Lihao Guo | Energy Storage | Research Excellence Award

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Mr. Lihao Guo | Energy Storage | Research Excellence Award

Mr. Lihao Guo has published 5 Scopus-indexed documents with an h-index of 2 and 38 citations by 38 documents. His 2026 article in ACS Applied Energy Materials explores Mn-based hydroxide precursor thickness and its influence on Li-rich cathode structure and electrochemical performance, highlighting impactful contributions to advanced energy storage materials research.

Citation Metrics (Scopus)

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80

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20

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Citations 38

Documents 5

h-index
2

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Featured Publications

Shi Ruijuan | Battery | Best Researcher Award

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Dr. Shi Ruijuan | Battery | Best Researcher Award

Dr. Shi Ruijuan, Henan University, China

Dr. Ruijuan Shi is a dedicated materials scientist specializing in energy storage technologies. She earned her B.S. degree from Henan Normal University in 2014 and completed her Ph.D. at Nankai University in 2020. Currently serving as a lecturer at Henan University, Dr. Shi’s research focuses on the development of advanced electrode materials and electrolyte modifications for rechargeable metal batteries. Her contributions aim to enhance battery efficiency and longevity, addressing critical challenges in clean energy storage. With her academic excellence and innovative research, Dr. Shi continues to advance sustainable energy solutions.

Publication Profile

scopus

Education πŸŽ“

Dr. Ruijuan Shi obtained her Bachelor of Science degree from Henan Normal University, Xinxiang, China, in 2014, where she built a strong foundation in materials science. She pursued her Ph.D. at Nankai University, Tianjin, China, completing her doctoral studies in 2020. During her Ph.D., she focused on energy storage technologies, particularly on advanced electrode materials and electrolyte modifications for rechargeable metal batteries. Her academic journey reflects a commitment to advancing clean energy research and finding sustainable solutions for next-generation energy storage devices.

Experience πŸ‘©β€πŸ«

Currently, Dr. Shi Ruijuan serves as a lecturer at Henan University, where she combines her passion for teaching and research. She mentors undergraduate and graduate students while contributing to cutting-edge research in material science. Her work primarily focuses on rechargeable metal batteries, aiming to improve their performance and sustainability. Dr. Shi has presented her findings at various conferences and collaborated with academic and industrial partners to translate her research into practical applications. Her commitment to advancing scientific knowledge is evident in her interdisciplinary collaborations and contributions to the field of energy storage.

Research Focus πŸ”¬

Dr. Shi’s research focuses on the fabrication of advanced electrode materials and electrolyte modifications for rechargeable metal batteries. Her work addresses key challenges in battery performance, including energy density, cycle stability, and safety. By developing novel materials and optimizing electrolytes, she aims to create sustainable and efficient energy storage solutions. Her research contributes to advancements in electric vehicles, renewable energy storage, and portable electronics. With a focus on practical applications and interdisciplinary innovation, Dr. Shi is committed to making clean energy storage a reality.

Publication Top Note

Regulating Interfacial Wettability for Fast Mass Transfer in Rechargeable Metal-Based Batteries

Conclusion πŸ“Œ

Dr. Ruijuan Shi is a strong candidate for the Best Researcher Award due to her expertise in rechargeable metal batteries and material science. If her research impact and contributions are well-documented through high-quality publications and citations, she would be a deserving recipient of this honor.

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. πŸŒπŸ…

Publication Profile

Orcid

Scopus

πŸŽ“ 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.πŸ“˜πŸ‘¨β€πŸŽ“

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. πŸ₯πŸ“š

πŸ† 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.πŸ₯‡πŸŒŸ

πŸ”Ž 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.πŸ§¬πŸ”¬

 

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 Ξ²-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

 

Iqbal Singh | Supercapacitor | Best Researcher Award

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Mr. Iqbal Singh | Supercapacitor | Best Researcher Award

Mr. Iqbal Singh, Southern Illinois University Edwardsville, United States

Iqbal Singh is a dedicated researcher and engineer specializing in electrical and computer engineering. He is currently pursuing his Master of Science at Southern Illinois University Edwardsville (SIUE), focusing on computational modeling of supercapacitors. With a strong academic background, he holds a B.Tech in Electrical & Electronics Engineering from IK Gujral Punjab Technical University. His expertise spans power systems, digital VLSI design, and renewable energy simulations. As a research assistant, he has contributed to multiple IEEE and Elsevier publications. Passionate about innovation, he has also taught electrical engineering courses and actively volunteers in mentorship programs. βš‘πŸ“‘

Publication Profile

Scopus

Education πŸŽ“πŸ“š

Iqbal Singh is advancing his expertise in Electrical and Computer Engineering through an M.S. at SIUE (2023-2025). His research focuses on energy storage systems, particularly supercapacitors, using COMSOL Multiphysics for thermal and electrical simulations. He previously earned a B.Tech in Electrical & Electronics Engineering from IK Gujral Punjab Technical University, graduating with an 8.05/10 CGPA. His coursework covered Power System Analysis, Digital VLSI Design, Bioinstrumentation, and High-Frequency Design. Throughout his academic journey, he has engaged in various workshops, including Machine Learning, Cloud Computing, and Renewable Energy Simulation, solidifying his technical proficiency. βš™οΈπŸ”‹

Experience πŸ«πŸ”

Iqbal Singh is currently a Graduate Research Assistant at SIUE, where he conducts advanced simulations on supercapacitors and publishes in leading scientific journals. Previously, he served as a Lecturer in Electrical Engineering at Satyam Polytechnic & Pharmacy College (2021-2023), teaching Energy Conservation, Electrical Engineering Fundamentals, and Digital Electronics. His industry-relevant expertise extends to microcontrollers, PLC programming, circuit design, and MATLAB simulations. Additionally, he has led multiple research projects, including density-based traffic light control systems and thermal modeling of MoSβ‚‚ electrodes. His professional journey reflects a blend of academic rigor and practical implementation in energy storage and power systems. πŸ—οΈπŸ”Œ

Awards & Honors πŸ†πŸŽ–οΈ

Iqbal Singh has been recognized for his outstanding academic and research contributions. He was featured in GradNews 2025 by SIUE and secured 1st position twice in the B.Tech Merit List at IK Gujral Punjab Technical University. His research publications in IEEE, Elsevier, and SPIE have garnered international recognition. He has also been awarded for his exceptional work in computational modeling and optimization of supercapacitors. Through active participation in professional societies like IEEE and SPIE, he continues to enhance his technical knowledge and contribute to groundbreaking research in electrical engineering. πŸŒπŸ“–

Research Focus πŸ”¬βš‘

Iqbal Singh’s research primarily revolves around supercapacitor optimization, energy storage systems, and computational modeling. His work includes analyzing thermal effects on MoSβ‚‚ electrodes in KOH electrolytes, utilizing convex optimization techniques for improving supercapacitor energy density, and investigating free-space optics transmission. His interdisciplinary approach integrates digital VLSI design, renewable energy simulations, and biomedical applications of hydrogels. His research, published in IEEE, Elsevier, and SPIE conferences, aims to enhance energy storage efficiency, bridging the gap between computational modeling and practical applications in electrical engineering. πŸ”‹πŸ“‘

Publication Top Notes

  • “A Review on Supercapacitors: Development Trends, Challenges, and Future Perspectives” (2025)

  • “Computational Modeling of Thermal Effects on MoSβ‚‚ Electrodes in KOH Electrolyte” (2024)

    • Presented at IEEE ICIITCEE 2024, Bangalore, India

  • “Convex Optimization Method for Modeling Energy Density of Supercapacitor” (2024)

  • “Maximizing Supercapacitor Performance: Boosting Energy Storage with Convex Optimization” (2024)

  • “Overview of Hydrogels and Hydrogels-Based Actuators for Biomedical Applications” (2022)

  • “A 160 Gbps Free-Space Optics Transmission Enabled by DP-256-QAM and DSP Algorithms” (2022)

Abdolreza Farhadian | Gas storage | Best Researcher Award

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Dr. Abdolreza Farhadian | Gas storage | Best Researcher Award

Dr. Abdolreza Farhadian, Kazan Federal University, Russia

Dr. Abdolreza Farhadian is a senior researcher at Kazan Federal University, specializing in gas hydrate inhibitors, corrosion control, and petrochemical applications. He earned his PhD in Petrochemical Industry from Kazan Federal University, focusing on complex reagents for natural gas hydrate inhibition and corrosion prevention. His expertise extends to gas storage, COβ‚‚ capture, hydrogen storage, and enhanced oil recovery. Dr. Farhadian has contributed to multiple high-impact projects supported by the Russian Science Foundation and Gazpromneft. As a supervisor for master’s and PhD students, he actively engages in innovative research on environmentally friendly inhibitors and oilfield chemicals.

Publication Profile

Google Scholar

Education πŸŽ“πŸ“š

Dr. Farhadian holds a Bachelor’s degree in Applied Chemistry from Payame Noor University (2009-2014) and a Master’s in Polymer Chemistry from Shahid Beheshti University (2014-2016), where he focused on bio-based hyperbranched polyols derived from vegetable oils. His PhD at Kazan Federal University (2017-2021) explored novel chemical reagents for preventing hydrate formation and corrosion in hydrocarbon pipelines. He later pursued a postdoctoral fellowship at Shahid Beheshti University (2021-2022), working on gas storage, COβ‚‚ sequestration, and water desalination technologies. His academic journey integrates chemistry, materials science, and petroleum engineering to develop sustainable solutions for the oil and gas industry.

Experience πŸ—οΈπŸ”

Dr. Farhadian has extensive research experience in flow assurance, gas hydrates, and petrochemical applications. He served as a junior researcher at Kazan Federal University (2017-2022) before advancing to a senior researcher role (2022-present). His work includes the synthesis and characterization of polymer-based inhibitors and surfactants for hydrate formation and corrosion mitigation. In 2024, he became a supervisor for master’s and PhD students, leading groundbreaking research in gas storage and transportation. He has played a key role in multiple international projects, collaborating with industry leaders such as Gazpromneft and Russian Science Foundation to develop advanced oilfield chemicals and inhibitors.

Awards and Honors πŸ…πŸŽ–οΈ

Dr. Farhadian has received recognition for his contributions to hydrate inhibition, corrosion control, and sustainable petrochemical solutions. His research has been supported by prestigious organizations, including the Russian Science Foundation, Gazpromneft, and the Ministry of Education and Science of Russia. His innovative work on environmentally friendly inhibitors has earned him patents and international acclaim. As a key participant in multiple funded projects, he has significantly advanced the efficiency of hydrocarbon production and transportation in extreme environments. His pioneering research on gas hydrate storage solutions has positioned him as a leading figure in petroleum chemistry and flow assurance.

Research Focus πŸ”¬βš—οΈ

Dr. Farhadian’s research revolves around the development of eco-friendly kinetic hydrate inhibitors, anti-agglomerants, and corrosion inhibitors for the oil and gas industry. His work aims to address hydrate blockage and corrosion issues through hybrid inhibition strategies, offering novel solutions for hydrocarbon transport and storage. He is actively engaged in optimizing gas hydrate technologies for COβ‚‚ capture and sequestration, hydrogen storage, and enhanced oil recovery. Additionally, he explores the use of bio-based surfactants and catalysts to improve oilfield chemistry while reducing environmental impact. His contributions significantly enhance energy efficiency and sustainability in petrochemical processes.

Publication Top Notes

1️⃣ A theoretical and experimental study of castor oil-based inhibitor for corrosion inhibition of mild steel in acidic medium at elevated temperatures – Cited by: 234 (πŸ“† 2020) πŸ›‘οΈβš—οΈ
2️⃣ Novel sucrose derivative as a thermally stable inhibitor for mild steel corrosion in 15% HCl medium: An experimental and computational study – Cited by: 109 (πŸ“† 2022) πŸ”¬πŸ› οΈ
3️⃣ Synthesis of novel high primary hydroxyl functionality polyol from sunflower oil using thiol-yne reaction and their application in polyurethane coating – Cited by: 88 (πŸ“† 2016) 🌻πŸ§ͺ
4️⃣ Modified hydroxyethyl cellulose as a highly efficient eco-friendly inhibitor for suppression of mild steel corrosion in a 15% HCl solution at elevated temperatures – Cited by: 86 (πŸ“† 2021) πŸŒ±πŸ›‘οΈ
5️⃣ Sulfonated chitosan as green and high cloud point kinetic methane hydrate and corrosion inhibitor: Experimental and theoretical studies – Cited by: 80 (πŸ“† 2020) 🦠🌊
6️⃣ Synthesis and characterization of a novel internal emulsifier derived from sunflower oil for the preparation of waterborne polyurethane and their application in coatings – Cited by: 77 (πŸ“† 2017) 🌿🎨
7️⃣ Simultaneous inhibition of natural gas hydrate formation and CO2/H2S corrosion for flow assurance inside the oil and gas pipelines – Cited by: 75 (πŸ“† 2023) β›½πŸ”¬
8️⃣ Novel Biosurfactants for Effective Inhibition of Gas Hydrate Agglomeration and Corrosion in Offshore Oil and Gas Pipelines – Cited by: 70 (πŸ“† 2023) πŸŒŠπŸ›’οΈ
9️⃣ Exploration of Sunflower Oil As a Renewable Biomass Source to Develop Scalable and Highly Effective Corrosion Inhibitors in a 15% HCl Medium at High Temperatures – Cited by: 69 (πŸ“† 2021) πŸŒ»πŸ”¬
πŸ”Ÿ Waterborne polymers as kinetic/anti-agglomerant methane hydrate and corrosion inhibitors: A new and promising strategy for flow assurance – Cited by: 67 (πŸ“† 2020) πŸ’§πŸ›’οΈ