Mingchuan Li | Thermal Science and Technology | Research Excellence Award

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Dr. Mingchuan Li | Thermal Science and Technology | Research Excellence Award

China University of Petroleum | China

Dr. Mingchuan Li is a researcher in energy and environmental engineering with a strong focus on mathematical modeling of natural gas hydrate dissociation and heat–mass transfer processes. His scholarly output comprises 10 published documents, which have received 85 citations from 70 citing documents, resulting in an h-index of 5, indicating steady research impact within this specialized field. His work emphasizes analytical and radial mathematical models that incorporate moving Stefan boundaries to describe hot-water and heat-induced dissociation mechanisms of gas hydrates. These models contribute to improved understanding of hydrate behavior under thermal stimulation, with relevance to energy recovery, flow assurance, and hydrate management. His publications appear in recognized international journals and conference proceedings, including Energy and engineering conference series, addressing kinetics, dissociation fronts, and coupled heat–mass transfer phenomena. Overall, his research advances theoretical frameworks for hydrate dissociation processes and supports the development of more accurate predictive tools for energy and environmental applications.

Citation Metrics (Scopus)

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Featured Publications

Imen Massoudi | Semiconductor | Best Researcher Award

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Dr. Imen Massoudi | Semiconductor | Best Researcher Award

Associate Professor at Imam Abdulrahman bin Faisal university, Saudi Arabia

Professional Profile

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Summary

Dr. Imen Salah Massoudi is an Associate Professor of Physics at Imam Abdulrahman Bin Faisal University (IAU), Saudi Arabia, specializing in materials science and nanostructures. A prolific researcher, inventor, and academic leader, she has significantly advanced the fields of semiconductor physics, photocatalysis, and environmental nanotechnology. Her work bridges experimental nanomaterial synthesis with real-world applications in solar energy and water purification, and she actively mentors emerging scientists, contributes to global scientific forums, and holds several patents in semiconductor technologies.

Educational Details

Dr. Massoudi earned her Ph.D. in Physics from the University of Monastir, Tunisia, in 2013, with a focus on III-V semiconductors. She also holds a Master’s degree in Materials, Nanostructures, and Microelectronic Systems (2008) and a Bachelor’s in Fundamental Physics (2006) from the same university. In 2023, she completed a Professional Fellowship in University Teaching and Learning (PFUTL) from the University of Turku (Finland) in collaboration with IAU, highlighting her dedication to academic excellence and pedagogical innovation.

Professional Experience

With over 17 years in academia, Dr. Massoudi began her career as a lecturer at the University of Monastir and advanced through roles at the University of Gabes and University of Tunis - El Manar before joining IAU in 2014. She became Associate Professor in 2019. She serves as principal investigator at the Basic and Applied Scientific Research Center at IAU and contributes to multiple research initiatives in collaboration with institutions across Tunisia, Europe, and the Gulf. Beyond her academic roles, she is a committed scientific organizer and mentor in community and student research development programs.

Research Interests

Her research lies at the intersection of semiconductor physics, nanostructured materials, photocatalytic degradation, dielectric properties, and solar energy conversion. She investigates metal-doped oxides, ternary semiconductors, and nanocomposites for optoelectronic, antimicrobial, and environmental applications. Her pioneering contributions include enhanced ZnO-based materials for water treatment and transparent semiconducting oxides for photovoltaic devices. Her patents and experimental studies address key global challenges in sustainable energy and clean water.

Author Metrics

Dr. Massoudi has authored over 40 peer-reviewed publications in high-impact journals, including Ceramics International, Journal of Materials Science, Emergent Materials, and Physica Scripta, with many indexed in Q1 and Q2 quartiles. Her works consistently address the synthesis, characterization, and functional evaluation of advanced materials, and are widely cited for their originality and cross-disciplinary relevance. She is also an active reviewer, conference organizer, and contributor to scientific workshops and symposia.

Awards and Honors

Dr. Massoudi has received multiple accolades, including the Tunisian National Award in Fundamental Physics (2006), and Scientific Excellence Research Awards from IAU in 2018, 2019, 2021, 2023, and 2025. Under her mentorship, students have won honors for best posters and research projects. She is also a registered inventor with the U.S. Patent and Trademark Office, holding patents related to semiconductor materials for photocatalytic degradation and wastewater treatment. Her impactful scientific leadership has earned her roles in national science initiatives and international mentorship programs such as the UN Space4Women.

Publication Top Notes

1. Synthesis and Characterization of MoO3 for Photocatalytic Applications

  • Authors: AL Al-Alotaibi, N Altamimi, E Howsawi, KA Elsayed, I Massoudi, ...

  • Journal: Journal of Inorganic and Organometallic Polymers and Materials

  • Volume: 31

  • Pages: 2017–2029

  • Year: Not explicitly stated, but likely 2021 (based on citation count)

  • Citations: 53 (as of 2021)

2. Photoelectrochemical and Optical Properties Tuning of Graphene-ZnO Nanocomposites

  • Authors: M Salem, S Akir, I Massoudi, Y Litaiem, M Gaidi, K Khirouni

  • Journal: Journal of Alloys and Compounds

  • Volume: 767

  • Pages: 982–987

  • Year: 2018

  • Citations: 46

3. Photoelectrochemical and Opto-electronic Properties Tuning of ZnO Films: Effect of Cu Doping Content

  • Authors: M Salem, I Massoudi, S Akir, Y Litaiem, M Gaidi, K Khirouni

  • Journal: Journal of Alloys and Compounds

  • Volume: 722

  • Pages: 313–320

  • Year: 2017

  • Citations: 46

4. Structural, Optical and Photocatalytic Studies of Zn Doped MoO3 Nanobelts

  • Authors: AL Al-Otaibi, T Ghrib, M Alqahtani, MA Alharbi, R Hamdi, I Massoudi

  • Journal: Chemical Physics

  • Volume: 525

  • Article Number: 110410

  • Year: 2019

  • Citations: 42

5. Structural, Optical and Thermal Properties of the Ce Doped YAG Synthesized by Solid State Reaction Method

  • Authors: T Ghrib, AL Al-Otaibi, MA Almessiere, A Ashahri, I Masoudi

  • Journal: Thermochimica Acta

  • Volume: 654

  • Pages: 35–39

  • Year: 2017

  • Citations: 42

Conclusion

Dr. Imen Salah Massoudi is an outstanding candidate for the Best Researcher Award given her impressive publication record, innovative patented work, and leadership in semiconductor physics and nanotechnology with practical applications addressing sustainable energy and environmental issues. Her sustained excellence, mentoring, and recognition by national and international bodies underscore her suitability.

Enhancing international collaborations and industry partnerships could elevate her impact further, but her current achievements already represent a high standard of research excellence and academic leadership deserving of such an award.

Rachid Masrour – Materials for energy – Best Researcher Award

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Rachid Masrour – Materials for energy – Best Researcher Award

Prof Dr. Rachid Masrour distinguished academic and researcher in the field Materials for energy, He appears to be highly suitable for the Best Researcher Award.

🌐 Professional Profile

Educations📚📚📚

  • Doctorate in Materials Physics: The person has a strong foundation in physics, particularly in materials physics, which is a significant and impactful research area.
  • Full Professorship and Habilitation: Achieving a full professorship and university habilitation demonstrates a high level of expertise, recognition, and authority in their field of research.

Professional Experience:

  • Research Professor: Over a decade of experience as a research professor at respected institutions shows dedication to both research and teaching. The transition from the National School of Applied Sciences to a prominent role at Sidi Mohamed Ben Abdellah University further highlights their growing influence in the academic world.

Research and Academic Contributions:

  • Responsibilities: The individual’s involvement in various academic and administrative roles, such as heading departments, coordinating programs, and participating in multiple committees, indicates a leadership role in shaping educational and research initiatives. These roles often require one to be a thought leader and innovator in their field.
  • Module Responsibilities: The responsibility for modules on advanced topics like Interaction Radiation Matter, Molecular Spectroscopy, Physics of Phase Transitions, and Optical Transmission Technology suggests deep expertise in cutting-edge areas of physics and engineering, which are critical for research and innovation.

Suitability for Best Researcher Award:

  • Breadth and Depth of Research: The candidate’s extensive experience in both teaching and research, combined with their leadership roles, suggests they are a well-rounded academic with a strong impact on both their field and the institutions they have served.
  • Leadership in Research: The leadership positions, particularly in research committees and academic councils, indicate the individual’s influence extends beyond personal research to shaping the research agenda and standards at their institutions.
📝🔬Publications📝🔬

1. Oudahman, M. , Houmad, M. , Masrour, R. , Rezzouk, A. Materials
Science in Semiconductor Processing , 182, 108647 (2024).
2. Raïâ, M.Y. , R. Masrour, Hamedoun, M. , Kharabach J, Rezzouk A,
Benzakour, N. , Bouslykhane, K. Materials Science in Semiconductor
Processing , 181, (2024) 108649.
3. A. Erraji, R. Masrour, L. Xu. Ionics 2024.DOI10.1007/s11581-024-05632-
z.
4. Heryanto, H. , Tahir, D. , Abdullah, B, Sayyed M.I.; Yunas, Jumril;
Masrour, Rachid; Veeravelan K. Arabian Journal for Science and
Engineering. DOI10.1007/s13369-024-09210-3 (2024).
5. Mennaoui, O. , R. Masrour, Xu, L. , Hlil, E.K. Ionics , 30(5), pp. 2537–
2547 (2024).
6. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today Communications ,
39, 108713 (2024).
7. Kadim, G. , R. Masrour, Physica Scripta , 99(6), 065988 (2024).
8. Rauf, Ichsan; Heryanto, Heryanto; Tahir, Dahlang; Gaus, Abd; Rinovian,
Asnan; Veeravelan K.; Akouibaa, Ahmed; Rachid Masrour; Akouibaa,
4
Abdelilah. Physica Scripta Open Access Volume 99, Issue 61 (2024) Article
number 065998.
9. Khalis, M, R. Masrour. Indian Journal of Physics , 98(8), pp. 2719–2729
2024.
10. Ramdane, O. , Labidi, M. , Labidi, S. , R. Masrour, Journal of the
Korean Ceramic Society (2024).DOI10.1007/s43207-024-00397-7.
11. Kadim, G. , R. Masrour, Journal of the Korean Ceramic Society
(2024).DOI10.1007/s43207-024-00394-w.
12. Sahdane, T. , R. Masrour, Journal of Cluster Science
(2024).DOI10.1007/s10876-024-02636-7.
13. Ezaier, A. , R. Masrour, Hamedoun, A., M. , Kharbach, J.,
Rezzouk, A., Benzakour, N. , Bouslykhane, K. Journal of Rare Earths
(2024).DOI10.1016/j.jre.2023.05.014.
14. R. Masrour, , Kadim, G. , Ellouze, M. Journal of the Korean
Ceramic Society , 61(3), pp. 411–418 (2024).
15. Akouibaa, A. , R. Masrour, , Mordane, S. , Benhamou, M., El
Assyry, A. , Derouiche, A.. Journal of Drug Delivery Science and Technology
, 95, 105559 (2024).
16. Sahdane, T. , R. Masrour, Polyhedron , 254, 116948 (2024).
17. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today
Communications , 39, 108713 (2024).
18. Elhnaki, I. , Masrour, R. , Sahdane, T. Computational Materials
Science , 242, 113113 (2024).
19. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500801 (2024).
20. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500811 (2024).
21. Meghchouche, H. , Labidi, M. , Amara, A. , Labidi, S. , R. Masrour,
Physica B: Condensed Matter , 686, 416080 (2024).
22. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Science in
Semiconductor Processing , 179, 108506 (2024).

Ahmed Haroun – Self powered sensors – Best Researcher Award

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Ahmed Haroun – Self powered sensors – Best Researcher Award

Dr. Ahmed Haroun distinguished academic and researcher in the field  Self Powered Sensors. His impactful research extends beyond the confines of academia, as evidenced by his tenure as a Senior Research Fellow at the National University of Singapore. Here, he contributed significantly to the development of meso-scale offshore wave energy harvesters and delved into the realm of triboelectric nanogenerators for self-powering ocean wireless sensor networks. Additionally, his prior role as a Research Fellow at NUS involved pioneering work on dielectric elastomers for electromechanical energy conversion, showcasing his versatility and expertise in interdisciplinary research.

🌐 Professional Profiles

Educations📚📚📚

He holds a distinguished academic background in mechanical engineering, culminating in a Ph.D. from the University of Tokyo, where he maintained a flawless GPA of 4.0/4.0. His doctoral research delved into the intricacies of electromagnetic vibration energy harvesting, specifically focusing on combined free/impact motion for efficient operation at low frequencies. Prior to this, he earned a Master of Science degree with honors from Cairo University, showcasing his prowess in modeling and simulating multibody mechanical systems with clearance joints. His educational journey also includes an intensive non-degree course in practical technology for robots and mechatronics from Japan’s KITA institute, where he acquired a diverse skill set encompassing sensor technology, motion control, PLC, and more. As an undergraduate at Cairo University, he distinguished himself as the top-ranked student in his department, graduating with honors and spearheading projects such as the design and manufacturing of a 2D CNC plasma cutting machine.

PROFESSIONAL EXPERIENCE

He boasts an extensive professional journey marked by significant contributions to academia and cutting-edge research. Currently serving as a Senior Research Fellow at the Sant’Anna School of Advanced Studies within the Biorobotics Institute/Soft Mechatronics Lab, he spearheads the development of soft robotic end-effectors for delicate produce harvesting, focusing particularly on the SoftGrip project. His role involves the intricate task of crafting soft and semi-soft robotic wrists tailored for automated mushroom outrooting.

Simultaneously, as an Assistant Professor at Cairo University, he excels in both teaching and research endeavors. He diligently imparts knowledge in various domains of mechanical design and production engineering, shaping the minds of future engineers. His teaching responsibilities encompass a wide array of subjects, including Mechanical Vibrations, Basic Robot Technologies, and Engineering Measurements. Moreover, he actively supervises undergraduate and master’s students, guiding them through innovative research projects that tackle pressing engineering challenges, such as low-frequency energy harvesting and motion energy harvesting for wireless sensors.

 

During his earlier years at Cairo University, he served as a Demonstrator and Assistant Lecturer, playing a pivotal role in teaching fundamental courses while also actively engaging in research activities. His dedication to both education and research underscores his commitment to advancing the field of mechanical engineering and robotics, making him a highly respected figure in academia and beyond.

RESEARCH FUNDING

The JSPS-STDF research grant: This is a collaborative research grant between Cairo University and
University of Tokyo funded by JSPS (Japan), and STDF (Egypt) to do research on “developing an
offshore wave energy harvesting system for self-powering of ocean sensor networks”. (I had to withdraw
the application of this grant in order to apply for no-pay leave from Cairo University and Join Sant’Anna
School in Italy)

RESEARCH INTERESTS

Motion/vibration energy harvesting; Active and passive vibration control; Self-powered motion sensing;
Sensors and actuators; Nonlinear dynamics; Soft robotics; Mechatronics and automation

Awards

Throughout his illustrious academic and professional journey, he has garnered numerous accolades and awards, underscoring his exceptional talent and dedication to his field. Notably, he earned a prestigious MEXT scholarship for his Ph.D. studies in Mechanical Engineering, endorsed by the esteemed University of Tokyo. His outstanding achievements were further recognized with inclusion in the 30th Pearl Anniversary edition of Who’s Who in the World in 2013, a testament to his remarkable contributions to academia. Among his notable accolades is the Engineer Ibrahim Fawzy Award for the best master’s thesis in System Dynamics and Control, bestowed upon him by Cairo University in 2012.

His pursuit of excellence extends beyond academia, as evidenced by his receipt of the Engineer Reda Hamza and Engineer Mohamed Ibrahim Awards from Cairo University in 2009. Additionally, he has been honored with the Distinguished Student Award by Schlumberger on multiple occasions, highlighting his exceptional academic performance and leadership qualities. His remarkable academic achievements have been consistently recognized with scholarships for academic distinction throughout his undergraduate years at Cairo University, culminating in the receipt of distinguished silver and golden medals from the Faculty of Engineering.

Furthermore, his commitment to practical learning and international collaboration is evident through his participation in prestigious programs such as the practical course study scholarship in Practical Technology for Robots and Mechatronics, organized by KITA and funded by JICA in Japan. Additionally, he completed a practical traineeship for foreign students of technical sciences in Poland, demonstrating his global perspective and eagerness to expand his horizons. Collectively, these accolades and experiences underscore his status as a distinguished scholar and engineer, poised to make significant contributions to his field and beyond.

📝🔬Publications📝🔬

Mohammad Kojourimanesh – Thermo-Acoustic and Noise Reduction technologies Award – Best Researcher Award

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Mohammad Kojourimanesh – Thermo-Acoustic and Noise Reduction technologies Award – Best Researcher Award

Dr. Mohammad Kojourimanesh  distinguished academic and researcher in the field Thermo – Acoustic and Noise Reduction Technologies. With a career spanning from January 2008 to September 2018, he has amassed a wealth of experience across various engineering and leadership roles. Starting as a Supervisor and Designer of Building Installation on a part-time basis at Atay Construction Design Engineering Office, Iran, he oversaw the mechanical installation of over 30 buildings, conducting load calculations and assisting in the selection and sale of HVAC systems. Moving on to Fars Telecommunications Company, Iran, he served as a Senior Supervisor and Designer of Industrial Installation, where he managed preventive maintenance and troubleshooting for mechanical equipment, particularly HVAC systems. His responsibilities included leading teams, conducting load calculations, reviewing designs, and managing supplier relationships.

 

🌐 Professional Profiles

Educations📚📚📚

His academic journey reflects a profound commitment to advancing the field of mechanical engineering, particularly in acoustics, thermo-acoustics, and system-based design. Beginning with his Bachelor of Science in Mechanical Engineering with a focus on heat and fluid mechanics from Shahid Chamran University of Ahvaz, Iran, he exhibited exceptional aptitude, as evidenced by his perfect thesis score of 20/20 for his project on designing and simulating a humanoid robot (ASIMO) using MATLAB Simulink, Visual Nastran, and SolidWorks.

Building upon this foundation, he pursued a Master of Science in Mechanical Engineering (Applied Designing) from Shiraz University, Iran, where he continued to excel. His thesis on “Vibrating loads identification using inverse acoustics” garnered high praise with a score of 19.75/20, underscoring his expertise in the field. Subsequently, he further honed his skills through a Professional Doctorate in Engineering (PDEng.) in Structural Dynamics, Acoustics & Control from the University of Twente, Netherlands. Here, his project on “Noise reduction for ventilation systems with heat exchangers” demonstrated his proficiency in tackling real-world engineering challenges.

His academic journey reached its pinnacle with a Ph.D. from Eindhoven University of Technology, Netherlands, specializing in the Power & Flow group. His groundbreaking research on “System-based Thermo-Acoustic design of central heating Equipment” laid the groundwork for his current endeavors in acoustics and thermo-acoustics design aimed at reducing noise pollution and advancing low-carbon technologies. Now, as a Postdoctoral Researcher at the same institution, he continues to push the boundaries of knowledge in his field, contributing to the innovative project “Acoustics and Thermo-Acoustics Design of Low-Carbon Technologies and reducing Noise Pollution by applying Innovative Compressed Low-Frequency Broadband Mufflers, ATAtechNoise.” Under the guidance of esteemed mentors such as Prof. dr. Philip de Goey, Prof. dr. Ir. Ines Lopez, and Dr. Viktor Kornilov, he remains at the forefront of research and innovation, poised to make significant contributions to the field of mechanical engineering and beyond.

 

Work experience

Transitioning to the role of Mechanical Engineer at Shiraz Railway Organization, Iran, he meticulously followed approved drawings for mechanical equipment such as HVAC systems, escalators, ducting, and piping. His attention to detail and adherence to specifications contributed significantly to project success. His career progressed further as he assumed the position of Head of Urban Gas Supply Office in Galehdar city at the National Iranian Gas Company (NIGC), Iran. Here, he undertook comprehensive responsibilities including controlling, monitoring, and conducting preventive maintenance on gas pipe networks and stations. Additionally, he played a pivotal role in designing gas pipe networks, fostering teamwork, and managing office operations.

His journey culminated in his current role as Co-founder & CEO of ATA Mute B.V. (TU/e spin-off) since March 2023. Here, he serves as the CEO and Design Lead, driving the company’s vision forward and spearheading innovation in low-frequency resonators and mufflers. His tenure at Brink Climate Systems BV., Netherlands, as a Researcher from May 2016 to September 2018, provided him with valuable insights into designing advanced technologies and collaborating effectively with engineers in the R&D department. Throughout his career, he has demonstrated exceptional leadership, technical expertise, and a passion for driving excellence in engineering and innovation.

Honors and Awards:

Throughout his academic and professional journey, he has garnered numerous accolades and honors, underscoring his exceptional contributions and dedication to advancing engineering and innovation. These accolades include securing prestigious grants such as the LimburgToekomstbestendig Innovatie grant, the Take-off Phase 1 program grant from NWO, the TTT-SI program grant from tech-transfer.nl, and the Faculty of Impact program grant from NWO, highlighting his ability to secure funding for impactful research initiatives.

His academic prowess is evident from the full scholarships he received for both his Ph.D. position at TU/e and his PDEng. position at the University of Twente. Additionally, his achievements have been recognized internationally, as evidenced by his recognition as a Top Researcher in Fars Province, Iran, in December 2015. Notably, he was honored as a World Young Professional in the gas industry by the International Gas Union (IGU) in September 2014, being selected among the top 35 young professionals globally in the field. Furthermore, his Master’s thesis was awarded the distinction of the Best Master’s thesis in Iran by the Iranian Society of Acoustics and Vibration in January 2014, showcasing his outstanding academic achievements and contributions to the field of acoustics. These honors reflect his unwavering commitment to excellence and innovation, establishing him as a leading figure in the academic and professional spheres of engineering and beyond.

📝🔬Publications📝🔬

1. M. Kojourimanesh, V. Kornilov, I. Lopez Arteaga, P. de Goey, Intrinsic thermo-acoustic
instability criteria based on frequency response of flame transfer function, in: 51st Int. Congr.
Expo. Noise Control Eng., Glasgow, Scotland, 2022, (Link)

2. M. Kojourimanesh, V. Kornilov, I. Lopez Arteaga, P. de Goey, Stability criteria of two-port
networks, particularly for thermo-acoustic systems, in: Symp. Thermoacoustics Combust. Ind.
Meets Acad., Munich , 2021.

3. M. Kojourimanesh, V. Kornilov, I. Lopez Arteaga, P. de Goey, Mobius transformation between
reflection coefficients at upstream and downstream sides of flame in thermoacoustics systems,
in: 27th Int. Congr. Sound Vib., Prague, 2021.

4. V. Saxena, M. Kojourimanesh, V. Kornilov, P. de Goey, I. Lopez Arteaga, Designing an acoustic
termination with a variable reflection coefficient to investigate the probability of instability of
thermoacoustic systems, in: 27th Int. Congr. Sound Vib., Prague, 2021.

5. M. Kojourimanesh, V. Kornilov, I. Lopez Arteaga, P. de Goey, Theoretical and experimental
investigation on the linear growth rate of the thermo-acoustic combustion instability in: 10th
European Combustion Meeting, Napoli, 2021

6. M. Kojourimanesh, M. Eghtesad, M.R. Hematiyan, Identification of unknown vibrating
pressures in a three-chamber unit using a Computational Inverse Acoustics Method, in: 2nd
Int. Conf. Control. Instrum. Autom., IEEE, 2011: pp. 780–784.

7. M. Kojouri Manesh, M. Eghtesad, M. R. Hematiyan and D. S. Necsulescu, “Time history of
Vibrating loads Identification using Inverse Acoustics”, first International Conference on
Acoustics and Vibration, Tehran,

Gajanan Pandey – Photocatalysis – Excellence in Innovation

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Prof . Gajanan Pandey  distinguished academic and researcher in the field  Photocatalysis.

🌐 Professional Profiles

Educations📚📚📚

He holds a Ph.D. from the Department of Chemistry at IIT BHU Varanasi, complementing his post-graduation, an M.Sc., and graduation, a B.Sc., both attained from the Department of Chemistry at BHU Varanasi. With a rich educational background, his areas of interest span across Nanoscale materials, Catalysis, Coordination Chemistry, and Environmental Chemistry. With extensive experience, he has dedicated 22 years to teaching and 26 years to research. His mentorship extends to guiding 14 Ph.D. candidates to completion, with 2 currently undergoing their doctoral journey, alongside supervising numerous M.Phil and postgraduate projects, totaling 72.

 

📚📚📚

  • Sonochemically assisted fabrication of highly photoactive novel ZnO/MoO3 binary nanotubes anchored with Bi2O3 nanosheet for solar light-driven photocatalytic activity. Gajanan Pandey et al, J Mol Struct 2024 In press

 

  • Sonochemical surface modification of a novel Sm2O3@g-C3N4@Bi2O3 ternary hybrid photocatalyst exhibiting efficient solar light harvesting: Degradation of Azure b and photoelectrochemical water splitting, K.B.Singh, N.Gautam, D.D.Upadhyay, Gajanan Pandey, Journal of Photochemistry and Photobiology A: Chemistry, 450, 2024, 115479, doi.org/10.1016/j.jphotochem.2024.115479 (I.F. 4.3).

 

 

 

 

 

  • Gautam, Neelam, Kijay Bahadur Singh, Snigdha, Deen Dayal Upadhyay, and Gajanan Pandey.” Structural and optical properties of silver supported α-Fe2O3 nanocomposite fabricated by Saraca asoca leave extract for the effective photo-degradation of cationic dye Azure B.” RSC Adv., 2023, 13, 23181. (I.F. 3.9).

 

  • Gautam, Neelam, Kijay Bahadur Singh, Deen Dayal Upadhyay, Sanjay Srivastava, and Gajanan Pandey. “Fabrication of Curcuma longa mediated novel Ni@ ZnO/MoO3 composite anchored with g-C3N4 for sunlight driven photocatalytic activity.” Optical Materials 142 2023, doi.org/10.1016/j.optmat.2023.114041.(I.F.3.9).