Citation: 95

  • Title: Coriolis-Distorted Bands of Common g9/2 Parentage in Odd and Doubly Odd N= 41 Nuclei
    Authors: AJ Kreiner, MAJ Mariscotti
    Year: 1979
    Citation: 94

  • Title: Experimental and theoretical radiation damage studies on crystalline silicon solar cells
    Authors: M Alurralde, MJL Tamasi, CJ Bruno, MGM Bogado, J Plรก, JF Vรกzquez, …
    Year: 2004
    Citation: 93

  • Title: High-spin states in doubly odd and signature inversion in structures
    Authors: MA Cardona, AJ Kreiner, D Hojman, G Levinton, ME Debray, M Davidson, …
    Year: 1999
    Citation: 77

  • Title: Accelerator-based BNCT
    Authors: AJ Kreiner
    Year: 2012
    Citation: 74

  • Title: Band structure in and the different coupling schemes in a deformed doubly odd nucleus
    Authors: AJ Kreiner, J Davidson, M Davidson, D Abriola, C Pomar, P Thieberger
    Year: 1987
    Citation: 69

  • Title: Induction and rejoining of DNA double strand breaks assessed by H2AX phosphorylation in melanoma cells irradiated with proton and lithium beams
    Authors: IL Ibaรฑez, C Bracalente, BL Molinari, MA Palmieri, L Policastro, AJ Kreiner, …
    Year: 2009
    Citation: 67

  • Title: Evidence for Predicted Level Crossings in ฯ€ ฬƒ h9/2 โŠ— ฮฝ ฬƒ i13/2 Bands in Very Neutron-Deficient, Doubly Odd T1 Isotopes
    Authors: AJ Kreiner, C Baktash, GG Bermudez, MAJ Mariscotti
    Year: 1981
    Citation: 67

  • Title: Structure in Tl 200 and the odd-even staggering in ฯ€ ฬƒ h9/2 โŠ— ฮฝ ฬƒ i13/2 bands
    Authors: AJ Kreiner, MAJ Mariscotti, C Baktash, E Der Mateosian, P Thieberger
    Year: 1981
    Citation: 67

Jabir Arif | Agricultural and Biological Sciences | Best Researcher Award

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Jabir Arif | Agricultural and Biological Sciences | Best Researcher Award

Assoc Prof Dr Jabir Arif, Sidi Mohamed Ben Abdellah University, Morocco

Jabir Arif is a distinguished scholar in Industrial Engineering and Logistics. His expertise encompasses Supply Chain Management, IoT, AI, and Risk Assessment. Jabir has published extensively in high-impact journals and has presented at international conferences. He has pioneered innovative solutions for logistics optimization, significantly enhancing efficiency and reducing costs across various industries. In addition to his research, he has actively collaborated with industry partners, contributing to the development of new tools and methodologies. Jabir also organizes workshops and seminars, and serves as a reviewer and Technical Committee member for prestigious journals and conferences. ๐ŸŒ๐Ÿ“ฆ๐Ÿ“Š

Publication profile

Education

Jabir Arif is a key figure in Industrial Engineering and Logistics, specializing in Supply Chain Management, IoT, AI, and risk assessment. ๐Ÿ“ฆ๐ŸŒ He has published extensively in high-impact journals and presented at international conferences. ๐ŸŒ๐Ÿ“š His work on IoT and AI applications in supply chain management has led to practical implementations that enhance efficiency and reduce costs. ๐Ÿ’ก๐Ÿ”ง Jabir actively collaborates with industry partners, developing new tools and methodologies. ๐Ÿค๐Ÿ” He organizes workshops and training sessions for professionals and students, and serves as a reviewer and Technical Committee member for prestigious journals and conferences. ๐Ÿซ๐Ÿ“‹

Experience

Jabir Arif has significantly contributed to R&D, innovations, and extension activities in Industrial Engineering and Logistics ๐Ÿ“ฆ. His research spans Supply Chain Management, Outsourcing of Logistics, Risk Assessment, IoT, AI, and Industrial Engineering ๐Ÿค–. Jabir has published in high-impact journals and presented at international conferences ๐ŸŒ. He has advanced IoT and AI in supply chain management, creating innovative solutions for risk assessment and logistics optimization ๐Ÿ”. His work has practical applications in various industries, enhancing efficiency and reducing costs ๐Ÿญ. Additionally, Jabir organizes workshops, seminars, and training sessions ๐Ÿ“š, and serves as a reviewer for prestigious journals and conferences ๐Ÿ“.

Awards

Jabir Arif is a distinguished speaker at IEOM Society events ๐ŸŒ, presenting on “Global Supply Chain and Logistics” in 2022 and 2023 ๐Ÿ“…. He is a member of the Industrial Engineering and Operations Management Society and serves as Faculty Advisor for IEOM Student Chapters ๐Ÿซ. He is on the steering committee for the International Congress of Engineering and Complex Systems and has chaired oral sessions at the International Conference on Digital Technologies and Applications ๐ŸŽค. Jabir is a permanent researcher at the Research Laboratory of Technologies and Industrial Services in Fez and an associate researcher at the Research Laboratory of Modeling and Optimization of Industrial and Logistics Systems in Tetouan ๐Ÿ”ฌ. Additionally, he is a member of IEEE and a reviewer for prestigious journals in Industrial Engineering and Operations Management ๐Ÿ“š.

Research focus

Dr. J Arif’s research primarily focuses on logistics and supply chain management, emphasizing the implementation of advanced technologies like the Internet of Things (IoT) and Industry 4.0. His work includes improving traceability processes, risk assessment in logistics outsourcing, and enhancing logistics service performance. He has contributed significantly to understanding the integration of lean management with modern technological frameworks in supply chains. His studies also explore the sustainability aspects of supply chains through IoT applications and demand forecasting techniques in various industries, including automotive and semiconductor manufacturing. ๐Ÿš›๐Ÿ“ฆ๐Ÿ”—๐Ÿ“ก๐ŸŒฟ

Publication top notes