Shahab Khameneh asl | Green energy | Breakthrough Research Award

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Assist. Prof. Dr. Shahab Khameneh asl | Green energy | Breakthrough Research Award

Assist. Prof. Dr. Shahab Khameneh asl, University of Tabriz, Iran

Assist. Prof. Dr. Shahab Khameneh Asl is a pioneering materials scientist whose innovative research in nanostructured ceramics, photocatalysts, and energy materials has significantly advanced renewable energy and environmental applications. With over 25 international publications, leadership of specialized laboratories, and global collaborations across Italy, Turkey, and Iran, his work bridges academia and industry. His applied projects in corrosion control and tribological systems reflect real-world impact. As an emerging leader in material innovation and sustainable technologies, Dr. Khameneh Asl is a standout candidate for the Breakthrough Research Award. His contributions exemplify transformative, interdisciplinary research with societal relevance.

Publication Profile

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Education and Research Experience

Assist. Prof. Dr. Shahab Khameneh Asl has been serving as the Head of the Ceramic Laboratory Complex at the Materials Engineering Department, Faculty of Mechanical Engineering, University of Tabriz, Iran, since September 2016. Under his leadership, the complex encompasses a wide range of specialized laboratories, including ceramic manufacturing, refractory technology, glazing, glass and porcelain technologies, thermal analysis, advanced ceramics, bioceramics, electroceramics, and ceramoglass research. He manages a vibrant team of 2 professors, 2 assistant professors, 13 Ph.D. scholars, 30 postgraduate, and 55 undergraduate students. His lab is a hub for both academic and industrial projects and holds top-tier technology contracts at the university level. Since February 2011, he has also been a dedicated Assistant Professor, teaching a diverse array of courses at B.Sc., M.Sc., and Ph.D. levels, such as Advanced Materials, Nanomaterials, Electroceramics, and Advanced Topics in Materials. His teaching and research integrate innovation, technical expertise, and interdisciplinary collaboration.

Work Experience

Assist. Prof. Dr. Shahab Khameneh Asl has accumulated a broad spectrum of academic and industrial experiences throughout his career. In 2016, he served as a lecturer for Refractory Materials at Maragheh University. As a proactive academic at the University of Tabriz, he contributed to the Entrepreneurship Committee in 2015 and played a pivotal role in nurturing innovation by managing the Nano Materials Characterization at Aras Co. (Aylin Nooran Ghostar) in the Aras Free Zone of Iran in 2014. Additionally, he has been a core member of the Mavad Azmoun Group and led the Nano Materials Group at the New Ideas and Companies Center of Tabriz University since 2011 and 2013, respectively. Earlier in his career, in 2004, he completed an engineering research internship at the Neroo Research Center, contributing to two projects: the synthesis of ZnO electrical ceramics and the evaluation of piezo-sensors in power plants. His diverse roles highlight his interdisciplinary impact.

Scholarships and Awards

Assist. Prof. Dr. Shahab Khameneh Asl has received numerous prestigious scholarships and awards throughout his academic career, reflecting his excellence in materials science and nanotechnology. He was honored by the European Federation of Catalysis Societies (EFCATS) to attend their summer schools in Italy/Spain (2012) and Izmir, Turkey (2010). In July 2012, he was sponsored by the Iranian Ceramic Society and Sacmi Co. to participate in a specialized workshop on tile factories and building ceramics in Imola, Italy. He received the Nanomaterials Student Research Award from the Iran Nanotechnology Initiative Council multiple times between 2004 and 2010. Additionally, he earned the Iranian Ministry of Science and Technology Student Research Award during the same period. Recognized as a Sanjesh Illustrious Talent Student in 2005, he was exempted from military service. His contributions were further recognized with the Best Poster Award at the 8th Ceramic Congress of Iran (2009) and Best Oral Presentation at ICAMR 2013 in the UAE.

Research Focus

Assist. Prof. Dr. Shahab Khameneh Asl’s research primarily focuses on nanomaterials, photocatalysis, surface engineering, and advanced functional materials. His extensive body of work spans the synthesis, characterization, and application of materials such as TiO₂ nanotubes, ZnO nanowires, doped ferrites, and hybrid composites. A significant portion of his research investigates solar water splitting, dye degradation, photoelectrochemical performance, and corrosion resistance, often incorporating innovative approaches like nitrogen-doping and graphene-based modifications. He also explores thermal spray coatings, wear behavior, and microstructure optimization in alloys and ceramics. Through studies on mechanical and electrochemical behavior, he bridges the gap between fundamental materials science and real-world industrial applications, particularly in renewable energy and environmental remediation. His work in optimizing operational parameters using methodologies like Response Surface Methodology (RSM) further enhances the efficiency of photocatalytic systems. Overall, his interdisciplinary research contributes to the development of sustainable materials and advanced nanostructured devices for clean energy and engineering solutions.

Publication Top Notes

  • Magnetic and structural properties of nano sized Dy-doped cobalt ferrite synthesized by co-precipitation – Z Karimi, Y Mohammadifar, H Shokrollahi, SK Asl, G Yousefi, L Karimi – Journal of Magnetism and Magnetic Materials – Cited by: 259 – Year: 2014

  • Highly Efficient Solar Water Splitting from Transferred TiO2 Nanotube Arrays – IS Cho, J Choi, K Zhang, SJ Kim, MJ Jeong, L Cai, T Park, X Zheng, … – Nano Letters – Cited by: 119 – Year: 2015

  • Photocatalytic treatment of a dye solution using immobilized TiO2 nanoparticles combined with photoelectro-Fenton process: optimization of operational parameters – AR Khataee, M Zarei, SK Asl – Journal of Electroanalytical Chemistry – Cited by: 115 – Year: 2010

  • Effect of cooling rate on the microstructure and mechanical properties of a microalloyed forging steel – Dariush Rasouli, Shahb Khameneh ASL – Journal of Materials and Processing Technology – Cited by: 111 – Year: 2008

  • Band-gap narrowing and electrochemical properties in N-doped and reduced anodic TiO2 nanotube arrays – NS Peighambardoust, SK Asl, R Mohammadpour – Electrochimica Acta – Cited by: 102 – Year: 2018

  • Effect of heat treatment on wear behavior of HVOF thermally sprayed WC-Co coatings – SK Asl, MH Sohi, K Hokamoto, M Uemura – Wear – Cited by: 97 – Year: 2006

  • A comparative research on corrosion behavior of a standard, crack-free and duplex hard chromium coatings – MRS Beyragh, SK Asl, S Norouzi – Surface and Coatings Technology – Cited by: 57 – Year: 2010

  • Effect of grit‐blasting parameters on the surface roughness and adhesion strength of sprayed coating – SK Asl, MH Sohi – Surface and Interface Analysis – Cited by: 42 – Year: 2010

  • TiO2/rGO/Cu2O ternary hybrid for high-performance photoelectrochemical applications – E Hajialilou, H Asgharzadeh, SK Asl – Applied Surface Science – Cited by: 35 – Year: 2021

  • The recent advancement in the chitosan hybrid-based scaffolds for cardiac regeneration after myocardial infarction – SK Asl, M Rahimzadegan, R Ostadrahimi – Carbohydrate Polymers – Cited by: 33 – Year: 2023

Conclusion

Assist. Prof. Dr. Shahab Khameneh Asl is a highly suitable candidate for the Breakthrough Research Award. His deep expertise in nanostructured ceramics, energy materials, and environmental photocatalysis—combined with a strong academic leadership role and consistent research output—positions him as a dynamic innovator in materials science and engineering. With a few enhancements in global impact visibility and commercialization, he could further solidify his status as a leader of transformative research.

Sheeraz Iqbal | Renewable Energy | Best Researcher Award

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Dr. Sheeraz Iqbal | Renewable Energy | Best Researcher Award

Dr. Sheeraz Iqbal, King Fahd University of Petroleum & Minerals, Dhahran, Saudi Arabia, Saudi Arabia

Dr. Sheeraz Iqbal 🎓 is an Assistant Professor in Electrical Engineering at the University of Azad Jammu and Kashmir, Muzaffarabad 🇵🇰. He earned his Ph.D. from North China Electric Power University, specializing in smart grids and electric vehicles ⚡🚗. Currently a Postdoctoral Fellow at King Fahd University of Petroleum and Minerals, Saudi Arabia 🇸🇦, he leads research on renewable energy, microgrids, and AI-driven energy management 🌞🤖. Dr. Iqbal serves as Chief Editor of the International Journal of Electrical and Electronic Engineering 📝 and supervises innovative projects on EV charging and solar tech ☀️🔋. He has over 1200 citations and active roles in academia and industry liaison.

Publication Profile

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🎓 Education Background

Dr. Sheeraz Iqbal completed his Ph.D. in Electrical Engineering from North China Electric Power University, Beijing, China (2017–2020) 🇨🇳. Prior to that, he earned an MS in Electronic Engineering from the International Islamic University, Islamabad, Pakistan (2011–2014) 🇵🇰. His foundational degree is a Bachelor’s in Telecommunication Engineering from the Institute of Engineering and Technology, Allama Iqbal Open University, Islamabad (2006–2010) 📡. He completed his Higher Secondary School Certificate in Computer Science at Govt. Gordon College Rawalpindi (2003–2005) 💻 and attended Secondary School at High School Patola Rawalakot, AJK (2001–2003)

🔬 Research Interests

Dr. Sheeraz Iqbal’s research focuses on modern power systems ⚡ and smart grid/microgrid technologies 🏙️. He explores renewable energy system design 🌱, virtual power plants 🏭, and electric vehicles 🚗, including advanced energy forecasting and modeling 📊. His work includes innovations in Vehicle-to-Grid (V2G) technology 🔄, transactive energy 💹, and demand response mechanisms 📉. Dr. Iqbal is passionate about sustainable and clean energy solutions 🌞, especially solar-powered EV charging stations 🔋. Additionally, he integrates artificial intelligence 🤖 and machine learning 📈 to optimize energy management systems for a smarter and greener future

📘 Teaching, Research & Professional Experience

Dr. Sheeraz Iqbal is currently a Postdoctoral Fellow at the Interdisciplinary Research Center of Sustainable Energy Systems, KFUPM, Saudi Arabia 🏫. He served as Assistant Professor at the University of Azad Jammu and Kashmir 🇵🇰 (2020–2024) and as Lecturer (2014–2017) 🎓. He holds roles as Director of the Industrial Liaison Office 🔗, Technical Coordinator 🎛️, and Focal Person for ORIC 📑. He is Editor-in-Chief of IJEW 📝 and contributes to national curriculum development 📚. Earlier, he gained industry experience with PTCL Islamabad in NGN Switching ⚙️. Dr. Iqbal supervises MS/BS research and chairs key academic committees 🧠

🔍 Research Focus

Dr. Sheeraz Iqbal’s research lies at the intersection of smart grid systems ⚡, electric vehicles (EVs) 🚗🔋, renewable energy integration ☀️, and frequency regulation 📉📈. He specializes in microgrid stability, V2G technology, and AI-based control strategies 🧠💻. His work also addresses virtual power plants, demand response, and solar-based EV charging infrastructure ☀️🔌. He explores energy forecasting, cybersecurity in smart grids 🔐, and machine learning for energy systems 🤖. His research significantly contributes to sustainable energy 🌱 and grid resilience, making him a key figure in the development of clean, intelligent, and future-ready power systems

Publication Top Notes

  • 📊 Adaptive and fuzzy PI controllers for frequency regulation in microgrids with EVsIEEE Access, 110 citations, 2020

  • Virtual synchronous generator control for grid-connected PVInt. J. Elec. Power & Energy Systems, 108 citations, 2021

  • 🚗 EV integration impacts on power grids: A reviewIEEE Conf. on Energy Internet, 107 citations, 2018

  • 🔁 Frequency regulation with EVs & energy storage using adaptive/MPCIEEE Access, 86 citations, 2021

  • 🔌 EV aggregation for primary frequency control in industrial microgridIEEE Access, 86 citations, 2020

  • 🔄 V2G for frequency control in industrial microgrid with station operatorElectronics, 68 citations, 2020

  • ☀️ Solar PV system feasibility at King Abdullah Campus (AJK)IEEE Access, 65 citations, 2022

  • ⚙️ Modified LAPO for FACTS device allocationIEEE Access, 47 citations, 2021

  • 📚 Review on EV-to-grid for frequency control in microgridsIEEE CIEEC, 46 citations, 2018

  • 🧠 ANN-based adaptive droop control for EV battery managementInt. J. Energy Research, 41 citations, 2023

Nedaa Al-Tawalbeh | Renewable energy | Best Researcher Award

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Dr. Nedaa Al-Tawalbeh | Renewable energy | Best Researcher Award

Dr. Nedaa Al-Tawalbeh, Al al-Bayt University, Jordan

Dr. Nedaa Al-Tawalbeh is an Assistant Professor in the Department of Renewable Energy Engineering at Al al-Bayt University, Jordan. 🇯🇴 She holds a Ph.D. in Renewable Energy Engineering from Universiti Putra Malaysia, with expertise in solar energy, photovoltaics, hybrid PV/T systems, and smart grids. ⚡ She has authored multiple high-impact publications and contributes to cutting-edge research in MPPT algorithms and energy optimization. 🧠 Fluent in Arabic and English, she also excels in tools like MATLAB, Simulink, and DSP programming. ✨

Publication Profile

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🎓 Academic Qualifications

Dr. Nedaa Al-Tawalbeh holds a Ph.D. in Renewable Energy Engineering–Solar Energy (2019–2022) from Universiti Putra Malaysia, where she specialized in photovoltaic systems and developed her thesis on advanced maximum power point tracking techniques using modified, hybrid, and trapezoidal rule approaches ⚡🔋. She earned her Master’s degree in Electrical Engineering (2014–2016) from Princess Sumaya University for Technology (PSUT), Amman, Jordan, and completed her Bachelor’s degree in Electronics Engineering (2006–2011) from Yarmouk University, Hijjawi Faculty for Engineering 🔌📘. Her academic journey reflects strong expertise in solar and sustainable energy technologies

💼 Employment History

Dr. Nedaa Al-Tawalbeh is currently serving as an Assistant Professor at Al al-Bayt University in the Department of Renewable and Sustainable Energy (2022–present) 🏫🔋. From 2019 to 2022, she worked as a researcher at the Advanced Lightning, Power and Energy Research (ALPER) Centre, Universiti Putra Malaysia, contributing to cutting-edge renewable energy projects ⚡🔬. Earlier, she served as a Teaching Assistant in the Electrical Engineering Department at Princess Sumaya University (2014–2016), supporting academic development in engineering education 📘👩‍🏫. She is fluent in both Arabic (native) and English 🌐🗣️, enabling effective communication in diverse academic and research environments.

🛠️ Technical Skills

Dr. Nedaa Al-Tawalbeh possesses a robust set of technical skills in electronics, programming, and renewable energy systems ⚙️💡. She is an expert in Texas Instrument (TMS320F28335) and Arduino DSPs 🔧📟. Her software expertise includes Code Composer Studio, MATLAB, Simulink, and renewable energy tools 🖥️📊. She is proficient in Cadence, Synopsis, and HSPICE tools for circuit design and analysis, along with PCB design and simulation software such as Proteus and Fritzing 🔬🔌. Additionally, she is skilled in LaTeX, BibTeX, Microsoft Office, Mathematica, Maple, and C++ programming 💾🧠, making her a versatile engineer in both hardware and software domains.

🔬 Research Focus

Dr. Nedaa Al-Tawalbeh’s research primarily centers on renewable energy systems, particularly solar photovoltaic (PV) technologies ☀️🔋. Her expertise includes maximum power point tracking (MPPT) algorithms, hybrid PV-thermoelectric systems, and adaptive control techniques for energy optimization ⚡📈. She also explores smart grid reliability, electricity theft detection using AI, and processor-in-loop testing for energy systems 🧠💡. With significant contributions to power electronics, energy conversion, and intelligent controllers, Dr. Al-Tawalbeh bridges hardware implementation with AI-driven solutions for sustainable energy applications 🌍🔌. Her interdisciplinary work spans engineering, sustainability, and smart energy systems

Conclusion

Dr. Nedaa Al-Tawalbeh is a highly qualified and impactful researcher in the field of renewable and sustainable energy, particularly in solar and photovoltaic systems. Her academic background, robust publication record, technical skills, and international collaborations make her a strong and deserving nominee for the Research for Best Researcher Award. Her work not only advances scientific understanding but also contributes toward global efforts in clean and efficient energy utilization.

Publication Top Notes

📄 Maximizing energy harvesting in grid‐connected hybrid PV and TEG systemsEnvironmental Progress & Sustainable Energy 📅 2025 🔗 [DOI:10.1002/ep.14621] 📑 Cited by: pending

📄 Novel initialization strategy for global MPPT optimizationResults in Engineering 📅 2024 🔗 [DOI:10.1016/j.rineng.2024.102067] 📑 Cited by: Scopus-indexed

📄 Intelligent Runge Kutta control for thermoelectric powerEnergy Conversion and Management: X 📅 2024 🔗 [DOI:10.1016/j.ecmx.2024.100612] 📑 Cited by: pending

📄 Federated learning model for electricity theft detectionEnergy Reports 📅 2023 🔗 [DOI:10.1016/j.egyr.2023.09.100] 📑 Cited by: Scopus-indexed

📄 Trapezoidal rule-based MPPT algorithmEnergy Conversion and Management 📅 2022 🔗 [DOI:10.1016/j.enconman.2022.115738] 📑 Cited by: Scopus-indexed

📄 Trapezoidal MPPT under complex shadingPECon 2020 Conference 📅 2020 🔗 [DOI:10.1109/PECon48942.2020.9314467] 📑 Cited by: Scopus-indexed

📄 Hybrid approach for PV power extractionSustainability 📅 2020 🔗 [DOI:10.3390/su12145786] 📑 Cited by: 90+

📄 Enhanced adaptive P&O technique for MPPTApplied Sciences 📅 2020 🔗 [DOI:10.3390/app10113912] 📑 Cited by: 60+

📄 Small-signal gain in CMOS analog amplifierICM Conference 📅 2016 🔗 [DOI:10.1109/ICM.2015.7437993] 📑 Cited by: 5+

Wisam Abu Jadayil | Green Technologies | Best Researcher Award

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Assoc. Prof. Dr. Wisam Abu Jadayil | Green Technologies | Best Researcher Award

Assoc. Prof. Dr. Wisam Abu Jadayil, Abu Dhabi University, United Arab Emirates

Assoc. Prof. Dr. Wisam Abu Jadayil 🌍 is an expert in Industrial and Mechanical Engineering with a Ph.D. from Iowa State University 🎓. He is currently an Associate Professor at Abu Dhabi University, UAE 🇦🇪. His research focuses on sustainability, energy management, and engineering project management 🌱⚙️. With a career spanning multiple academic roles, Dr. Abu Jadayil has pioneered programs in Mechanical Engineering and Project Management at various institutions. He has also worked as a consultant in manufacturing, automation, and supply chain management 🏭. He holds memberships in prestigious organizations like Tau Beta Pi and Phi Kappa Phi 🏅.

Publication Profile

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Educational Background

Assoc. Prof. Dr. Wisam Abu Jadayil holds a Ph.D. in Industrial and Mechanical Engineering from Iowa State University, Ames, USA, earned in December 2005 🎓. Prior to this, he completed an M.S. in Mechanical Engineering/Applied Mechanics at Jordan University of Science and Technology in Irbid, Jordan, in June 2001 🔧. He also obtained his B.S. in Mechanical Engineering from the same university in June 1999 🏫. His strong academic foundation has significantly contributed to his expertise in engineering, making him a leading academic in his field

Employment History

Assoc. Prof. Dr. Wisam Abu Jadayil has held significant academic roles throughout his career. Since August 2019, he has been serving as an Associate Professor at Abu Dhabi University, UAE, in the MEM/MPM programs 👨‍🏫. Prior to this, he was an Associate Professor at The American University of Ras Al Khaimah from 2016 to 2019 and served as the Chairman and Master of Engineering Project Management Coordinator from 2014 to 2016 🎓. He also worked as an Assistant Professor and Coordinator for various engineering programs at AURAK, contributing to the establishment of several new programs 💡. Earlier, Dr. Abu Jadayil held teaching positions at The Hashemite University and Iowa State University 📚.

Consultancy & Industry Experience

Assoc. Prof. Dr. Wisam Abu Jadayil has extensive consultancy experience across multiple industries, advising on traditional and non-traditional manufacturing processes, automation, robotics, and advanced engineering materials 🛠️. His expertise spans various fields, including design and development of new products, logistics, supply chain management, and engineering safety and reliability 🏗️. He has also worked on project management, risk management, and value engineering. In addition, Dr. Abu Jadayil has led numerous training courses and workshops, covering topics like maintenance planning, predictive maintenance, CAD/CAM, CNC machines, engineering standards, and project management 🧰

Teaching Experience

Assoc. Prof. Dr. Wisam Abu Jadayil has taught a wide range of courses across undergraduate and graduate levels at prestigious institutions, including Iowa State University, The Hashemite University, and Abu Dhabi University. His courses span subjects such as Computer-Aided Design, Numerical Methods for Engineers, Manufacturing Materials, Industrial Automation, Project Management, and Supply Chain Management 🛠️. His student evaluations consistently reflect high ratings, with scores ranging between 80-100% at the undergraduate level and 92-100% at the graduate level 🌟. Dr. Abu Jadayil’s courses are known for their comprehensive coverage and practical applications in engineering and management fields 🏫

Honors, Awards

Assoc. Prof. Dr. Wisam Abu Jadayil has received numerous honors and awards, including the Torch Peer Award for his role in achieving SACS COC accreditation at AURAK in 2018 🌟. He was the first faculty member promoted at The American University of Ras Al Khaimah in 2014 and initiated several programs, such as the Mechanical Engineering and Industrial Engineering programs 🎓. Dr. Abu Jadayil is a lifetime member of prestigious organizations like Tau Beta Pi and Phi Kappa Phi in the USA 🇺🇸. He also earned the Queen Rania Prize in 2000 👑 and is fluent in both Arabic and English

Research Focus

Assoc. Prof. Dr. Wisam Abu Jadayil’s research focuses on manufacturing processes, material properties, and industrial engineering. His work includes enhancing the performance of materials like aluminum and Ni-Ti alloys through alloying and heat treatments 🔧. He has also investigated optimizing industrial systems, including plastic production and healthcare service efficiency 🏥. Additionally, he has explored topics like fatigue life estimation, nondestructive testing, and casting defects in aluminum products 🔩. Dr. Abu Jadayil’s interdisciplinary research intersects mechanical engineering, materials science, and industrial optimization, addressing both practical and theoretical challenges in engineering processes.

Publication Top Notes

  • Strengthening aluminum scrap by alloying with iron (W Khraisat, W Abu Jadayil, JJMIE, 2010) – Cited by 54 📑

  • A revision for the different reuses of polyethylene terephthalate (PET) water bottles (R Ajaj, W Abu Jadayil, H Anver, E Aqil, Sustainability, 2022) – Cited by 34 🔄

  • The Effect of Heat-Treatment and Alloying of Ni-Ti Alloy with Copper on Improving its Fatigue Life (W Abu Jadayil, D Serhan, Minerals, Metals and Materials Series, 2019) – Cited by 34 🔬

  • Numerical prediction of optimum hollowness and material of hollow rollers under combined loading (W Abu Jadayil, N Jaber, Materials & Design, 2009) – Cited by 34 ⚙️

  • The Importance of Class Attendance and Cumulative GPA for Academic Success in Industrial Engineering Classes (S Obeidat, A Bashir, W Abu Jadayil, World Academy of Science, 2012) – Cited by 32 🎓

  • Different Strategies to Improve the Production to Reach the Optimum Capacity in Plastic Company (W Abu Jadayil, W Khraisat, M Shakoor, Cogent Engineering, 2017) – Cited by 31 🏭

  • Studying the Effects of Varying the Pouring Rate on the Casting Defects Using Nondestructive Testing Techniques (W Abu Jadayil, Jordan Journal of Mechanical and Industrial Engineering, 2011) – Cited by 27 🛠️

  • Efficiency Assessment in Emergency Department Using Lean Thinking Approach (M Shakoor, W Abu Jadayil, N Jaber, S Jaber, Jordan Journal of Mechanical & Industrial Engineering, 2017) – Cited by 22 ⚕️

  • An empirical investigation on plastic waste issues and plastic disposal strategies to protect the environment: A UAE perspective (W Abu Jadayil, MRNM Qureshi, R Ajaj, E Aqil, Sustainability, 2022) – Cited by 20 🌍

  • Using SERVIQUAL to investigate the quality of provided wireless communication services in UAE (WA Jadayil, M Shakoor, A Bashir, H Selmi, MRNN Qureshi, International Journal of Quality and Service Sciences, 2020) – Cited by 20 📡

Jiapei Wei | Energy Economy | Best Researcher Award

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Dr. Jiapei Wei | Energy Economy | Best Researcher Award

Dr. Jiapei Wei, School of Business Administration, China

Dr. Wei Jiapei is an Associate Researcher and Deputy Director of the Business Department at Guangxi University of Finance and Economics. She holds a Ph.D. from Huazhong Agricultural University and has served as a visiting scholar at Wuhan University and Curtin University in Australia. Specializing in sustainable development, Dr. Wei has published over 20 papers, including SCI, SSCI, and CSSCI-indexed journals, and authored three academic books. With extensive involvement in national and provincial research projects, she actively explores China’s economic sustainability and policy. She is recognized for her analytical skills and contributions to green economic transitions and agricultural waste utilization. 🌱📘

Publication Profile

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🎓 Education

Dr. Wei Jiapei obtained her Ph.D. from Huazhong Agricultural University, where she specialized in sustainable development and agricultural economics. Her academic training included theoretical grounding in economics, environmental policy, and resource management. She further expanded her international perspective through academic exchanges and visiting scholar roles at Wuhan University and Curtin University in Australia. These experiences enriched her interdisciplinary expertise and strengthened her research foundation in ecological economics, resource utilization, and green transformation. Her academic formation has laid a solid base for her significant contributions to environmental policy research and rural energy transition in the context of China’s development goals. 📚🌏

💼 Experience

Dr. Wei Jiapei is currently serving as an Associate Researcher and Deputy Director in the Department of Business at Guangxi University of Finance and Economics. She has extensive teaching and research experience and has led or participated in over 15 projects funded by national and provincial institutions. Her past appointments include roles as a visiting scholar at Wuhan University and Curtin University, enhancing her global research perspective. She has authored numerous academic papers and three books and has contributed to policymaking and implementation strategies for green transformation in resource-based enterprises and agricultural sectors. Her expertise lies in bridging theory and practice. 📊🌍

🏅 Awards and Honors

Dr. Wei Jiapei has been selected for the prestigious Guangxi “Thousand Talents Program” and recognized as a Young and Middle-aged Academic Leader at Guangxi University of Finance and Economics. These honors reflect her excellence in research, leadership in academic innovation, and commitment to regional development. Her research outputs have been acknowledged for their quality and relevance, earning her excellence ratings in several concluded projects. Dr. Wei’s work in sustainability, especially in agricultural waste utilization and corporate green transformation, continues to influence regional policy discourse and academic practice. Her career is marked by scholarly recognition and institutional impact. 🏆📖

🔬 Research Focus

Dr. Wei Jiapei’s research focuses on sustainable development, green economic transformation, agricultural waste utilization, and environmental policy. She has explored the dynamics of technological innovation, policy uncertainty, and green investment under China’s dual carbon goals. Her recent studies address the energy reuse of agricultural by-products, socio-economic costs of ecological transitions, and mechanisms driving green transformation in resource-based enterprises. Through interdisciplinary approaches combining economics, sustainability science, and strategic policy studies, she contributes to theoretical advancement and practical solutions for regional ecological modernization and carbon neutrality. Her work also includes bibliometric analyses and AI applications in renewable energy systems. 🌿🔍

Publication Top Notes

Artificial intelligence applications in hydrogen system: Advancing renewable energy utilization for global hydrogen economy and sustainability goals

Maria Carmen Asensio | Energy | Women Researcher Award

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Prof. Maria Carmen Asensio | Energy | Women Researcher Award

Prof. Maria Carmen Asensio, Materials Science Institute of Madrid – CSIC, Spain

Prof. Maria Carmen Asensio is a leading solid-state physicist and Permanent Research Staff at the Institute of Material Science of Madrid (ICMM-CSIC), Spain. She is the co-founder of the Research Associated Unit MATINÉE and a global expert in synchrotron radiation techniques. Her innovations include the development of the nanoARPES technique for chemical and electronic imaging. With over 265 publications and more than 11,500 citations, she is recognized internationally for her contributions to condensed matter physics. Her collaborative work spans multiple prestigious institutions across Europe, and she plays key roles in scientific leadership, editorial boards, and European research evaluation panels. 🌍📚

Publication Profile

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🎓 Education

Prof. Asensio began her academic journey in Argentina, where she earned her foundational degrees in physics. She further advanced her academic career in Europe, undertaking postdoctoral research at the University of Warwick (UK) and the Fritz Haber Institute of the Max Planck Society (Germany). Her interdisciplinary training across premier European laboratories solidified her expertise in spectroscopic methods and materials science. This diverse academic foundation equipped her with the skills to pioneer advanced techniques in synchrotron-based photoemission and solid-state physics, culminating in significant contributions to the electronic structure of novel materials. 🎓🇦🇷🇬🇧🇩🇪

💼 Experience

Prof. Asensio has held prestigious roles including Senior Lecturer at the Autonomous University of Madrid, and postdoctoral fellow at Warwick and the Fritz Haber Institute. Since 1992, she has been a senior member of the GREENER group at ICMM-CSIC, Spain. She has directed major European research projects, chaired the IUVSTA Surface Science Division since 2016, and served as Scientific Director of IUVSTA from 2004 to 2007. As an evaluator for the European Research Council (ERC) and editorial board member of several journals, she has contributed significantly to research governance and scientific development across Europe. 🧪🌐

🏆 Awards and Honors

Prof. Asensio has received six SEXENIOS (Exceptional Productivity Supplements) from the Spanish Government in recognition of sustained research excellence. She was elected Scientific Director of IUVSTA and currently chairs its Surface Science Division. She has supervised numerous award-winning PhD theses and postdoctoral researchers supported by prestigious programs like Marie Curie and CNRS. Her impactful publication on silicene alone has over 3600 citations. Her continuous recognition by institutions like the ERC and international journals underscores her global scientific influence and the pioneering quality of her work in photoemission and advanced materials. 🥇🔖

🧪 Research Focus

Prof. Asensio’s research centers on the electronic and structural characterization of advanced materials using synchrotron radiation techniques such as ARPES, SR-PES, and XAS. Her groundbreaking work in developing nanoARPES allows for nanoscale chemical and electronic imaging. She investigates Fermi surface topology, low-dimensional materials, and electronic instabilities at surfaces and interfaces. Her studies have advanced understanding of graphene, silicene, and other 2D systems, making her a global leader in condensed matter physics and spectroscopic innovation. Her work bridges fundamental physics with instrumentation development for next-generation materials. 🔬📡📊

Publication Top Notes

📖 Silicene: compelling experimental evidence for graphenelike two-dimensional silicon 🔢 4280 📅 2012
📖 Band Alignment and Minigaps in Monolayer MoS₂-Graphene van der Waals Heterostructures 🔢 366 📅 2016
📖 Towards high quality CVD graphene growth and transfer 🔢 339 📅 2015
📖 Quasicrystalline 30° twisted bilayer graphene as an incommensurate superlattice 🔢 245 📅 2018
📖 Evidence of Dirac fermions in multilayer silicene 🔢 233 📅 2013
📖 Black arsenic: a layered semiconductor with extreme in‐plane anisotropy 🔢 232 📅 2018
📖 Topology of the Pseudogap and Shadow Bands in cuprates at optimum doping 🔢 231 📅 1997
📖 Dynamical fluctuations as the origin of a surface phase transition in Sn/Ge(111) 🔢 221 📅 1999
📖 Direct Observation of Interlayer Hybridization in Graphene/MoS₂ heterostructures 🔢 204 📅 2015
📖 Charge Density Wave State Suppresses Ferromagnetic Ordering in VSe₂ Monolayers 🔢 189 📅 2019
📖 Self-aligned silicon quantum wires on Ag(110) 🔢 180 📅 2005
📖 Polycrystalline graphene with single crystalline electronic structure 🔢 176 📅 2014
📖 Observation of a 2D liquid of Fröhlich polarons at SrTiO₃ surface 🔢 172 📅 2015
📖 Chitosan-coated MIL-100(Fe) nanoparticles as bio-compatible nanocarriers 🔢 162 📅 2017

Tingwei Zhou | Energy | Best Researcher Award

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Prof. Tingwei Zhou | Energy | Best Researcher Award

Prof. Tingwei Zhou, Southwest University, China

Prof. Tingwei Zhou (周廷伟), born in February 1988, is an Associate Professor at the School of Physical Science and Technology, Southwest University, China. A member of the Communist Party, he specializes in theoretical research on material design, optoelectronic device performance, and quantum entanglement, often combining artificial intelligence with physical chemistry. With over 27 SCI papers and an H-index of 18, his work has significantly advanced the understanding of superatomic perovskites. He actively contributes to teaching, high-performance computing infrastructure, and peer-review processes for renowned journals. He is passionate about scientific exploration, education, and interdisciplinary collaboration.

Publication Profile

Scopus

🎓 Education

Prof. Zhou earned his PhD in Optical Engineering from Chongqing University (2016–2019), focusing on the frontier of superatomic materials. He obtained his MSc in Theoretical Physics from Southwest University (2013–2016), where he began his exploration of computational modeling and material theory. His undergraduate degree in Physics was completed at Zunyi Normal College (2009–2013). With a solid educational foundation in both theoretical and applied physics, his academic journey reflects a deep interest in quantum mechanics, materials science, and interdisciplinary research, forming the basis of his innovative approach to perovskite material studies and quantum phenomena. 🧪📚

🧑‍🏫 Experience

Since 2023, Prof. Zhou has served as an Associate Professor at Southwest University, where he previously held a Lecturer position (2019–2023). He has taught core subjects including computational physics, electrodynamics, and linear algebra, with experience in online, offline, and hybrid modes. Zhou has guided numerous undergraduates and postgraduates in research, thesis writing, and publishing. He also built and now manages a high-performance computing lab supporting theoretical modeling. Beyond teaching, he contributes to academic administration, graduate admissions, and collaborative research across physics and engineering disciplines. His experience showcases strong innovation, mentorship, and institutional service. 💻🧑‍🎓

🔬 Research Focus

Prof. Zhou’s research focuses on the design and performance evaluation of superatomic and perovskite materials for applications in energy, optoelectronics, and catalysis. He explores properties like crystal structure, adsorption energy, charge density, and activation energy using first-principles simulations. His interests extend to quantum entanglement theory and integrating artificial intelligence into physical chemistry. He also pioneers theoretical frameworks linking category theory to quantum physics. His published work in top-tier journals highlights advances in device efficiency, defect engineering, and stability mechanisms in functional materials. His cross-disciplinary approach pushes the boundaries of theoretical materials science and quantum innovation. ⚛️🧠💡

Publication Top Notes

📘 Coherence Programming for Efficient Linearly Polarized Perovskite Light-Emitting Diodes – Xiao, M.; Yang, J.; Zhang, W.; Wang, J.; Chen, P. – ACS Nano, 2024 – 📈 Cited by: 1

🌞 Facile Surface Regulation for Highly Efficient and Thermally Stable Perovskite Solar Cells via Chlormequat Chloride – Yang, B.; Lin, P.; Zhou, T.; Cai, B.; Zhang, W. – Chinese Chemical Letters, 2024

🌿 Facile and Sustainable Interface Modulation via a Self-Assembly Phosphonate Molecule for Efficient and Stable Perovskite Photovoltaics – Yang, B.; Cai, B.; Zhou, T.; Zheng, X.; Zhang, W. – Chemical Engineering Journal, 2024 – 🔟 Cited by: 10

🔬 A Construction Method of the Wave–Particle Entanglement State of the Particle System – Zhou, T. – Modern Physics Letters B, 2024

Xuefeng Song | Photocatalysis | Best Researcher Award

Published on by Global Academic Awards

Prof. Dr. Xuefeng Song | Photocatalysis | Best Researcher Award

Prof. Dr. Xuefeng Song, Shanghai Jiao Tong University, China

Prof. Dr. Xuefeng Song is a distinguished materials scientist specializing in functional micro/nanostructures, nanocomposites, and energy applications. He earned his Ph.D. in Materials Science from the Shanghai Institute of Ceramics, Chinese Academy of Sciences, in 2009. He further advanced his research as a Postdoctoral Fellow at the University of Cologne, Germany (2009-2012). Since 2012, he has been a key faculty member at Shanghai Jiao Tong University, leading groundbreaking research in photocatalysis, energy storage, and protective coatings. With over 100 publications in top-tier journals, 4,300+ citations, and 32 invention patents, his contributions to materials science are globally recognized. He has led over 20 major research projects, funded by prestigious institutions like the National Natural Science Foundation of China and the BMBF Fellowship in Germany. His numerous accolades, including the VinFuture Prize nomination and IAAM Fellowship, highlight his impact in the field.

Publication Profile

Google Scholar

Education 🎓📚

Prof. Dr. Xuefeng Song pursued his Ph.D. in Materials Science at the Shanghai Institute of Ceramics, Chinese Academy of Sciences, in 2009, focusing on the controlled synthesis of functional micro/nanostructures. He further enriched his academic expertise through a postdoctoral fellowship at the Institute of Inorganic Chemistry, University of Cologne, Germany, from 2009 to 2012, where he worked on innovative nanocomposite systems. Since 2012, he has been a faculty member at Shanghai Jiao Tong University, contributing to advanced research in energy materials and protective coatings. His academic journey is marked by extensive interdisciplinary research, blending chemistry, physics, and engineering to pioneer new material technologies. He has also contributed to three English-language academic monographs, enhancing global knowledge dissemination. His education provided a solid foundation for his pioneering work in photocatalysis, energy conversion, and nanostructured materials, positioning him as a leading scientist in materials research.

Experience 🏆🔬

Prof. Dr. Xuefeng Song has over a decade of research experience in materials science, focusing on nanostructured materials and energy applications. As a Principal Investigator, he has led over 20 major research projects, including those funded by the National Natural Science Foundation of China, the Shanghai Natural Science Foundation, and the HY Program of the Equipment Development Department. His expertise spans from laboratory research to industrial applications, particularly in photocatalysis, energy storage, and protective coatings. His work has led to significant advancements in sustainable energy solutions and advanced coatings. He has authored over 100 high-impact publications, earning 4,300+ citations, and filed 32 invention patents, with 28 already granted. His leadership in research has positioned him as an influential figure in nanomaterials and their applications in energy-efficient and environmentally friendly technologies, bridging the gap between scientific discovery and real-world innovation.

Awards & Honors 🏅🎖️

Prof. Dr. Xuefeng Song’s contributions to materials science have earned him numerous prestigious honors. He is a VinFuture Prize nominator, recognizing his influence in cutting-edge research. He has been awarded Fellowship of the International Association of Advanced Materials (IAAM) for his impact on materials innovation. As a Science Ambassador for Bentham Science Publishers, he actively promotes scientific advancements. He has also received the SMC-Chenxing Young Scholar Award, recognizing his outstanding early-career achievements. His research excellence has been acknowledged through prestigious talent programs, including the Longcheng Talent Program (Changzhou) and the Class B Scholar of the Ming Shi Zhi Xiang Program (Shaoxing). His global recognition, spanning academia and industry, underscores his exceptional contributions to nanomaterials, energy storage, and advanced coatings, making him a leading scientist in his field.

Research Focus 🔬⚡

Prof. Dr. Xuefeng Song’s research is centered on controlled synthesis of functional micro/nanostructures, the construction of nanocomposite systems, and their applications in photocatalysis, energy storage, and protective coatings. His work in photocatalysis focuses on developing advanced materials for efficient light-driven chemical reactions, crucial for environmental sustainability. His contributions to energy storage and conversion include innovations in battery and supercapacitor technologies, enhancing energy efficiency and performance. His research on protective coatings aims to develop high-performance, durable coatings for industrial applications. His interdisciplinary approach integrates chemistry, nanotechnology, and engineering to create next-generation materials for energy and environmental applications. His research has had a significant impact, with over 100 publications in top-tier journals, 4,300+ citations, and 32 patents, reinforcing his position as a leader in the field of advanced materials science. 🚀

Publication Top Notes

📄 Facile synthesis and hierarchical assembly of hollow nickel oxide architectures bearing enhanced photocatalytic properties | 🔗 X Song, L Gao | 🏛️ The Journal of Physical Chemistry C | 📅 2008 | 🔍 Cited by: 232

📄 Self‐Assembled α‐Fe₂O₃ Mesocrystals/Graphene Nanohybrid for Enhanced Electrochemical Capacitors | 🔗 S Yang, X Song, P Zhang, J Sun, L Gao | 🏛️ Small | 📅 2014 | 🔍 Cited by: 209

📄 Facile Synthesis of Nitrogen-Doped Graphene–Ultrathin MnO₂ Sheet Composites and Their Electrochemical Performances | 🔗 S Yang, X Song, P Zhang, L Gao | 🏛️ ACS Applied Materials & Interfaces | 📅 2013 | 🔍 Cited by: 177

📄 Mapping the surface adsorption forces of nanomaterials in biological systems | 🔗 XR Xia, NA Monteiro-Riviere, S Mathur, X Song, L Xiao, SJ Oldenberg, … | 🏛️ ACS Nano | 📅 2011 | 🔍 Cited by: 160

📄 Fabrication of hollow hybrid microspheres coated with silica/titania via sol–gel process and enhanced photocatalytic activities | 🔗 X Song, L Gao | 🏛️ The Journal of Physical Chemistry C | 📅 2007 | 🔍 Cited by: 156

📄 Covalently Coupled Ultrafine H-TiO₂ Nanocrystals/Nitrogen-Doped Graphene Hybrid Materials for High-Performance Supercapacitor | 🔗 S Yang, Y Lin, X Song, P Zhang, L Gao | 🏛️ ACS Applied Materials & Interfaces | 📅 2015 | 🔍 Cited by: 143

📄 Synthesis, characterization, and gas sensing properties of porous nickel oxide nanotubes | 🔗 X Song, L Gao, S Mathur | 🏛️ The Journal of Physical Chemistry C | 📅 2011 | 🔍 Cited by: 120

📄 Facile synthesis of polycrystalline NiO nanorods assisted by microwave heating | 🔗 X Song, L Gao | 🏛️ Journal of the American Ceramic Society | 📅 2008 | 🔍 Cited by: 116

📄 Synthesis, characterization, and optical properties of well-defined N-doped, hollow silica/titania hybrid microspheres | 🔗 X Song, L Gao | 🏛️ Langmuir | 📅 2007 | 🔍 Cited by: 116

📄 Active Fe₂O₃ nanoparticles encapsulated in porous g-C₃N₄/graphene sandwich-type nanosheets as a superior anode for high-performance lithium-ion batteries | 🔗 M Shi, T Wu, X Song, J Liu, L Zhao, P Zhang, L Gao | 🏛️ Journal of Materials Chemistry A | 📅 2016 | 🔍 Cited by: 106

📄 Heating-Rate-Induced Porous α-Fe₂O₃ with Controllable Pore Size and Crystallinity Grown on Graphene for Supercapacitors | 🔗 S Yang, X Song, P Zhang, L Gao | 🏛️ ACS Applied Materials & Interfaces | 📅 2015 | 🔍 Cited by: 104

📄 Phyllosilicate evolved hierarchical Ni-and Cu–Ni/SiO₂ nanocomposites for methane dry reforming catalysis | 🔗 T Wu, Q Zhang, W Cai, P Zhang, X Song, Z Sun, L Gao | 🏛️ Applied Catalysis A: General | 📅 2015 | 🔍 Cited by: 94

📄 ZnFe₂O₄ nanoparticles-cotton derived hierarchical porous active carbon fibers for high rate-capability supercapacitor electrodes | 🔗 S Yang, Z Han, F Zheng, J Sun, Z Qiao, X Yang, L Li, C Li, X Song, B Cao | 🏛️ Carbon | 📅 2018 | 🔍 Cited by: 90

📄 Surfactant-free hydrothermal synthesis of Cu₂ZnSnS₄ (CZTS) nanocrystals with photocatalytic properties | 🔗 J Wang, P Zhang, X Song, L Gao | 🏛️ RSC Advances | 📅 2014 | 🔍 Cited by: 89

📄 Crumpled nitrogen-doped graphene–ultrafine Mn₃O₄ nanohybrids and their application in supercapacitors | 🔗 S Yang, X Song, P Zhang, L Gao | 🏛️ Journal of Materials Chemistry A | 📅 2013 | 🔍 Cited by: 86

📄 Attapulgite modulated thorny nickel nanowires/graphene aerogel with excellent electromagnetic wave absorption performance | 🔗 F Sun, Q Liu, Y Xu, X Xin, Z Wang, X Song, X Zhao, J Xu, J Liu, L Zhao, … | 🏛️ Chemical Engineering Journal | 📅 2021 | 🔍 Cited by: 83

Conclusion

Prof. Dr. Xuefeng Song stands out as a highly accomplished researcher with a strong publication record, leadership in major projects, and a significant impact in materials science. His contributions to nanostructures, energy storage, and protective coatings, along with his extensive patent portfolio and global recognitions, make him a strong candidate for the Best Researcher Award. 🚀

Kumar Mallem | Energy | Best Researcher Award

Published on by Global Academic Awards

Dr. Kumar Mallem | Energy | Best Researcher Award

Dr. Kumar Mallem, Hong Kong University of Science and Technology, Hong Kong

Dr. Kumar Mallem is a researcher in electronic and computer engineering, specializing in quantum rod light-emitting diodes (QRLEDs) and advanced optoelectronic materials. He is pursuing a Ph.D. at the Hong Kong University of Science and Technology (HKUST), focusing on next-generation display and lighting applications. His research spans quantum dot and quantum rod LEDs, perovskite solar cells, and silicon-based photovoltaics. Dr. Mallem has extensive experience in device fabrication and characterization, with multiple high-impact publications and patents. Recognized with prestigious awards, including the Distinguished Paper Award at SID Display Week 2025, he continues to advance energy-efficient lighting technologies.

Publication Profile

Google Scholar

Education 🎓

Dr. Kumar Mallem is currently pursuing a Ph.D. in Electronic and Computer Engineering at HKUST (2020–2025) under Prof. Abhishek Kumar Srivastava, focusing on quantum rod light-emitting diodes for future display applications. He earned an M.Tech. in Electronics and Communication Engineering from Jawaharlal Nehru Technological University, Kakinada (2012–2014), conducting research on HfO₂/Ge stacks for MOS devices at IIT Bombay under Prof. Saurabh Lodha. His B.Tech. in the same field was completed at AGCIT, JNTU Kakinada (2007–2011). His educational background integrates semiconductor device engineering, optoelectronics, and materials science, equipping him with expertise in advanced display and photovoltaic technologies.

Experience 🏆

Dr. Kumar Mallem has significant research experience in optoelectronics and semiconductor devices. Since 2020, he has been a Ph.D. researcher at HKUST, developing quantum rod LEDs and optimizing their efficiency. From 2015 to 2019, he worked as a research assistant at Sungkyunkwan University, South Korea, under Prof. Junsin Yi, specializing in silicon solar cells, thin-film transistors (TFTs), and MOS devices. His hands-on expertise includes device fabrication, nanomaterials assembly, and advanced characterization techniques. His work contributes to energy-efficient display technologies and next-generation solid-state lighting.

Awards & Honors 🏅

Dr. Kumar Mallem has received several prestigious recognitions, including the Distinguished Paper Award at SID Display Week 2025 for his work on highly efficient QRLEDs. He was awarded the Hong Kong PhD Fellowship Scheme (2020–2025) for academic excellence. He also won the Excellent Paper Award at the Asia-Pacific Forum on Renewable Energy in 2018. His contributions to optoelectronic devices and energy-efficient lighting technologies have earned him international recognition, reflecting his impact in advancing quantum dot and nanomaterial-based displays.

Research Focus 🔬

Dr. Kumar Mallem specializes in quantum rod and quantum dot light-emitting diodes, perovskite LEDs, silicon solar cells, and advanced optoelectronic materials. His research aims to enhance device efficiency, suppress charge leakage, and improve external quantum efficiency for high-performance display and lighting technologies. He works extensively with solution-processed nanomaterials, carrier injection engineering, and interface optimization to develop next-generation optoelectronic devices. His contributions to solid-state lighting and energy-efficient display technologies push the boundaries of modern photonic applications.

Publication Top Notes

  • Quantum‐Rod On‐Chip LEDs for Display Backlights with Efficacy of 149 lm W−1 |  Advanced Materials | 55 | 2021
  • Molybdenum oxide: A superior hole extraction layer for Si solar cells | Materials Research Bulletin | 53 | 2019
  • Influence of small size pyramid texturing on Ag-screen printed Si solar cells | Materials Science in Semiconductor Processing | 45 | 2018
  • Control of size and distribution of silicon quantum dots for solar cells | Renewable Energy | 33 | 2019
  • Ultralow roll‐off quantum dot LEDs using engineered carrier injection layer | Advanced Materials | 30 | 2023
  • Ambient annealing influence on MoOx layer for carrier-selective contact solar cells | Materials Science in Semiconductor Processing | 29 | 2019
  • MoOx work function & interface analysis for hole-selective Si heterojunction solar cells | Applied Surface Science | 24 | 2021
  • Solution-processed red, green, and blue quantum rod LEDs | ACS Applied Materials & Interfaces | 22 | 2022
  • High-efficiency crystalline silicon solar cells: A review  | 19 | 2019
  • Light scattering properties of multi-textured AZO films for Si thin film solar cells |  Applied Surface Science | 19 | 2018