Pingwei Zheng | Energy | Best Researcher Award

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Prof. Dr. Pingwei Zheng | Energy | Best Researcher Award

College teachers at University of South China, China

Prof. Dr. Pingwei Zheng, a distinguished physicist at the University of South China, specializes in RF heating and current drive in magnetic confinement fusion devices, focusing on the Ohkawa mechanism and synergy effects among electron cyclotron, high harmonic fast wave, and lower hybrid current drive methods. With a Ph.D. in Nuclear Fusion and Plasma Physics from USC, he has published extensively in leading journals, including Nuclear Fusion and Physics of Plasmas. His pioneering contributions, such as developing new mechanisms for current drive and synergy effects in plasma, have significantly advanced nuclear fusion research. Dr. Zheng has led multiple research projects funded by the National Natural Science Foundation of China and other provincial initiatives, showcasing his expertise in both theoretical and computational approaches. His technical proficiency, academic leadership, and innovative work position him as a leading figure in the field, contributing meaningfully to the global pursuit of sustainable fusion energy.

Professional Profile

Education

Professor Dr. Pingwei Zheng has a robust academic foundation in physics and nuclear fusion. He earned his Bachelor’s degree in Physics from Hunan Normal University, Changsha, in 2006. Driven by a passion for advanced research, he pursued postgraduate studies at the University of South China (USC), Hengyang, where he completed his Master’s degree in 2011, specializing in nuclear fusion and plasma physics. During this time, he developed a 3D Fokker-Planck code for RF heating and current drive using Fortran, laying the groundwork for his future contributions to fusion research. Building on his expertise, he obtained his Ph.D. in Nuclear Fusion and Plasma Physics from USC in 2019. His doctoral work focused on innovative mechanisms like Ohkawa-current-driven electron cyclotron waves and synergy effects in magnetic confinement fusion. This extensive academic journey reflects Dr. Zheng’s commitment to advancing the field of plasma physics and nuclear fusion technology.

Professional Experience

Prof. Dr. Pingwei Zheng is a distinguished physicist specializing in RF heating and current drive in magnetic confinement fusion devices. Since 2011, he has been a faculty member at the University of South China (USC), where he has led groundbreaking research on the Ohkawa mechanism-dominated current drive (OKCD) of electron cyclotron waves and the synergy effects between OKCD, high harmonic fast wave (HHFW), and lower hybrid current drive (LHCD). Dr. Zheng has successfully managed two projects funded by the National Natural Science Foundation of China and several provincial and ministerial-level research initiatives. His earlier work as a postgraduate included developing a 3D Fokker-Planck code for RF heating and current drive, showcasing his technical expertise in computational physics. Over the years, he has contributed significantly to advancing nuclear fusion research through his innovative studies, impactful publications in top-tier journals, and dedication to advancing fusion energy technologies.

Research Interest

Prof. Dr. Pingwei Zheng’s research is centered on advancing the understanding and development of RF heating and current drive mechanisms in magnetic confinement fusion devices. His work focuses on electron cyclotron current drive (ECCD), high harmonic fast wave (HHFW) current drive, and lower hybrid current drive (LHCD), with particular emphasis on the Ohkawa mechanism-dominated current drive (OKCD) and its synergy effects with other RF techniques. He has conducted innovative studies on the interaction of RF waves with plasma, including the stabilization of neoclassical tearing modes and enhancing current drive efficiency in the pedestal region of high-confinement tokamak plasmas. Prof. Zheng’s contributions extend to developing numerical methods and computational tools to simulate these phenomena, such as 3D Fokker-Planck codes. His research aims to address critical challenges in achieving sustainable fusion energy, positioning his work at the forefront of plasma physics and nuclear fusion technology.

Award and Honor

Prof. Dr. Pingwei Zheng, a distinguished researcher in nuclear fusion and plasma physics, has earned recognition for his groundbreaking contributions to RF heating and current drive in magnetic confinement fusion devices. As a principal investigator, he has successfully led multiple prestigious projects funded by the National Natural Science Foundation of China and provincial and ministerial-level bodies. His innovative research on the Ohkawa mechanism-dominated current drive (OKCD) and the synergy effects between RF current drive methods has been widely acclaimed. Dr. Zheng’s prolific academic output includes publications in high-impact journals such as Nuclear Fusion and Physics of Plasmas, showcasing his expertise and influence in the field. As a professor at the University of South China, he has become a leading voice in advancing theoretical and applied research in fusion technology, earning accolades for his commitment to scientific innovation and his contributions to the global energy research community.

Conclusion

Prof. Dr. Pingwei Zheng is a distinguished researcher whose work in nuclear fusion and plasma physics demonstrates significant innovation and technical mastery. His specialized research on RF heating and current drive mechanisms, particularly the Ohkawa mechanism and synergy effects, has made valuable contributions to the advancement of magnetic confinement fusion technology. With a strong academic background, numerous publications in high-impact journals, and leadership in nationally funded projects, Dr. Zheng has established himself as a leader in his field. His expertise in computational modeling and numerical methods further enhances the practical and theoretical depth of his research. While expanding his global collaborations and highlighting broader community engagement could strengthen his profile further, Dr. Zheng’s achievements clearly reflect his dedication to addressing critical challenges in fusion energy. His contributions make him a deserving and competitive candidate for the Best Researcher Award.

Publications Top Noted

  1. Numerical investigation of electron cyclotron and electron Bernstein wave current drive in EXL-50U spherical torus
  2. Numerical study of minority ion heating scenarios in CN-H1 stellarator plasma
  3. Numerical Studies on Electron Cyclotron Resonance Heating and Optimization in the CN-H1 Stellarator
  4. Impact of hot plasma effects on electron cyclotron current drive in tokamak plasmas
  5. A full wave solver integrated with a Fokker–Planck code for optimizing ion heating with ICRF waves for the ITER deuterium–tritium plasma
  6. Evaluation of ECCD power requirement for neoclassical tearing modes suppression in the CFETR hybrid scenario
  7. Integrated simulation analysis of the HL-2M high-parameter hybrid scenario
  8. Separate calculations of the two currents driven by electron cyclotron waves
  9. Electron cyclotron current drive under neutral beam injection on HL-2M
  10. Numerical study of m = 2/n = 1 neoclassical tearing mode stabilized by the Ohkawa-mechanism-dominated current drive of electron cyclotron waves
  11. Numerical investigation of ECCD under the CFETR concept design parameters
  12. Effective current drive in the pedestal region of high-confinement tokamak plasma using electron cyclotron waves
  13. New synergy effects of the lower hybrid wave and the high harmonic fast wave current drive
  14. Simulation of plasma scenarios for CFETR phase II based on engineering design parameters
  15. Numerical investigation of a new ICRF heating scenario in D-T plasma on CFETR
  16. Simulation of the Ohkawa-mechanism- dominated current drive of electron cyclotron waves using linear and quasi-linear models

 

MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

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Assoc Prof Dr. MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

Assoc Prof Dr. MOHD YUSUF KHAN, King Fahd University of Petroleum and Minerals, Saudi Arabia

Assoc. Prof. Dr. Mohd Yusuf Khan is a distinguished academic at King Fahd University of Petroleum and Minerals (KFUPM) in Saudi Arabia, where he specializes in clean energy technologies and sustainable practices. With extensive experience in research and development, Dr. Khan has significantly contributed to advancing hydrogen technologies and carbon management through his work at the University Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). His academic journey includes notable positions as a Research Scientist and a Post-doctoral Fellow, during which he has published numerous articles in reputable journals. Dr. Khan is committed to fostering innovation in the clean energy sector and is dedicated to educating the next generation of engineers and scientists.

Profile:

Academics:

Assoc. Prof. Dr. Mohd Yusuf Khan is currently a faculty member at King Fahd University of Petroleum and Minerals, Saudi Arabia. He holds a Ph.D. in Chemical Engineering with a specialization in Polymer Science/Engineering from Yeungnam University, South Korea, under the guidance of Prof. Seok Kyun Noh. His doctoral research focused on Fe (III)-Mediated MMA Polymerization without any external initiator, graduating with an impressive GPA of 4.37/4.5. Dr. Khan also holds a Master of Science degree in Industrial Chemistry from Aligarh Muslim University, where he was awarded a Gold Medal for academic excellence, and a Bachelor’s degree in the same specialization from the same institution.

Dr. Khan’s expertise spans polymer science, chemical engineering, and industrial chemistry, contributing to advancements in sustainable materials and energy solutions.

Professional Experiences:

Assoc. Prof. Dr. Mohd Yusuf Khan is a dedicated research scientist currently serving at King Fahd University of Petroleum & Minerals (KFUPM), Saudi Arabia, in the Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). Since 2021, he has held the position of Research Scientist-II, following a five-year tenure as Research Scientist-III at the same center. Prior to KFUPM, Dr. Khan gained international experience as a Post-doctoral Fellow at both the Center of Excellence in Nanotechnology at KFUPM and Soongsil University in South Korea. He also worked in the industry as a Production Officer at LUPIN Pharma Pvt. Ltd., Bhopal, India.

Awards:

Assoc. Prof. Dr. Mohd Yusuf Khan, currently at King Fahd University of Petroleum and Minerals, Saudi Arabia, has earned numerous accolades throughout his academic and professional career. He was awarded the prestigious BK (Brain Korea)-21 fellowship (2008-2012) for his Ph.D. in South Korea. His innovative research has led to recognition at major events, including the 25th ITEX 2014 for a photothermoelectric air duct system and the ITEX 2023 Appreciation Award for mentoring a gold-winning student at Asia’s leading technology exhibition. Dr. Khan also received the Best Paper Award in 2020 for research on biomass-derived carbon nanosheets, as well as multiple honors for his contributions to polymer science and industrial chemistry. He earned a Gold Medal in his M.Sc. for academic excellence at Aligarh Muslim University.

Publication Top Notes:

Steam reforming of dodecane using Ni-red mud catalyst: A sustainable approach for hydrogen production

Authors: Alfuhaid, L.T., Nasser, G.A., Alabdulhadi, R.A., Yamani, Z.H., Helal, A.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 86, pp. 177–184

Citations: 0

Fabrication and characterization of rippled graphene/LDPE composites with enhanced hydrogen barrier properties

Authors: Alkrunz, M., Shajahan, S., Elkaffas, R., Zweiri, Y., Abdul Samad, Y.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 85, pp. 794–803

Citations: 0

Effect of Synthetic Methodology on the Physicochemical Attributes and Electrocatalytic Activity of NiAl-LDHs for the Oxygen Evolution Reaction

Authors: Hanif, A., Khan, M.Y., Ehsan, M.A., Abdul Aziz, M., Khan, A.

Year: 2024

Journal: Chemistry – An Asian Journal, 2024, 19(16), e202300625

Citations: 1

Tailored design of CO2-selective mixed-matrix membranes using nitrile-functionalized COFs as 2D nanofillers

Authors: Hoque, B., Khan, M.Y., Hanif, A., Usman, M., Drmosh, Q.A.

Year: 2024

Journal: Journal of Environmental Chemical Engineering, 2024, 12(3), 112695

Citations: 3

Thermally Stable and High-Surface-Area Triptycene and Phenanthroline-Based Microporous Polymer for Selective CO2 Capture over CH4 and N2

Authors: Ansari, M., Rehman, A.N., Khan, A., Khan, M.Y.

Year: 2024

Journal: ACS Applied Polymer Materials, 2024, 6(7), pp. 3996–4004

Citations: 1

Amino acid-assisted effect on hydrate-based CO2 storage in porous media with brine

Authors: Rehman, A.N., Bavoh, C.B., Khan, M.Y., Lal, B.

Year: 2024

Journal: RSC Advances, 2024, 14(13), pp. 9339–9350

Citations: 0

Nb2O5/BiOCl composite as a visible-light-active photocatalyst for the removal of RhB dye and photoelectrochemical studies

Authors: Zulkiflee, A., Mansoob Khan, M., Yusuf Khan, M., Khan, A., Hilni Harunsani, M.

Year: 2024

Journal: Journal of Photochemistry and Photobiology A: Chemistry, 2024, 446, 115177

Citations: 11

Printing Parameter Optimization of Additive Manufactured PLA Using Taguchi Design of Experiment

Authors: Ahmed, B.A., Nadeem, U., Hakeem, A.S., Younas, M., Saeed, H.A.

Year: 2023

Journal: Polymers, 2023, 15(22), 4370

Citations: 0

Sn-doped BiOCl for photoelectrochemical activities and photocatalytic dye degradation under visible light

Authors: Zulkiflee, A., Khan, M.M., Khan, A., Dafalla, H.D.M., Harunsani, M.H.

Year: 2023

Journal: Heliyon, 2023, 9(11), e21270

Citations: 7

CO2 Adsorption on Biomass-Derived Carbons from Albizia procera Leaves: Effects of Synthesis Strategies

Authors: Hanif, A., Aziz, M.A., Helal, A., Theravalappil, R., Khan, M.Y.

Year: 2023

Journal: ACS Omega, 2023, 8(39), pp. 36228–36236

Citations: 2

S. Mojtaba Varedi-Koulaei | Engineering | Best Researcher Award | 12980

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Dr. S. Mojtaba Varedi-Koulaei | Engineering | Best Researcher Award

Faculty of Mechanical Engineering , Iran.

Dr. S. Mojtaba Varedi-Koulaei is an Associate Professor in the Faculty of Mechanical Engineering at Shahrood University of Technology. He completed his PhD in Mechanical Engineering (Applied Design) in 2015 from Babol Noshirvani University of Technology, where he was supervised by Dr. H. Mohammadi Daniali. His doctoral thesis focused on the optimal design of parallel mechanisms considering joints clearances, a subject that highlights his strong expertise in mechanical design. Throughout his academic career, he has made significant contributions to fields like machine learning, neural networks, robotics, and optimization, gaining recognition for his innovative approach to solving complex engineering problems.

Profile

Education

Dr. Varedi-Koulaei holds a PhD in Mechanical Engineering from Babol Noshirvani University of Technology, where he graduated with an impressive GPA of 18.99/20 (3.79/4.00). His research during this period primarily revolved around designing optimal parallel mechanisms. He also earned his M.Sc. in Mechanical Engineering from the University of Mazandaran in 2008, with a GPA of 18.03/20 (3.61/4.00). His master’s thesis explored the analytical-numerical solutions of the forward and inverse kinematic equations of robots, further cementing his interest and skills in robotic mechanisms. His educational journey began with a B.Sc. in Mechanical Engineering, also from the University of Mazandaran, where he graduated in 2006 with a GPA of 17.00/20 (3.4/4.00). His final project involved designing systems for transferring objects in a production line, showcasing his practical engineering skills early on.

Professional Experience

In terms of work experience, Dr. Varedi-Koulaei has been an Associate Professor at Shahrood University of Technology, where he continues to advance the field of mechanical engineering. His role includes not only teaching but also supervising students on various research projects, particularly in applied design, robotics, and optimization. His expertise extends to guiding graduate students in their thesis work, building upon his strong background in both theoretical and practical aspects of mechanical engineering.

 

Membership

Dr. Varedi-Koulaei is also an active member of several professional associations in the field of mechanical engineering, through which he continues to contribute to global research discussions. He regularly shares his work on platforms like Google Scholar and ResearchGate, connecting with a broader academic and professional audience.

 

Research focuses

Dr. Varedi-Koulaei’s research focuses on several key areas, including parallel robots, mechanism design and synthesis, and the application of machine learning and neural networks to optimize mechanical systems. His work in these areas has resulted in numerous publications and ongoing projects, contributing to advancements in both academia and industry.

Award and Recognition

Among his awards and honors, Dr. Varedi-Koulaei is recognized for his high academic achievements, particularly his outstanding GPA during his PhD studies. His innovative research on optimizing mechanical systems and robotic design has earned him respect in the academic community, and he is regarded as a key contributor in his field.

 

Teaching experience

In his teaching experience, Dr. Varedi-Koulaei has taught a range of subjects, including dynamics, dynamics of machinery, mechanism design, robotics, advanced mathematics, mechatronics, neural networks, optimization, and advanced dynamics. His courses are known for their practical applications and integration of cutting-edge research, which reflects his expertise in the field of mechanical engineering.

 

Publication Top Notes

  1. Title: Nitrogen-doped graphene and graphene quantum dots: A review on synthesis and applications in energy, sensors and environment
    • Authors: M. Kaur, M. Kaur, V.K. Sharma
    • Journal: Advances in Colloid and Interface Science
    • Year: 2018
    • Volume: 259
    • Pages: 44-64
    • Citations: 376
  2. Title: All-ceramic microfibrous solar steam generator: TiN plasmonic nanoparticle-loaded transparent microfibers
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: ACS Sustainable Chemistry & Engineering
    • Year: 2017
    • Volume: 5 (10)
    • Pages: 8523-8528
    • Citations: 153
  3. Title: Heteroatom-doped graphene as sensing materials: A mini review
    • Authors: S. Kaushal, M. Kaur, N. Kaur, V. Kumari, P.P. Singh
    • Journal: RSC Advances
    • Year: 2020
    • Volume: 10 (48)
    • Pages: 28608-28629
    • Citations: 112
  4. Title: All‐Ceramic Solar‐Driven Water Purifier Based on Anodized Aluminum Oxide and Plasmonic Titanium Nitride
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: Advanced Sustainable Systems
    • Year: 2019
    • Volume: 3 (2)
    • Article ID: 1800112
    • Citations: 83
  5. Title: Nanocomposites of carbon quantum dots and graphene quantum dots: Environmental applications as sensors
    • Authors: A. Kaur, K. Pandey, R. Kaur, N. Vashishat, M. Kaur
    • Journal: Chemosensors
    • Year: 2022
    • Volume: 10 (9)
    • Article ID: 367
    • Citations: 57
  6. Title: Synthesis and characterization of graphene oxide using modified Hummer’s method
    • Authors: M. Kaur, H. Kaur, D. Kukkar
    • Journal: AIP Conference Proceedings
    • Year: 2018
    • Volume: 1953 (1)
    • Citations: 44
  7. Title: Boron-and phosphorous-doped graphene nanosheets and quantum dots as sensors and catalysts in environmental applications: A review
    • Authors: M. Kaur, M.K. Ubhi, J.K. Grewal, V.K. Sharma
    • Journal: Environmental Chemistry Letters
    • Year: 2021
    • Volume: 19 (6)
    • Pages: 4375-4392
    • Citations: 34
  8. Title: Solvothermal assisted phosphate functionalized graphitic carbon nitride quantum dots for optical sensing of Fe ions and its thermodynamic aspects
    • Authors: D. Vashisht, E. Sharma, M. Kaur, A. Vashisht, S.K. Mehta, K. Singh
    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2020
    • Volume: 228
    • Article ID: 117773
    • Citations: 31
  9. Title: Marimo-bead-supported core–shell nanocomposites of titanium nitride and chromium-doped titanium dioxide as a highly efficient water-floatable green photocatalyst
    • Authors: M. Kaur, S.L. Shinde, S. Ishii, W. Jevasuwan, N. Fukata, M.W. Yu, Y. Li, J. Ye, …
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2020
    • Volume: 12 (28)
    • Pages: 31327-31339
    • Citations: 27
  10. Title: Hydropower generation by transpiration from microporous alumina
    • Authors: M. Kaur, S. Ishii, R. Nozaki, T. Nagao
    • Journal: Scientific Reports
    • Year: 2021
    • Volume: 11 (1)
    • Article ID: 10954
    • Citations: 17

Manpreet Kaur | Sustainable Energy | Best Researcher Award

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Dr. Manpreet Kaur | Sustainable Energy | Best Researcher Award

Post Doctoral Researcher of University of Calgary, Canada.

Manpreet Kaur, PhD, is a Postdoctoral Research Associate and Sessional Instructor at the University of Calgary’s Department of Chemical and Petroleum Engineering. Her research focuses on advancing energy conversion and storage technologies through metal-semiconductor nanostructures. She has a strong background in electrochemistry, nano-material synthesis, and plasmonic catalysis, having worked internationally at institutions such as the Regional Centre of Advanced Technologies and Materials (Czech Republic), the University of Turin, and the National Institute for Materials Science (Japan). Dr. Kaur’s work includes the development of core-shell nanomaterials for fuel cells and sensors, catalytic processes for methane and nitrogen upcycling, and hybrid nanostructures for energy applications. She has received several accolades, including the Young Scientist Award from the Japan Society of Vacuum and Surface Science and multiple best presentation awards. Her teaching experience spans courses in engineering materials and nanomaterials.

Profile

Education

Manpreet Kaur completed her Ph.D. in Materials Science with a focus on Condensed Matter Physics at Hokkaido University, Japan, from October 2016 to September 2019. Her doctoral research concentrated on photothermal and photoelectric conversion using plasmonic nanomaterials for water purification and splitting. Prior to this, she earned a Master of Nanotechnology Engineering (a 5-year integrated program) from Sri Guru Granth Sahib World University, Punjab, India, graduating in 2016 with a CGPA of 8.4/10. Her master’s thesis focused on titanium nitride (TiN) nanoparticles for energy harvesting applications. This strong educational foundation provided her with extensive knowledge and expertise in materials science, nanotechnology, and their applications in energy and environmental technologies.

Professional Experience

Dr. Manpreet Kaur is a distinguished Postdoctoral Research Associate at the University of Calgary’s Department of Chemical and Petroleum Engineering, specializing in advanced energy conversion and storage technologies. Her current research involves designing and synthesizing nanomaterials for applications in fuel cells, sensors, and batteries, focusing on core-shell and hybrid nanostructures. Prior to this role, Dr. Kaur conducted postdoctoral research at the Regional Centre of Advanced Technologies and Materials in the Czech Republic and the University of Turin, where she explored catalytic processes and quantum dot synthesis. She also worked at the National Institute for Materials Science in Japan, investigating plasmonic nanomaterials for energy harvesting. Dr. Kaur’s earlier experience includes a role as a Junior Researcher at the same institute, where she studied photothermal effects in nanocomposites. Her extensive experience spans various research environments and advanced techniques, underscoring her expertise in materials science and energy applications.

Research Interest

Manpreet Kaur’s research interests revolve around advancing energy conversion and storage technologies through innovative material science. Her work focuses on electrochemistry and nanomaterial synthesis, particularly in developing and optimizing metal-semiconductor nanostructures for energy applications. She investigates core-shell nanomaterials and hybrid nanostructures for use in polymer electrolyte fuel cells, electrolysers, and batteries, aiming to enhance their performance and efficiency. Additionally, her research explores electro- and photocatalytic processes to convert methane and nitrogen into valuable chemicals and fuels. She is also involved in the synthesis of advanced materials such as graphene and MXenes for various applications, including ammonia and methanol production. Kaur’s expertise extends to plasmonic catalysis and the use of quantum dots in selective catalytic oxidation, contributing to more sustainable and efficient energy systems. Her work integrates theoretical and practical approaches to address global energy challenges.

Research Skills

Manpreet Kaur, PhD, exhibits a robust set of research skills crucial for advancing the field of materials science and energy conversion. Her expertise in electrochemistry and nano-materials synthesis is demonstrated through her work with core-shell nanomaterials and hybrid nanostructures, essential for applications in fuel cells, electrolysers, and sensors. Proficient in electrochemical measurements using techniques such as Rotating Disk Electrode (RDE) and gas chromatography–mass spectrometry (GC–MS), she excels in analyzing volatile components and optimizing catalytic reactions. Her skills extend to cleanroom techniques including reactive ion etching and chemical vapor deposition, supporting her research on plasmonic materials and photovoltaics. Additionally, Manpreet is adept in software tools like RSOFT and COMSOL for electromagnetic and energy transfer simulations. Her extensive training in synthesis methods, including wet-chemical and solvothermal techniques, underscores her versatility in developing advanced materials for energy and environmental applications.

Award and Recognition

Dr. Manpreet Kaur has received notable accolades throughout her career, reflecting her significant contributions to materials science and energy research. She was honored with the “Young Researcher Presentation Award” at the 11th Indian Scientist Association in Japan for her work on plasmonic core-shell nanocomposites in 2020. Additionally, she received the Young Scientist Award from the Japan Society of Vacuum and Surface Science in 2020 for her advancements in solar energy harvesting devices. Her achievements also include the Best Oral Presentation Award at the 9th ISAJ symposium and the Excellent Poster Presentation Award at the 10th International MANA Symposium. Dr. Kaur’s innovative work has been highlighted in media, such as TV Tokyo’s World Business Satellite. She has also secured significant research funding, including for seawater desalination and plasma-assisted ammonia production, underscoring her impactful contributions to her field.

Conclusion

Manpreet Kaur is a highly qualified candidate for the Research for Best Researcher Award. Her innovative research, strong publication record, and international experience demonstrate her significant contributions to her field. Addressing the areas for improvement could further enhance her impact and recognition in the scientific community. Overall, Kaur’s achievements and dedication to advancing sustainable technologies make her a strong contender for this award.

Publication Top Notes

  1. Title: Nitrogen-doped graphene and graphene quantum dots: A review on synthesis and applications in energy, sensors and environment
    • Authors: M. Kaur, M. Kaur, V.K. Sharma
    • Journal: Advances in Colloid and Interface Science
    • Year: 2018
    • Volume: 259
    • Pages: 44-64
    • Citations: 376
  2. Title: All-ceramic microfibrous solar steam generator: TiN plasmonic nanoparticle-loaded transparent microfibers
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: ACS Sustainable Chemistry & Engineering
    • Year: 2017
    • Volume: 5 (10)
    • Pages: 8523-8528
    • Citations: 153
  3. Title: Heteroatom-doped graphene as sensing materials: A mini review
    • Authors: S. Kaushal, M. Kaur, N. Kaur, V. Kumari, P.P. Singh
    • Journal: RSC Advances
    • Year: 2020
    • Volume: 10 (48)
    • Pages: 28608-28629
    • Citations: 112
  4. Title: All‐Ceramic Solar‐Driven Water Purifier Based on Anodized Aluminum Oxide and Plasmonic Titanium Nitride
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: Advanced Sustainable Systems
    • Year: 2019
    • Volume: 3 (2)
    • Article ID: 1800112
    • Citations: 83
  5. Title: Nanocomposites of carbon quantum dots and graphene quantum dots: Environmental applications as sensors
    • Authors: A. Kaur, K. Pandey, R. Kaur, N. Vashishat, M. Kaur
    • Journal: Chemosensors
    • Year: 2022
    • Volume: 10 (9)
    • Article ID: 367
    • Citations: 57
  6. Title: Synthesis and characterization of graphene oxide using modified Hummer’s method
    • Authors: M. Kaur, H. Kaur, D. Kukkar
    • Journal: AIP Conference Proceedings
    • Year: 2018
    • Volume: 1953 (1)
    • Citations: 44
  7. Title: Boron-and phosphorous-doped graphene nanosheets and quantum dots as sensors and catalysts in environmental applications: A review
    • Authors: M. Kaur, M.K. Ubhi, J.K. Grewal, V.K. Sharma
    • Journal: Environmental Chemistry Letters
    • Year: 2021
    • Volume: 19 (6)
    • Pages: 4375-4392
    • Citations: 34
  8. Title: Solvothermal assisted phosphate functionalized graphitic carbon nitride quantum dots for optical sensing of Fe ions and its thermodynamic aspects
    • Authors: D. Vashisht, E. Sharma, M. Kaur, A. Vashisht, S.K. Mehta, K. Singh
    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2020
    • Volume: 228
    • Article ID: 117773
    • Citations: 31
  9. Title: Marimo-bead-supported core–shell nanocomposites of titanium nitride and chromium-doped titanium dioxide as a highly efficient water-floatable green photocatalyst
    • Authors: M. Kaur, S.L. Shinde, S. Ishii, W. Jevasuwan, N. Fukata, M.W. Yu, Y. Li, J. Ye, …
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2020
    • Volume: 12 (28)
    • Pages: 31327-31339
    • Citations: 27
  10. Title: Hydropower generation by transpiration from microporous alumina
    • Authors: M. Kaur, S. Ishii, R. Nozaki, T. Nagao
    • Journal: Scientific Reports
    • Year: 2021
    • Volume: 11 (1)
    • Article ID: 10954
    • Citations: 17

Pooja Sharma | Energy Transition | Best Researcher Award

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Assoc Prof Dr. Pooja Sharma | Energy Transition | Best Researcher Award

Associate Professor at Daulat Ram College, University of Delhi, India

Dr. Pooja Sharma, an Associate Professor in the Department of Economics at Daulat Ram College, University of Delhi, specializes in Environmental Economics, Renewable Energy, and Energy Policy. Her research focuses on critical issues such as energy transition, energy security, and sustainability. Dr. Sharma’s notable projects include studying the role of renewables in energy transition, valuing Green GDP, and developing e-content for economics courses. Her interdisciplinary approach is evident in projects like Clean Energy from Waste with Microbial Fuel Cells. With over fourteen years of teaching experience, she has significantly contributed to economics education. Her work with institutions such as the Institute of Economic Growth and the University of Delhi underscores her impactful research and dedication to advancing knowledge in her field. While she has a strong research foundation, increasing her publication record and expanding international collaborations could further enhance her academic influence.

Profile

Education

Dr. Pooja Sharma’s educational background is distinguished by her focus on economics and energy studies. She completed her Bachelor’s degree in Economics (B.A. Hons) from Miranda House, University of Delhi in 1997, followed by a Master’s degree in Economics from the Delhi School of Economics in 1999. Her academic journey continued with an MPhil in Economics from Jawaharlal Nehru University (JNU) in 2007, where her research focused on “Rural Electrification and Poverty.” Dr. Sharma further advanced her expertise with a Ph.D. from the Energy Studies Program at JNU, where she conducted a comparative study of renewables in energy transition between India and Norway. Her academic pursuits also included a research fellowship at the University of Agder, Norway, and various specialized trainings, such as the ASEAN Investment Law Specialization and workshops on GIS, reflecting her commitment to interdisciplinary learning and research.

Professional Experience

Dr. Pooja Sharma is an Associate Professor in the Department of Economics at Daulat Ram College, University of Delhi. With over fourteen years of teaching experience, she has delivered courses in Environmental Economics, Econometrics, and Public Economics. Dr. Sharma has led several significant research projects, including studies on the role of renewables in energy transition and the valuation of Green GDP. Her work extends to interdisciplinary projects such as Clean Energy from Waste with Microbial Fuel Cells and contributions to e-content development for various educational institutions. She has also engaged in research as a PhD Research Fellow at the University of Agder, Norway, focusing on energy policy and sustainability. Dr. Sharma’s academic and research endeavors reflect her commitment to advancing knowledge in environmental economics and energy policy, making her a prominent figure in her field.

Research Interest

Dr. Pooja Sharma’s research interests are centered around Environmental Economics, Energy Policy, and Renewable Energy. She focuses on the role of renewable energy in energy transition, emphasizing comparative studies between countries like India and Norway. Her work delves into the intersection of energy security and sustainability, exploring how renewable resources can address global energy challenges. Dr. Sharma’s research also encompasses the valuation of Green GDP and the economic impacts of environmental policies, such as reducing air pollution. Additionally, she has investigated innovative approaches to clean energy, including the use of microbial fuel cells. Her interdisciplinary approach, integrating economics with environmental science, reflects her commitment to advancing sustainable development and addressing critical issues in energy and environmental economics. Through her projects and academic contributions, Dr. Sharma aims to contribute to effective energy policies and sustainable economic practices.

Research Skills

Dr. Pooja Sharma’s research skills are distinguished by her profound expertise in environmental economics, energy policy, and econometrics. Her ability to analyze complex data sets, such as those related to energy transition and renewable energy, is demonstrated through her projects on Green GDP valuation and air pollution reduction. Dr. Sharma excels in applying advanced econometric techniques to assess the impacts of environmental policies and energy security. Her interdisciplinary approach is evident in her involvement with projects like Clean Energy from Waste using microbial fuel cells, showcasing her capacity to integrate insights from various fields. Additionally, her experience in e-content development for economics courses highlights her skill in translating complex concepts into accessible educational material. Her proficiency in using statistical tools and software, combined with her practical research experience, positions her as a highly capable and innovative researcher in her domain.

Award and Recognition

Dr. Pooja Sharma has garnered recognition for her impactful contributions to the field of environmental economics and energy policy. Her research, notably on the role of renewables in energy transition and valuation of Green GDP, has been instrumental in advancing understanding in these critical areas. Dr. Sharma’s dedication is also evident in her interdisciplinary projects, such as the Clean Energy from Waste initiative and her extensive work on e-content development for educational institutions. Her efforts in these diverse domains underscore her commitment to sustainability and education. Despite her commendable achievements, further recognition could be bolstered by increasing her publication output in high-impact journals and expanding her international collaborations. Overall, Dr. Sharma’s contributions reflect her exceptional expertise and significant potential for continued influence in her field.

Conclusion

Dr. Pooja Sharma is a strong candidate for the Best Researcher Award due to her substantial contributions to environmental economics and energy policy. Her extensive research experience and interdisciplinary approach are notable strengths. By focusing on increasing her publication record and expanding her collaborative network, she can further enhance her influence and recognition in the field.

Publication Top Notes

  1. Economic performance assessment of building integrated photovoltaic system with battery energy storage under grid constraints
    • Authors: P. Sharma, M. Kolhe, A. Sharma
    • Published in: Renewable Energy
    • Volume: 145, Pages: 1901-1909
    • Year: 2020
    • Citations: 69
  2. Inflation rate and Poverty: Does poor become poorer with inflation?
    • Authors: M. Paul, P. Sharma
    • Available at: SSRN
    • Year: 2019
    • Citations: 15
  3. Role of human capital in economic growth: a comparative study of India and China
    • Author: P. Sharma
    • Available at: SSRN
    • Year: 2019
    • Citations: 12
  4. Economic analysis of a building integrated photovoltaic system without and with energy storage
    • Authors: P. Sharma, M. Kolhe, A. Sharma
    • Published in: IOP Conference Series: Materials Science and Engineering
    • Volume: 605, Issue: 1, Article number: 012013
    • Year: 2019
    • Citations: 8
  5. The impact of oil prices on stock prices and other macroeconomic variables in India: pre‐and post‐2008 crises
    • Authors: V. Gupta, P. Sharma
    • Published in: OPEC Energy Review
    • Volume: 42, Issue: 3, Pages: 212-223
    • Year: 2018
    • Citations: 7
  6. Analyzing the Role of Renewables in Energy Security by Deploying Renewable Energy Security Index
    • Author: P. Sharma
    • Published in: Journal of Sustainable Development of Energy, Water and Environment Systems
    • Year: 2023
    • Citations: 5
  7. A Decentralized Pathway for Energy Security and Energy Transition in Asia and the Pacific Region
    • Author: P. Sharma
    • Available at: SSRN
    • Year: 2018
    • Citations: 5
  8. Evaluating Health Impact of Air Pollution
    • Authors: P. Sharma, P. Jain, D. Pragati, S. Kumar
    • Published in: Environment and Ecology Research
    • Volume: 7, Issue: 1, Pages: 59-72
    • Year: 2019
    • Citations: 4
  9. Health benefits derived by reducing air pollution: An East Delhi analysis
    • Authors: P. Sharma, R. Galhotra, P. Jain, P. A. Goel, B. Aggarwal, D. Narula, C. Singh, …
    • Published in: Journal of Advances in Humanities and Social Sciences
    • Volume: 3, Issue: 3, Pages: 164-181
    • Year: 2017
    • Citations: 4