Luping Wang | Sustainable Energy | Best Researcher Award

Published On 02/07/202502/07/2025 by ScienceFather

Luping Wang | Sustainable Energy | Best Researcher Award

Ms. Luping Wang, Shenyang Aerospace University, Best Researcher Award.

Luping Wang 👩‍🔬 is a Senior Experimentalist at Shenyang Aerospace University, bringing extensive expertise in Pattern Recognition and Intelligent Systems. Since 2014, she has actively led and participated in numerous educational reforms and scientific research projects 🎓. Her pioneering work in magnetically controlled shape memory alloys (MSMA) and battery energy management systems 🔋 supports advancements in energy harvesting and MEMS technologies ⚙️. She is passionate about promoting sustainable and intelligent engineering solutions 🌱. Recognized for her excellence in teaching and innovation 🏆, she has received several national and provincial awards, becoming a key figure in research-driven education and technological innovation 🚀.

Publication Profiles

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Education & Experience

🎓 Master’s Degree in Pattern Recognition and Intelligent Systems, Shenyang Aerospace University
🧑‍🏫 Working Since January 2014 in higher education and research
👩‍🔬 Current Role: Senior Experimentalist since November 2022
🧪 Research Leader on MSMA, energy harvesting, and battery systems
📚 Contributor to over 20 provincial, national, and collaborative educational projects

Suitability for the Award

Ms. Luping Wang, a Senior Experimentalist in Pattern Recognition and Intelligent Systems at Shenyang Aerospace University, is an outstanding candidate for the Best Researcher Award. Since 2014, she has demonstrated exceptional commitment to both academic innovation and applied scientific advancement, particularly in the cutting-edge field of magnetically controlled shape memory alloys (MSMA) and vibration energy harvesting—positioning her as a national leader in sustainable technology research and energy management systems.

Professional Development

Luping Wang’s professional journey is marked by consistent development through project leadership and teaching innovation 💡. She has spearheaded and contributed to over 20 educational and scientific initiatives, including national-level collaborations and provincial research grants 📊. Her involvement in both experimental and theoretical aspects of engineering and intelligent systems shows her versatility. From designing curriculum reforms 📖 to enhancing hands-on student training 🔬, she continuously upgrades her skill set and teaching methodologies. Recognized as a provincial course leader and competition mentor 🏅, she embodies excellence in both academia and innovation, fostering future-ready talent in science and technology 🚀.

Research Focus

Luping Wang’s research focuses on intelligent materials and sustainable energy systems 🌱. She is a national leader in studying magnetically controlled shape memory alloys (MSMA), particularly in their application for vibration energy harvesting and actuators ⚙️. Her research on battery energy management systems contributes to the optimization of renewable energy technologies 🔋. By converting ambient vibrations into usable energy, her work supports low-power electronics and green technologies 🌍. These projects hold great promise for advancing MEMS, smart materials, and self-powered devices, positioning her work at the intersection of smart innovation and environmental responsibility 🔧⚡.

Awards & Honors

🧑‍🏫 Excellent Young Teacher at the School Level
👩‍🏫 Excellent Teacher & “My Favorite Subject Teacher” at the School
🧭 Campus Pioneer Demonstration Post
🧑‍🔬 Excellent Guidance Teacher for Science & Technology Competition
📘 Provincial First Class Course Leader
🥈 Second Prize – 2022 School Teaching Innovation Competition
🥉 Third Prize – 2023 Provincial Teaching Innovation Competition
🥉 Third Prize – 2023 School Teaching Innovation Competition
🥈 Second Prize – 2023 National Engineering Maker Teaching Competition
🛠️ National Young Teacher Equipment Design Maker Competition – Automation Category
🌟 Backbone Member – School Level Excellent Grassroots Teaching Organization
🏅 6th Place – Shenyang Skills Competition

Publication Top Noted

📘 2025 | The Application of BiGRU-MSTA Based on Multi-Scale Temporal Attention Mechanism in Predicting the Remaining Life of Lithium-Ion Batteries | Journal: Batteries | Contributors: Luping Wang, Shanze Wang | 📈
🗃️ 2025 | Design of a Garbage Classification System Based on Deep Transfer Learning | Journal: Journal of Ambient Intelligence and Humanized Computing | Contributors: Zucai Tang, Wang Luping, Qu Miaoyan, Sheng Aitong, Huai Nianwang | 📈
⚙️ 2024 | Designing and Modeling of a New MSMA Vibration Energy Transducer | Journal: Journal of Vibroengineering | Contributors: Wang Luping, Yang Jing, Gao Yunhong | 📈
🔬 2020 | Design and Implementation of Vibration Energy Harvester Based on MSMA Cantilever Beam | Journal: Transactions on Electrical and Electronic Materials | Contributors: Yang Jing, Wang Luping, Xu Jin | 📈

Gan Qu | Energy Storage | Best Researcher Award

Published On 21/03/202521/03/2025 by ScienceFather

Gan Qu | Energy Storage | Best Researcher Award

Assoc. Prof. Dr . Gan Qu , Zhengzhou University, China.

Dr. Gan Qu is a dedicated materials scientist specializing in energy storage and catalysis. He earned his Ph.D. in Materials Physics & Chemistry from Wuhan University and is currently a faculty member at Zhengzhou University. His research explores spin-state modulation and single-site catalysts for lithium-sulfur batteries. With a strong publication record in Advanced Materials, Nano-Micro Letters, and Advanced Functional Materials, Dr. Qu has significantly contributed to battery technology advancements. His work has been supported by prestigious grants, including NSFC and the China Postdoctoral Science Foundation. 🎓🔋📚

Publication Profile

Scopus

Education & Experience

📌 Ph.D. in Materials Physics & Chemistry – Wuhan University (2013-2017) 🏛️
📌 M.Sc. in Analytical Chemistry – Wuhan University (2011-2013) 🧪
📌 B.Sc. in Materials Chemistry – Henan University (2007-2011) ⚛️

🏢 Current Position: Faculty, Zhengzhou University (2020–Present) 🎓
🏢 Previous Position: Researcher, Shenzhen University (2017–2019) 🔬

Suitability Summary

Dr. Gan Qu, a distinguished researcher in materials physics, chemistry, and optoelectronic engineering, has made remarkable contributions to nanomaterials, functional materials, and advanced material synthesis. As a faculty member at Zhengzhou University, his pioneering research has led to significant advancements in materials science, energy storage, and optoelectronics. His dedication to scientific excellence, innovative discoveries, and impactful publications make him a highly deserving recipient of the Best Researcher Award.

Professional Development

Dr. Gan Qu has actively contributed to the advancement of electrochemical energy storage and catalysis, focusing on lithium-sulfur and lithium-ion batteries. His work delves into spin-state engineering, transition-metal catalysts, and molecular sieves for energy applications. Supported by prestigious funding bodies, including NSFC and the China Postdoctoral Science Foundation, he has successfully developed innovative materials that enhance battery performance. With a strong background in materials chemistry and analytical techniques, Dr. Qu collaborates with leading researchers worldwide, pushing the boundaries of next-generation energy solutions. His research excellence is reflected in numerous high-impact publications. 📚⚡🔍

Research Focus

Dr. Gan Qu’s research centers on energy storage materials and catalysis for electrochemical applications. His expertise spans single-site catalysts, metal macrocyclic compounds, and quantum spin engineering for improving battery performance. His work has led to groundbreaking advancements in lithium-sulfur batteries, where he explores redox kinetics and transition-metal interactions. His research also extends to zinc-ion and lithium-ion batteries, focusing on molecular sieves and vanadium-doped materials. With an innovative approach to phase engineering and functional material synthesis, he is shaping the future of next-generation energy storage solutions. 🔋⚛️🧪

Awards & Honors 🏆🎖️

🏅 NSFC Young Scientist Grant (2022-2024) 🏛️
🏅 China Postdoctoral Science Foundation Award (2022-2023) 🎓
🏅 Best Research Paper Award in Advanced Functional Materials (2019) 📜
🏅 Outstanding Researcher Award at Shenzhen University (2018) 🏅
🏅 Excellence in Material Science Award, Wuhan University (2017)

Publication Top Notes

Quantum Spin Exchange Interactions to Accelerate the Redox Kinetics in Li–S Batteries – Nano-Micro Letters (2024) – 19 citations

A Click Chemistry Strategy Toward Spin-Polarized Transition-Metal Single Site Catalysts for Dynamic Probing of Sulfur Redox Electrocatalysis –Advanced Materials (2024) – 3 citations

Peripheral Group-Induced Spin-State Switch of Metal Macrocyclic Molecule for Enhanced Redox Kinetics in Lithium-Sulfur Batteries – Chemical Engineering Journal (2024) – 3 citations

Ahmet Hasçelik | Renewable Energy | Best Researcher Award

Published On 08/03/202508/03/2025 by ScienceFather

Ahmet Hasçelik | Renewable Energy | Best Researcher Award

Mr. Ahmet Hasçelik, Afyon Kocatepe University , Turkey.

Dr. Ahmet Hasçelik is a mechanical engineer and researcher specializing in micromachining, metal cutting, and thin-walled structures. He earned his Bachelor’s, Master’s, and PhD in Mechanical Engineering from Afyon Kocatepe University, with a focus on micro milling and turning processes. Currently, he is a lecturer at Afyon Kocatepe University, teaching CNC programming, manufacturing processes, and CAD. His research has led to 10 international publications, 6 indexed in SCI, and involvement in TÜBİTAK-funded projects. His expertise in cutting strategies, machining dynamics, and surface roughness optimization contributes to advancements in precision manufacturing and renewable energy applications. ⚙️📚

Publication Profile

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Googlescholar

Education & Experience

📚 Education:
✔ B.Sc. in Mechanical Engineering – Niğde University, Turkey (2009–2014) 🏫
✔ Exchange Program in Mechanical Engineering – John Von Neumann University, Hungary (2012) ✈️
✔ M.Sc. in Mechanical Engineering – Afyon Kocatepe University, Turkey (2016–2019) 📊

Thesis: Effect of Tool Geometry in Micro Turning Process
✔ Ph.D. in Mechanical Engineering – Afyon Kocatepe University, Turkey (2019–Present) 🎓
Thesis: Cutting Parameters and Strategies in Micro Milling of Thin-Walled Structures

👨‍💼 Professional Experience:
✔ Mechanical Engineer, Proigam Instalaciones S.L., Spain (2014) 🇪🇸

Worked on biomass energy, heating, and cooling systems.
✔ Mechanical Engineer & Inspection Expert, Turkish Standards Institute (2014–2017) ✅
Specialized in elevator surveillance, vehicle inspections, and service qualification certification.
✔ Lecturer, Afyon Kocatepe University (2017–Present) 🎓
Teaches CNC programming, CAD, manufacturing processes, and machine design.
Researches micromachining, thin-walled structures, and surface roughness.

Suitability Summary

Dr. Ahmet Hasçelik, a distinguished Mechanical Engineer and Researcher, has been honored with the Best Researcher Award for his groundbreaking contributions to micromachining, metal cutting, and manufacturing technologies. As a Lecturer at Afyon Kocatepe University, he has led pioneering studies on micro milling, thin-walled structures, and machining process optimization, significantly advancing modern manufacturing techniques. His expertise in CAD, CNC machining, and cutting strategies has made a substantial impact on both academia and industry.

Professional Development

Dr. Ahmet Hasçelik is an expert in micromachining, precision manufacturing, and thin-walled structures, with a focus on improving machining efficiency and reducing deformation. As a TÜBİTAK project leader and advisor, he explores advanced cutting strategies to enhance manufacturing processes. His international collaborations in biomass energy and CNC machining contribute to sustainable solutions. With a strong publication record (SCI-indexed papers) and university-level teaching, he plays a key role in advancing mechanical engineering education and research. His expertise in SolidWorks, Deform2D/3D, and metal cutting supports innovation in precision machining and renewable energy applications. ⚙️📊🔍

Research Focus

Dr. Ahmet Hasçelik focuses on micromachining, particularly in micro milling and turning of thin-walled structures. His research explores cutting parameter optimization, tool geometry, and machining dynamics to improve surface quality and minimize deformation. His studies contribute to high-precision manufacturing for applications in aerospace, automotive, and biomedical industries. Additionally, he works on renewable energy systems, including Stirling engines powered by waste heat. Through computational modeling (Deform2D/3D) and experimental analysis, he develops new machining strategies to enhance efficiency, accuracy, and sustainability in metal cutting and manufacturing processes. 🏭🔍📊

Awards & Honors 🏆

✔ TÜBİTAK Project Executive (2022–2023) – Reducing Deformation in Thin-Walled Structures 🏗️
✔ TÜBİTAK Project Advisor (2023–2024) – Renewable Energy-Powered Stirling Engine ⚡
✔ TÜBİTAK Project Advisor (2023–2024) – Effect of Wall Height and Thickness in Micro Milling 🏭
✔ 6 SCI-Indexed International Publications 📚
✔ 10 International Research Papers 📝
✔ Expert in CNC Machining & Metal Cutting Processes 🔧
✔ Recognized Lecturer & Researcher at Afyon Kocatepe University 🎓

Publication Top Notes

1️⃣ Investigations on Surface Roughness and Tool Wear Characteristics in Micro-Turning of Ti-6Al-4V Alloy 📏🔧 – Materials (2020) – Cited by: 60

2️⃣ An Experimental Investigation on Effects of Cooling/Lubrication Conditions in Micro-Milling of Additively Manufactured Inconel 718 ❄️⚙️ – Tribology International (2022) – Cited by: 51

3️⃣ Effect of Cutting Conditions on Tool Wear and Wear Mechanism in Micro-Milling of Additively Manufactured Titanium Alloy 🛠️🔍 – Tribology International (2024) – Cited by: 22

4️⃣ Performance Evaluation of DLC and NCD Coatings in Micro-Milling of Al7075-T6 Alloy 🏭🎯 – Journal of Manufacturing Processes (2022) – Cited by: 21

5️⃣ Determination of Cutting Force Coefficients with Mechanistic and Numerical Modelling in Micro-Turning Process 📊✍️ – Journal of the Faculty of Engineering and Architecture of Gazi University (2022) – Cited by: 4

6️⃣ Mikro Tornalama İşleminde Kesici Takım Burun Yarıçapının Kesme Kuvvetlerine Etkisi 🌀🔩 – Journal of Materials and Mechatronics: A (2021) – Cited by: 3

Jin Wang | Solar Cells | Best Researcher Award

Published On 09/01/202509/01/2025 by ScienceFather

Jin Wang | Solar Cells | Best Researcher Award

Prof. Jin Wang, Zhejiang Normal University, China.

Jin Wang

is a distinguished professor at the College of Chemistry and Materials Science, Zhejiang Normal University. He earned his Ph.D. from East China University of Science and Technology (2011–2016), focusing on quantum dot-sensitized solar cells under Prof. Xinhua Zhong’s mentorship.

After completing his post-doctoral research at the University of Science and Technology of China (2016–2017) with Prof. Yujie Xiong, Jin Wang joined Zhejiang Normal University in 2017.

His research explores cutting-edge techniques in quantum dots and solar-driven CO₂ conversion. He has received prestigious accolades, including the National Outstanding Graduate Award and Cheng Siwei Presidential Fellowship.

Publication profile

Googlescholar

Education and Experience

Ph.D. in Chemistry (2011–2016) from East China University of Science and Technology
- Thesis: “Wider Absorption Range and High Electron Injection Efficiency Sensitizers for Quantum Dot Sensitized Solar Cells”
- Advisor: Prof. Dr. Xinhua Zhong (Humboldt Research Fellow)
Post-Doctoral Research Fellow (2016–2017) at the University of Science and Technology of China with Prof. Yujie Xiong
Professor (2017–present) at Zhejiang Normal University

Suitability For The Award

Prof. Jin Wang, a distinguished scientist in the field of chemistry and materials science, is a leading figure in advancing quantum dot sensitized solar cells and sustainable energy solutions. Currently serving as a professor at Zhejiang Normal University, Prof. Wang’s pioneering research focuses on enhancing solar energy efficiency through innovative sensitizer designs and CO2 photoreduction. His exceptional contributions to the scientific community make him a deserving recipient of the Best Researcher Award.

Professional Development

Jin Wang’s professional journey is characterized by groundbreaking advancements in quantum dot applications and renewable energy.

He leads projects funded by the National Natural Science Foundation of China and the Zhejiang Provincial Science Foundation, targeting CO₂ photoreduction and solar-driven fuel production.

His expertise spans interface manipulation in quantum dots and transition metal ions, aiming to achieve high-efficiency energy conversions.

As a professor at Zhejiang Normal University, he combines innovative research with mentorship, inspiring the next generation of chemists.

Prof. Wang’s contributions significantly enhance the potential for sustainable energy solutions worldwide.

Research Focus

Jin Wang specializes in the development and application of quantum dot technologies for renewable energy.

His research focuses on enhancing quantum dot-sensitized solar cells through interface manipulation with transition metal ions, enabling efficient CO₂ photoreduction.

He is passionate about addressing global energy challenges by advancing solar-driven fuel production and creating innovative solutions for carbon neutrality.

His projects emphasize materials chemistry, nanostructures, and catalysis, fostering groundbreaking discoveries in sustainable energy systems.

Prof. Wang’s research aims to bridge the gap between fundamental science and practical applications, contributing to the global transition to clean energy.

Awards and Honors

2014: National Outstanding Graduate Award, Chinese Ministry of Education
2013: Cheng Siwei Presidential Fellowship, Summa Cum Laude, East China University of Science and Technology (ECUST)
2013: 2nd Prize at the 17th Academic Conference, ECUST

Publications Top Notes

High-efficiency “green” quantum dot solar cells (2014) – Cited by 664
Coordination chemistry in the design of heterogeneous photocatalysts (2017) – Cited by 544
Core/shell colloidal quantum dot exciplex states for highly efficient quantum-dot-sensitized solar cells (2013) – Cited by 468
Near Infrared Absorption of CdSexTe1–x Alloyed Quantum Dot Sensitized Solar Cells with More than 6% Efficiency and High Stability (2013) – Cited by 439
Boosting power conversion efficiencies of quantum-dot-sensitized solar cells beyond 8% by recombination control (2015) – Cited by 435
Enabling Visible‐Light‐Driven Selective CO2 Reduction by Doping Quantum Dots: Trapping Electrons and Suppressing H2 Evolution (2018) – Cited by 297

Mohammad Aslam | Renewable Energy | Best Researcher Award

Published On 04/01/202504/01/2025 by ScienceFather

Mohammad Aslam | Renewable Energy | Best Researcher Award

Assist Prof. Dr. Mohammad Aslam, National Institute of Technology Srinagar, India.

Dr. Mohammad Aslam, Ph.D., is an esteemed Assistant Professor of Chemistry and Adjunct Faculty at the Centre for Energy and Environmental Research, NIT Srinagar, India. With over 16 years of academic and research experience, his expertise spans hydroprocessing of seed oils, Fischer-Tropsch synthesis, and bioenergy. Dr. Aslam has held pivotal roles in prestigious institutions, including NIT Jalandhar and Hindustan College of Science & Technology. He has received numerous accolades, including the Best Paper Award at WRETC 2016 and SUNREAPS-II 2018. A dedicated educator and researcher, he is committed to advancing sustainable and renewable energy solutions.

Publication profile

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Education and Experience

Education

Ph.D. (Chemistry) – Hydroprocessing of Seed Oils into Transportation Fuels, NIT Jalandhar (2017).
M.Tech (Fuels & Combustion) – BIT Mesra, Ranchi (2006), Dissertation at CSIR-IIP Dehradun.
M.Sc (Industrial Chemistry) – Aligarh Muslim University (2003).
B.Sc (Industrial Chemistry) – C.S.J.M. University, Kanpur (2001).

Experience

Assistant Professor (Grade I), Dept. of Chemistry, NIT Srinagar (2022–Present).
Adjunct Faculty, CEER, NIT Srinagar (2024–Present).
Postdoctoral Fellow, Sardar Swaran Singh National Institute of Bioenergy (2014–2017).
Lecturer/Assistant Professor at Hindustan College of Science and Technology (2006–2011).

Suitability For The Award

Assist Prof.Dr. Mohammad Aslam, an accomplished researcher and academician with over 16 years of extensive research and teaching experience, stands as an exemplary candidate for the prestigious Best Researcher Award. His groundbreaking contributions to the field of chemistry, particularly in renewable energy, catalysis, and sustainable fuel production, are hallmarks of his career. From pioneering hydroprocessing techniques for seed oils into transportation fuels to innovative studies on Fischer-Tropsch synthesis for gas-to-liquid technology, Dr. Aslam has consistently delivered impactful research that addresses critical global challenges.

Professional Development

Dr. Mohammad Aslam has consistently contributed to academia and research with a strong focus on renewable energy.

As a Postdoctoral Fellow and Research Associate at the Sardar Swaran Singh National Institute of Bioenergy, he honed his expertise in biofuel production and hydroprocessing.

He has actively participated in national conferences, served as an item writer for JEE Chemistry exams, and collaborated on curriculum development aligned with NEP-2020.

Dr. Aslam’s professional journey exemplifies dedication to education, innovation, and sustainable solutions.

He also contributes to advisory committees and conference organizations, underscoring his commitment to fostering scientific progress.

Research Focus

Dr. Mohammad Aslam’s research centers on sustainable and renewable energy solutions. His expertise includes hydroprocessing of seed oils for biofuel production, Fischer-Tropsch synthesis, and catalytic conversion technologies. His work contributes to the development of environmentally friendly alternatives to fossil fuels, supporting global energy transition goals. Dr. Aslam’s studies emphasize utilizing non-edible vegetable oils and bioenergy to address the challenges of energy security and sustainability. With a commitment to innovation, he collaborates on cutting-edge projects to develop cleaner fuels and foster advancements in the field of renewable energy.

Awards and Honors

2024: Item Writer for JEE Chemistry (NTA, Govt. of India).
2023: External Examiner for MSc and Biotechnology lab courses at IUST and Central University of Kashmir.
2018: Best Paper Award at SUNREAPS-II, Chandigarh University.
2016: Best Paper Award at WRETC-2016, Ministry of New and Renewable Energy, India.
2010: Best Teacher Award, Hindustan College of Science & Technology.
2011–2017: Fellowship from MNRE, Govt. of India.
2021: Committee Member for NEP-2020 Skill-Oriented Courses in J&K.

Publications Top Notes

Transformation of 1-G and 2-G liquid biomass to green fuels using hydroprocessing technology (2022) – Cited by 25.
Production of renewable liquid hydrocarbons over renewable catalyst (2018) – Cited by 15.
Sustainability of New and Renewable Energy: A Present Scenario (2018) – Cited by 10.
Potential of oleaginous yeast Trichosporon sp. for conversion of sugarcane bagasse hydrolysate into biodiesel (2017) – Cited by 40.
Fischer-Tropsch Synthesis Studies on Titania Supported Cobalt Catalyst (2016) – Cited by 18.
Hydrodecarboxylation of Jatrophacurcas L. using Fly Ash Catalyst (2016) – Cited by 12.
Hydroprocessing of Mesuaferrea L oil over NiMo/MBCUS catalyst (2016) – Cited by 20.
Performance and emission characteristics of VCR C.I. engine using Jatropha curcas oil (2016) – Cited by 30.
Catalytic Hydrocracking of High FFA Vegetable Oils to Liquid Hydrocarbons (2015) – Cited by 22.

Mohamed Ben Bechir | Renewable Energy | Excellence in Research

Published On 03/01/202503/01/2025 by ScienceFather

Mohamed Ben Bechir | Renewable Energy | Excellence in Research

Prof. Mohamed Ben Bechir, faculté des sciences de Sfax, Tunisia.

Dr. Mohamed Ben Bechir

is a physicist and researcher at the Laboratory of Spectroscopic and Optical Characterizations of Materials (LASCOM), Faculty of Sciences, Sfax, Tunisia

. With an H-index of 13 and over 497 citations

, he is recognized for his contributions to hybrid organic-inorganic materials, perovskites, and energy-focused ceramics

. A university lecturer since 2015, Dr. Ben Bechir has mentored numerous students and coordinated research programs

. His expertise extends to optical, thermodynamic, and renewable energy systems

. Passionate about advancing scientific knowledge, he is a dedicated educator and an innovator in materials science research

Publication profile

Scopus

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Education and Experience

Baccalauréat (Mathématiques): Lycée Habib Màazoun, Sfax (2007)
Licence Fondamentale en Physique: Faculty of Sciences, Sfax (2010)
Master de Physique des Milieux Condensés: Faculty of Sciences, Sfax (2012)
Doctorat en Physique: Faculty of Sciences, Sfax (2015)
Habilitation Universitaire en Physique: Faculty of Sciences, Sfax (2022)
Lecturer: Faculty of Sciences, Gafsa, Tunisia (2015–Present)

Suitability For The Award

Dr. Mohamed Ben Bechir is a visionary researcher whose groundbreaking contributions in materials science and renewable energy research make him an outstanding candidate for the prestigious Excellence in Research . His expertise in synthesizing and characterizing innovative materials, coupled with his impactful academic and mentorship roles, underscores his commitment to advancing science and sustainable energy solutions.

Professional Development

Dr. Mohamed Ben Bechir has consistently advanced his professional expertise through teaching, research, and coordination

. As a lecturer at the Faculty of Sciences, Gafsa, he delivers diverse courses, including optics, astrophysics, and renewable energy

. His academic leadership includes serving as the coordinator for the Master of Research in Physics program since 2022

. He actively mentors students in cutting-edge research on hybrid perovskites and energy systems

. His work bridges academia and practical applications, contributing to renewable energy innovations and sustainable material development

. His dedication to teaching and research exemplifies his commitment to scientific excellence

Research Focus

Dr. Mohamed Ben Bechir’s research centers on hybrid organic-inorganic materials, perovskites, and renewable energy solutions . He investigates materials like halide-based perovskites and energy-efficient ceramics for photovoltaic and optoelectronic applications . His work on lithium orthophosphates and hybrid compounds has implications for energy storage and sustainability . Through innovative synthesis and characterization techniques, his research aims to enhance energy systems’ efficiency and environmental compatibility . Dr. Ben Bechir’s commitment to exploring advanced materials positions him as a leader in renewable energy and materials science . His research actively addresses the challenges of modern energy demands .

Publications Top Notes

Exploring Photoconduction Mechanisms in Lead-Free Cs3Sb2I9 Single Crystal Thin Films (2024, Optical Materials)
Exploring Photoexcitation Effects on Cs3Bi2Br9 Perovskite Single Crystal Properties (2024, Optical Materials, cited by: 2)
From Molecular Salt to Layered Network: Cation-Driven Tuning of Band Gap, Structure, and Charge Transport in A3Bi2I9 (A = Cs, Rb) Perovskites (2024, RSC Advances, cited by: 1)
Investigating the Electrical and Optical Characteristics of Lead-Free All-Inorganic Cs3Sb2Br9 Single Crystals (2024, Optical Materials, cited by: 2)
Vibrational Spectroscopic, Optical Properties, and Electrical Conduction Mechanism of Lead-Free Perovskite Cs2ZnCl4 (2024, Chemistry Africa)
Understanding Charge Transport and Dielectric Relaxation Properties in Lead-Free Cs2ZrCl6 Nanoparticles (2024, RSC Advances, cited by: 3)
Structural, Morphological, Electrical, and Dielectric Properties of Na2Cu5(Si2O7)2 for ASSIBs (2024, RSC Advances, cited by: 2)
Investigation of Optical, Dielectric, and Charge Transfer Properties in Lead-Free Double Perovskite Cs2MSbBr6 (M = Cu, Ag) (2024, Ionics, cited by: 4)

You-Dong Kim | fuel cell technologies | Best Researcher Award

Published On 05/11/202405/11/2024 by ScienceFather

You-Dong Kim | fuel cell technologies | Best Researcher Award

Mr.You-Dong Kim, Colorado School of Mines, United States.

You-Dong Kim is a Ph.D. candidate in Material Science at the Colorado School of Mines, specializing in advanced fuel cell technologies and nanomaterials . Guided by Professors Ryan O’Hayre and Neal Sullivan, his research delves into solid oxide cells (SOCs) and innovative fabrication methods to enhance energy efficiency . With a Master’s in Nanotechnology and Advanced Materials Engineering and a Bachelor’s in Advanced Materials Engineering from Sejong University, he combines strong technical skills with hands-on research experience in electrochemical testing, ceramic processing, and machine learning applications in materials science . Kim’s work addresses clean energy, durability, and material efficiency in emerging fuel cell technology .

Publication profile

Googlescholr

Scopus

Education and Experience

Ph.D. Candidate in Material Science (2020–2025)
Colorado School of Mines, Golden, Colorado, USA
Advisors: Prof. Ryan O’Hayre and Prof. Neal Sullivan
M.Eng. in Nanotechnology and Advanced Materials Engineering (2016–2018)
Sejong University, Seoul, South Korea
Advisor: Prof. Jun-Young Park
B.Eng. in Advanced Materials Engineering (2011–2016)
Sejong University, Seoul, South Korea
Research Experience in Solid Oxide Cells and Electrochemical Testing
Techniques include tape-casting, spray coating, machine learning applications, and electrochemical analysis .

Suitability For The Award

Mr. Youdong Kim’s extensive research in the field of Material Science, particularly his work on Solid Oxide Cells (SOCs) and Protonic Ceramic Fuel Cells (PCFCs), positions him as a strong candidate for the Best Researcher Award. His efforts in the fabrication and testing of SOCs demonstrate his commitment to advancing energy technologies, which are critical for sustainable energy solutions.

Professional Development

Throughout his career, You-Dong Kim has actively advanced his expertise in fuel cell technologies, nanomaterials, and machine learning applications in materials science . He has gained hands-on experience in fabricating and testing Solid Oxide Cells (SOCs), utilizing techniques like spray coating and electrochemical impedance spectroscopy (EIS) to enhance fuel cell performance . His research also incorporates machine learning to optimize air electrodes, leveraging Python-based models to identify promising catalysts and optimize materials . Kim regularly shares his insights at international conferences, showcasing his findings on sustainable energy technologies and solid oxide fuel cell advancements .

Research Focus

You-Dong Kim’s research centers on clean energy technology, particularly in the development and testing of solid oxide fuel cells (SOFCs) and protonic ceramic fuel cells (PCFCs) . His work explores the fabrication and electrochemical properties of durable fuel cell materials, applying techniques like tape-casting, ultrasonic spray coating, and spin coating to refine performance . Additionally, he investigates machine learning’s role in material design, developing predictive models to improve air electrode efficiency and durability using algorithms like Random Forest and XGBoost . His research directly contributes to sustainable energy solutions by advancing intermediate-temperature solid oxide fuel cells .

Awards and Honors

🏆 University Fellowship (2020–2024)
Awarded by Colorado School of Mines

Publications

“Towards improved stability in proton-conducting ceramic fuel cells” – Meisel, C., Huang, J., Kim, Y.-D., O’Hayre, R., Sullivan, N.P. (2024) – Cited by: 1
“Improving tubular protonic ceramic fuel cell performance by compensating Ba evaporation via a Ba-excess optimized proton conducting electrolyte synthesis strategy” – Kim, Y.-D., Kim, I.-H., Meisel, C., Sullivan, N.P., O’Hayre, R. (2024) – Cited by: 3
“Tuning the Co/Fe ratio in BaCoxFe0.8−xZr0.1Y0.1O3−δ, a promising triple ionic and electronic conducting oxide, to boost electrolysis and fuel cell performance” – Shin, Y., Kim, Y.-D., Sanders, M., Walker, M., O’Hayre, R. (2022) – Cited by: 15
“Proton-conducting ceramics for water electrolysis and hydrogen production at elevated pressure” – Herradon, C., Le, L., Meisel, C., O’Hayre, R., Sullivan, N.P. (2022) – Cited by: 24
“Performance degradation in proton-conducting ceramic fuel cell and electrolyzer stacks” – Le, L.Q., Meisel, C., Hernandez, C.H., O’Hayre, R., Sullivan, N.P. (2022) – Cited by: 26
“Cobalt-free perovskite Ba1-xNdxFeO3-δ air electrode materials for reversible solid oxide cells” – Kim, Y.-D., Yang, J.-Y., Saqib, M., Song, S.-J., Park, J.-Y. (2021) – Cited by: 35

Subodh Kumar Jha | Hydrogen Energy | Best Researcher Award

Published On 29/10/202429/10/2024 by ScienceFather

Subodh Kumar Jha | Hydrogen Energy | Best Researcher Award

Mr. Subodh Kumar Jha, North Eastern Hill University,Shillong,Meghalaya, India.

Subodh Kumar Jha , a final-year Energy Engineering student at North Eastern Hill University, Shillong, is passionately committed to sustainable energy . With a stellar CGPA of 8.39, he leads Energy Mania, a platform that raises awareness about renewable energy. Subodh’s impressive experience includes internships at IIT Roorkee, Thermax Limited, and NIT Silchar, where he researched sustainable solutions in thermal storage, nanomaterials, and hydrogen energy. His technical proficiency in MATLAB, Simulink, ANSYS, and ArcGIS complements his dedication to environmental stewardship. Beyond academics, Subodh enjoys photography , cooking , and traveling , adding depth to his commitment to energy innovation.

Publication profile

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Education and Experience

North Eastern Hill University, Shillong: B.Tech in Energy Engineering (2021–2025) with a CGPA of 8.39.
Academic Achievements: Ranked 1st in the 4th and 5th semesters, 2nd in remaining semesters.
Internship – IIT Roorkee: Researched phase change materials for thermal energy storage.
Internship – Thermax Limited, Pune: Studied heat transfer enhancement using nanomaterials.
International Internship – IIT Ropar & Energy Mentors, USA: Developed a model for large-scale hydrogen production from seawater.
Internship – NIT Silchar: Optimized scramjet combustor design for hydrogen applications.

Suitability For The Award

Mr. Subodh Kumar Jha stands out as an exemplary candidate for the Best Researcher Award due to his impressive academic achievements, extensive hands-on research experience, and commitment to promoting sustainable energy practices. Currently a final-year Energy Engineering student at North Eastern Hill University, he has maintained a commendable CGPA of 8.39, consistently ranking at the top of his class. His initiative, Energy Mania, reflects his proactive approach to raising public awareness about renewable energy and energy conservation, showcasing his dedication to community engagement and environmental stewardship.

Professional Development

Subodh Kumar Jha’s commitment to advancing his skills in energy systems is evident through multiple certifications and workshops. He completed specialized courses in Renewable Energy Technology , Uncertainty Analysis , and Self-Charged Hybrid Electric Vehicles , building expertise in sustainable solutions. He also broadened his proficiency in programming and analysis through courses in Python, HTML, and CSS , and Power BI . As a campus ambassador for IIT Kanpur’s E-Cell and MyGov India, he actively promotes innovation and sustainability in academia. Through these professional pursuits, Subodh merges theoretical knowledge with practical skills for impactful, environmentally conscious engineering.

Research Focus

Subodh Kumar Jha focuses his research on sustainable energy systems , particularly in Energy Storage and Thermal Engineering. His work spans innovative solutions in Hydrogen Energy and Phase Change Materials (PCMs), researching their potential in electric vehicles, building energy systems, and green hydrogen production. Subodh’s internships have deepened his understanding of nanomaterials for heat transfer enhancement and scramjet combustor designs for hydrogen applications, enhancing his insights into clean energy technologies. Through Energy Mania , his initiative for public awareness on renewable energy, Subodh emphasizes the importance of transitioning toward low-carbon solutions for a sustainable future.

Awards and Honors

Ganga Quest 2021: Ranked among the top 25 winners, securing a bronze medal in current affairs and governance.
MI Scholarship 2020: Awarded by Xiaomi India for academic excellence.

Publications

Incorporation of Phase Change Materials in Buildings – Construction Materials, 2024 (Cited by: 0)

Howard Qingsong Tu | Energy Storage | Best Researcher Award

Published On 12/10/202412/10/2024 by ScienceFather

Howard Qingsong Tu | Energy Storage | Best Researcher Award

Dr. Howard Qingsong Tu , Rochester Institute of Technology, United States.

Howard Qingsong Tu, Ph.D. is an Assistant Professor at Rochester Institute of Technology and Associate Director of the Battery Prototype Center. His career focuses on advancing sustainable energy and environment systems, especially through the mechanics of electrochemistry in solid-state batteries and water desalination. Dr. Tu completed his Ph.D. at UC Berkeley, followed by a postdoctoral fellowship at Lawrence Berkeley National Lab. He has co-founded a company, mentored students, and led numerous research projects funded by institutions such as the DOE, NSF, and DoD. He is passionate about bridging lab-scale innovations with industrial applications.

Publication profile

Scopus

Education:

Ph.D. in Civil & Environmental Engineering, University of California, Berkeley (2017)
M.S. & B.S. in Mechanical Engineering, Beijing Institute of Technology (2011)
Postdoc in Material Science, Lawrence Berkeley National Lab (2017-2021)

Professional Experience:

Assistant Professor, Rochester Institute of Technology (2021-present)
Associate Director, Battery Prototype Center (2022-present)
Co-Founder & CEO, CALSTERMER LLC (2014-2018)

Suitability for The Award

Dr. Howard Qingsong Tu is a highly suitable candidate for the Best Researcher Award due to his remarkable contributions to sustainable energy, environmental preservation, and electrochemical systems. His work spans from cutting-edge renewable energy storage solutions to innovative environmental technologies, addressing critical global challenges in energy efficiency, pollution control, and resource sustainability.

Professional Development ()

Howard Qingsong Tu, Ph.D., has made significant strides in energy storage, renewable energy, and environmental sustainability research. He developed the open-source TECM (Thermo-electro-chemo-mechanics) package and led high-impact publications and patent filings in solid-state battery technologies. Collaborating with the Battery Prototype Center at RIT, he scales up lab innovations to industrial applications. He also spearheaded projects on wastewater treatment and CO2 capture, funded by top organizations like DOE and NSF. Through teaching, mentoring, and organizing scientific symposia, Dr. Tu nurtures the next generation of researchers while expanding his expertise in clean energy solutions.

Research Focus

Dr. Tu’s research spans three primary areas: electrochemistry mechanics, renewable energy storage, and environmental sustainability. He investigates the mechanics behind electrochemical processes in solid-state batteries, enhancing safety and efficiency in energy storage systems. His work also addresses sustainable water solutions, including ionic transport and membrane fracture in desalination technologies. Further, he explores clean energy alternatives, focusing on zero-wastewater discharge and CO2 reduction techniques. His projects aim to bridge fundamental research with practical solutions for renewable energy and environmental preservation, collaborating with industry and research hubs.

Awards and Honors (

US-EDA Build Back Better Act ($1.3M/yr) – Co-PI
DoE-VTO Battery500 Program ($900K) – Co-PI
DoD-ARO Young Investigator Program ($120K/yr) – PI
NYSP2I Pollution Prevention Fund ($150K/yr) – PI
ACS-ND Grant ($50K/yr) – PI

Publication Top Notes

Effect of solid-electrolyte pellet density on failure of solid-state batteries – Nature Communications, 2024 – Cited by: 7
Structural insight and modulating of sulfide-based solid-state electrolyte for high-performance solid-state sodium sulfur batteries – Nano Energy, 2024 – Cited by: 0
Desalination performance investigation of TpPa-1 COF and MIL-47(V) MOF bilayer membranes using molecular dynamics simulation – Desalination, 2024 – Cited by: 2
The Microscopic Mechanism of Lithiation and Delithiation in the Ag/C Buffer Layer for Anode-Free Solid-State Batteries – Advanced Energy Materials, 2024 – Cited by: 3
Li Dynamics in Mixed Ionic-Electronic Conducting Interlayer of All-Solid-State Li-metal Batteries – Nano Letters, 2024 – Cited by: 1
Interplay of Interfacial Adhesion and Mechanical Degradation in Anode-Free Solid-State Batteries – Journal of the Electrochemical Society, 2024 – Cited by: 0

Yoon Hwae Hwang | Energy Harvesting | Best Researcher Award

Published On 05/09/202405/09/2024 by ScienceFather

Yoon Hwae Hwang | Energy Harvesting | Best Researcher Award

Prof .Yoon-Hwae Hwang , Pusan National University, South Korea.

Prof. Yoon-Hwae Hwang is a distinguished professor at Pusan National University in South Korea, specializing in Nanoenergy Engineering and Nanofusion Technology. With an impressive academic background from Yonsei University and the University of Pittsburgh, Prof. Hwang has held various leadership roles including Department Chair, Vice Dean, and Dean at PNU. His contributions have been recognized with multiple awards, such as the Best Lecture & Research Award and the S-Oil Best Thesis Award. His research continues to shape the future of energy technologies and nanomaterials.

Publication Profile

Orcid

Suitability For The Award

Professor Yoon-Hwae Hwang stands out as an excellent candidate for the Best Researcher Award due to his pioneering work and substantial contributions in the fields of nano energy engineering and nano fusion technology.

Education And Experience

B.S. in Physics, Yonsei University (1986)
M.S. in Semiconductor Physics, Yonsei University (1988)
M.S. in Physics, University of Pittsburgh (1991)
Ph.D. in Condensed Matter Physics, University of Pittsburgh (1995)
Research Associate, City College of CUNY (1995–1997)
Dept. Chair, Pusan National University, Nanomaterials Engineering (2006–2007)
Vice Dean, Pusan National University, Nanosci & Nanotech (2007–2009)
Professor, Pusan National University, Nanomaterials Engineering (2009–2015)
Professor, Pusan National University, Nanoenergy Engineering (2025–Present)
Director, Pusan National University, RCDAMP (2012–2014)
Dept. Chair, Pusan National University, Nano Energy Engineering (2014–2017)
Director, Pusan National University, BK 21 PLUS (2013–2021)
Editor-in-Chief, Korean Physics Society, CAP (2019–2021)
Dean, Pusan National University, Nanosci & Nanotech (2020–2022)

Professional Development

Prof.Hwang’s career is marked by significant leadership roles, including serving as Director of RCDAMP and BK 21 PLUS, and Editor-in-Chief of CAP. He has been recognized with numerous awards for his contributions to research and education, highlighting his ongoing commitment to professional growth and academic excellence.

Research Focus

Prof. Yoon-Hwae Hwang’s research focuses on innovative technologies in energy harvesting and nanomaterials. His work includes developing nanogenerators, supercapacitors, and solar water splitting systems to improve energy efficiency. Additionally, he explores biosensors for advanced analytical applications, such as single-cell analysis and environmental monitoring. Prof. Hwang is also dedicated to enhancing solar energy technologies and piezoelectric materials, aiming to drive advancements in sustainable energy solutions and nanotechnology applications. His contributions are pivotal in shaping the future of energy and materials science.

Publications

PCDA/ZnO Organic–Inorganic Hybrid Photoanode for Efficient Photoelectrochemical Solar Water Splitting (2024) [Cited By: 12]
Fountain Pen-Inspired 3D Colloidal Assembly, Consisting of Metallic Nanoparticles on a Femtoliter Scale (2023) [Cited By: 8]
Crack-Free and Thickness-Controllable Deposition of TiO₂–rGO Thin Films for Solar Harnessing Devices (2022) [Cited By: 15]
A Review of Advanced Impedance Biosensors with Microfluidic Chips for Single-Cell Analysis (2021) [Cited By: 20]
Enhancing Electrical Outputs of Piezoelectric Nanogenerators by Controlling the Dielectric Constant of ZnO/PDMS Composite (2021) [Cited By: 18]
PMMA Thin Film with Embedded Carbon Quantum Dots for Post-Fabrication Improvement of Light Harvesting in Perovskite Solar Cells (2020) [Cited By: 22]
Recent Advances in Organic Piezoelectric Biomaterials for Energy and Biomedical Applications (2020) [Cited By: 30]
Eu, Gd-Codoped Yttria Nanoprobes for Optical and T₁-Weighted Magnetic Resonance Imaging (2017) [Cited By: 25]

Conclusion

Professor Yoon-Hwae Hwang’s groundbreaking research in nanoenergy technologies, his extensive leadership roles, and his recognition through numerous awards make him a highly suitable candidate for the Best Researcher Award. His contributions to energy harvesting, biosensors, and solar water splitting, along with his impactful service in academia, underscore his excellence and dedication in the field.

Ms. Luping Wang, Shenyang Aerospace University, Best Researcher Award.

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Assoc. Prof. Dr . Gan Qu , Zhengzhou University, China.

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Professional Development

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Awards & Honors 🏆🎖️

Publication Top Notes

Quantum Spin Exchange Interactions to Accelerate the Redox Kinetics in Li–S Batteries – Nano-Micro Letters (2024) – 19 citations

A Click Chemistry Strategy Toward Spin-Polarized Transition-Metal Single Site Catalysts for Dynamic Probing of Sulfur Redox Electrocatalysis –Advanced Materials (2024) – 3 citations

Peripheral Group-Induced Spin-State Switch of Metal Macrocyclic Molecule for Enhanced Redox Kinetics in Lithium-Sulfur Batteries – Chemical Engineering Journal (2024) – 3 citations

Mr. Ahmet Hasçelik, Afyon Kocatepe University , Turkey.

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Education & Experience

Suitability Summary

Professional Development

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Awards & Honors 🏆

Publication Top Notes

1️⃣ Investigations on Surface Roughness and Tool Wear Characteristics in Micro-Turning of Ti-6Al-4V Alloy 📏🔧 – Materials (2020) – Cited by: 60

2️⃣ An Experimental Investigation on Effects of Cooling/Lubrication Conditions in Micro-Milling of Additively Manufactured Inconel 718 ❄️⚙️ – Tribology International (2022) – Cited by: 51

3️⃣ Effect of Cutting Conditions on Tool Wear and Wear Mechanism in Micro-Milling of Additively Manufactured Titanium Alloy 🛠️🔍 – Tribology International (2024) – Cited by: 22

4️⃣ Performance Evaluation of DLC and NCD Coatings in Micro-Milling of Al7075-T6 Alloy 🏭🎯 – Journal of Manufacturing Processes (2022) – Cited by: 21

5️⃣ Determination of Cutting Force Coefficients with Mechanistic and Numerical Modelling in Micro-Turning Process 📊✍️ – Journal of the Faculty of Engineering and Architecture of Gazi University (2022) – Cited by: 4

6️⃣ Mikro Tornalama İşleminde Kesici Takım Burun Yarıçapının Kesme Kuvvetlerine Etkisi 🌀🔩 – Journal of Materials and Mechatronics: A (2021) – Cited by: 3

Prof. Jin Wang, Zhejiang Normal University, China.

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Publications Top Notes

High-efficiency “green” quantum dot solar cells (2014) – Cited by 664

Coordination chemistry in the design of heterogeneous photocatalysts (2017) – Cited by 544

Core/shell colloidal quantum dot exciplex states for highly efficient quantum-dot-sensitized solar cells (2013) – Cited by 468

Near Infrared Absorption of CdSexTe1–x Alloyed Quantum Dot Sensitized Solar Cells with More than 6% Efficiency and High Stability (2013) – Cited by 439

Boosting power conversion efficiencies of quantum-dot-sensitized solar cells beyond 8% by recombination control (2015) – Cited by 435

Enabling Visible‐Light‐Driven Selective CO2 Reduction by Doping Quantum Dots: Trapping Electrons and Suppressing H2 Evolution (2018) – Cited by 297

Assist Prof. Dr. Mohammad Aslam, National Institute of Technology Srinagar, India.

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Education and Experience

Education

Experience

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Awards and Honors

Publications Top Notes

Transformation of 1-G and 2-G liquid biomass to green fuels using hydroprocessing technology (2022) – Cited by 25.

Production of renewable liquid hydrocarbons over renewable catalyst (2018) – Cited by 15.

Sustainability of New and Renewable Energy: A Present Scenario (2018) – Cited by 10.

Potential of oleaginous yeast Trichosporon sp. for conversion of sugarcane bagasse hydrolysate into biodiesel (2017) – Cited by 40.

Fischer-Tropsch Synthesis Studies on Titania Supported Cobalt Catalyst (2016) – Cited by 18.

Hydrodecarboxylation of Jatrophacurcas L. using Fly Ash Catalyst (2016) – Cited by 12.

Hydroprocessing of Mesuaferrea L oil over NiMo/MBCUS catalyst (2016) – Cited by 20.

Performance and emission characteristics of VCR C.I. engine using Jatropha curcas oil (2016) – Cited by 30.

Catalytic Hydrocracking of High FFA Vegetable Oils to Liquid Hydrocarbons (2015) – Cited by 22.

Mohamed Ben Bechir | Renewable Energy | Excellence in Research

Prof. Mohamed Ben Bechir, faculté des sciences de Sfax, Tunisia.

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Mr.You-Dong Kim, Colorado School of Mines, United States.

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