Julián Puszkiel | Hydrogen | Best Academic Researcher Award

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Dr. Julián Puszkiel | Hydrogen | Best Academic Researcher Award

Dr. Julián Puszkiel at Helmut-Schmidt-University, Germany

Dr. Julián Atilio Puszkiel is a seasoned researcher with over 10 years of experience in hydrogen technology and materials science. He holds prominent roles as Deputy Head of the Department of Hydrogen Technology and Group Leader of Stationary Applications at Helmholtz-Zentrum Hereon and Helmut-Schmidt University in Germany. With over 60 peer-reviewed publications, 4 patents, and significant industry collaborations, his research contributions to energy systems and hydrogen storage technologies are widely recognized. His expertise and innovations have advanced sustainable energy solutions, particularly in hydrogen applications and energy transition. 🌍🔬

Publication Profile

Scopus

Educational Background

Dr. Puszkiel holds a diverse academic background, having completed his studies in Argentina and pursued significant research opportunities in Spain and Germany. He obtained his doctoral degree in materials science with a focus on hydrogen storage technologies, completing advanced studies and postdoctoral work in Europe. His education and interdisciplinary expertise have enabled him to take leadership roles in both academic and industry-driven research projects, bridging the gap between theoretical knowledge and practical applications. 🎓📚

Professional Background

Dr. Puszkiel has more than 10 years of experience in research and academic roles across Argentina, Spain, and Germany. Currently, he is the Deputy Head of Hydrogen Applications at Helmholtz-Zentrum Hereon and a Group Leader at Helmut-Schmidt University. He has been involved in numerous high-impact projects, including those funded by the European Union and national organizations, focusing on hydrogen technology and energy storage systems. His leadership has guided the completion of several successful research projects, with extensive collaboration across international institutions and industry partners. 🏆💼

Awards and Honors

Dr. Puszkiel’s contributions to research have been widely acknowledged through various awards, including recognition for his leadership in hydrogen research and technological advancements. His publications, patents, and involvement in high-profile research projects have earned him acclaim within the academic and industrial sectors. He has been awarded grants for significant research in hydrogen technologies, and his innovative contributions continue to shape the future of renewable energy. 🥇🏅

Research Focus

Dr. Puszkiel’s research focuses on advancing hydrogen storage technologies and renewable energy systems. His work centers on functional hydride-forming materials for hydrogen storage and CO2-capture applications, as well as the development of integrated renewable energy systems involving hydrogen storage, electrolyzers, and fuel cells. Through these efforts, he contributes to improving energy efficiency and enabling the global transition to sustainable energy sources. 🌱🔋

Publication Top Notes

Conclusion

Dr. Julián Atilio Puszkiel is an exceptional candidate for the Best Academic Researcher Award, with over 10 years of experience in materials science and hydrogen technology. He has published more than 60 peer-reviewed papers, holds multiple patents, and leads key research projects such as Digi-HyPro and HyReflexS. His robust citation index reflects the significant impact of his work, and his extensive international and industry collaborations underscore his leadership and influence in the field. Dr. Puszkiel’s contributions to hydrogen storage technology, coupled with his editorial roles and involvement in professional organizations like Hydrogen Europe Research Association, make him a standout in the academic research community.

 

 

Rodouan Touti | Hydrogen Storage | Best Researcher Award

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Prof. Rodouan Touti | Hydrogen Storage | Best Researcher Award

Prof. Rodouan Touti, University Sidi Mohamed Ben Abdellah, Morocco

Professor Touti Rodouan is a distinguished scholar specializing in nuclear and medical physics, currently serving as a professor and coordinator at the Faculty of Sciences, Dhar El Mahraz, Sidi Mohamed Ben Abdellah University in Fez, Morocco. Born on May 21, 1981, in Taounate, Morocco, he holds Italian-Moroccan nationality. With a strong academic and professional background, his research spans dosimetry, radiation protection, and advanced materials for energy storage. He has contributed significantly to medical physics and environmental safety through pioneering work in radiation oncology, brachytherapy, and computational modeling. Fluent in multiple languages, Professor Rodouan has authored numerous impactful publications, advancing global scientific knowledge. Beyond academia, he is actively engaged in developing sustainable solutions and fostering education in the scientific community. 🌍🏅

Publication Profile

Orcid

Scopus

🎓 Education

Professor Touti Rodouan’s academic journey reflects his dedication to advancing physics and engineering. He earned a PhD in Physical Sciences and Engineering (2014) from Semlalia Faculty of Science, Cadi Ayyad University, Marrakech. His research delved into radiation safety and materials modeling. His Master’s Degree in Physics of Matter and Radiation (2009) from Chouaib Doukkali University, El Jadida, laid the groundwork for his expertise in nuclear analysis. He completed his Bachelor’s in Physical Sciences (2007) at Dhar El Mahraz University, Fez, and excelled in advanced physics courses. From his early academic years, Professor Rodouan has continuously sought professional development, earning certifications in Italian (B1 Level), English, and computer science. His commitment to education extends to his teaching and mentoring roles, fostering new generations of physicists.📘👨‍🎓

Experience

With over 15 years of experience, Professor Touti Rodouan has made significant contributions to nuclear and medical physics. Currently a professor at the Faculty of Sciences, Sidi Mohamed Ben Abdellah University, Fez, he coordinates academic and research activities. Previously, he taught at the Faculty of Science, Ain Chock, Casablanca, and served as a secondary school teacher in physics and chemistry. His expertise spans dosimetry, radioprotection, and material sciences, with extensive work in radiation oncology and brachytherapy. Professor Rodouan has led numerous courses at the undergraduate and postgraduate levels, focusing on radiation-matter interaction, nuclear physics, and mathematical modeling in physics. He has supervised impactful theses on radiotherapy optimization, energy storage materials, and eco-friendly solutions. His experience extends to advanced research in perovskite materials and computational physics, making him a recognized expert in his field. 🏥📚

🏆 Skills

Professor Touti Rodouan possesses extensive expertise in nuclear physics, medical dosimetry, and material sciences. He is proficient in operating systems like Linux and Windows and adept in programming languages, including Python, Fortran, and C++. He is skilled in using specialized physics codes such as GEANT4, GATE, MCNPX, and QUANTUM ESPRESSO for advanced modeling and simulations. With a strong command of scientific software like LaTeX and Microsoft Office, he excels in academic writing and data visualization. Multilingual in English, Arabic, French, and Italian, he effectively communicates complex ideas across diverse audiences. His teaching portfolio includes radiation protection, nuclear safety, and mathematical physics. His leadership and mentoring skills are reflected in the successful supervision of postgraduate research.🥇🌟

🔎 Research Focus

Professor Touti Rodouan’s research focuses on dosimetry, radiation protection, and advanced materials modeling. He assesses radiation doses from radioactive elements in medical and environmental contexts, utilizing CR-39 and LR-115 detectors. His innovative approaches include using Density Functional Theory (DFT) to model structural, elastic, and optical properties of perovskites for energy storage applications. His work in medical physics emphasizes optimizing radiotherapy techniques, including IGRT and HDR brachytherapy, to enhance safety and efficacy in cancer treatment. Professor Rodouan is deeply involved in developing eco-friendly hybrid materials for sustainable energy solutions. His interdisciplinary research integrates computational physics and experimental methodologies, addressing global challenges in energy efficiency and environmental safety.🧬🔬

 

Publication Top Notes

Impact of Pressure on Quaternary Heusler Alloy LiScNiGe for Optoelectronic Application

Authors: El Mustapha Hrida, Soufiane Bahhar, Abdellah Tahiri, Mohamed Idiri, Rodouan Touti, Abderrahim Jabar, Mohamed Naji

Year: 2025

DFT‐Based Ab Initio Calculations of Structural, Electronic, Mechanical, and Optical Properties of Ga‐based Fluoroperovskite GaXF3 (X = Ca and Sr)

Authors: Toufik Karafi, El Mustapha Hrida, Mohamed Idiri, Youssef Didi, Abdellah Tahiri, Rodouan Touti, Mohamed Naji

Year: 2025

Exploring Novel Thymol-based Amino-thiazole Hybrids: Computational Evaluation of Anticancer Activity

Authors: Amal Bouribab, Bouchra Rossafi, Abdelkbir Errougui, Rodouan Touti, Professor Samir Chtita

Year: 2025

Mechanism and Stereoselectivity of Epoxidation Reaction of a β-Himachalene Derivative: Insights from DFT, Molecular Docking, ADMET, and Molecular Dynamics Investigations

Authors: Bouchra Rossafi, Fatima Outahar, Imad Hammoudan, Mohamed Moumou, Rodouan Touti, Ahmed Benharref, Samir Chtita

Year: 2025

Analysis of 238U, 232Th, 222Rn, and 220Rn Contents in Medical Drugs, Petroleum Products, and Petrol/Gas-oil Exhaust Fumes Using CR-39 and LR-115 Type II Nuclear Track Detectors – Experimental and New Monte Carlo Simulation Approaches

Authors: Hicham Harrass, Rodouan Touti, Brahim El Ouardi, Makrame Ben El Fakir, Lamia Hjiyej Andaloussi, Hamid Chakir

Year: 2024

Determination of Uranium and Thorium Contents in Various Material Samples of Morocco Using a New Monte Carlo Code for Evaluating the Mean Critical Angle of Etching of the CR-39 and LR-115 Type II SSNTDs

Authors: Hassan Khajmi, Hicham Harrass, Rodouan Touti, Abdessamad Tounsi

Year: 2023

Determination of CR-39 and LR-115 Type II Mean Critical Angle of Etching Using a New Monte Carlo Code

Authors: Hicham Harrass, Abdellatif Talbi, Rodouan Touti

Year: 2021

Determination of Radiation Doses to the Skin Due to U and Th Series for Therapeutic Applications in the Merzouga Sand Baths

Authors: Rodouan Touti, Hicham Harrass

Year: 2020

Measurement of 238U, 232Th, and 222Rn Concentrations in Different Table Oil Samples: Determination of Committed Effective Doses Received by Consumers

Author: Rodouan Touti

Year: 2019

Measurement of 238U and 232Th in Petrol, Gas-oil, and Lubricant Samples by Using Nuclear Track Detectors and Resulting Radiation Doses to the Skin of Mechanic Workers

Authors: M.A. Misdaq, A. Chaouqi, J. Ouguidi, Rodouan Touti, A. Mortassim

Year: 2015

Radon and Thoron Measured in Petrol and Gas-oil Exhaust Fumes Using CR-39 and LR-115 II Nuclear Track Detectors: Radiation Doses to the Respiratory Tract of Mechanic Workers

Authors: M.A. Misdaq, A. Chaouqi, J. Ouguidi, Rodouan Touti, A. Mortassim

Year: 2015

Annual Committed Effective Dose from Olive Oil Due to 238U, 232Th, and 222Rn: Estimated for the Moroccan Public from Ingestion and Skin Application

Authors: M.A. Misdaq, Rodouan Touti

Year: 2012