Afful Ekow Kelly | Engineering and Technology | Best Researcher Award

Afful Ekow Kelly | Engineering and Technology | Best Researcher Award

Dr Afful Ekow Kelly, Catholic University of Ghana, Ghana

Based on the provided information, Dr. Afful Ekow Kelly is indeed a strong contender for the Best Researcher Award. Here’s a breakdown of why he might be a suitable candidate:

publication profile

Scopus

Academic and Professional Background

Dr. Afful Ekow Kelly holds a Higher National Diploma in Statistics, a Master’s degree in Information Technology with a focus on data security, and a PhD in mobile money security algorithms. His diverse academic background supports his robust research capabilities. Professionally, he has experience lecturing at All Nation University and conducting research in collaboration with prestigious institutions like Rutgers University, Colorado State University, and The University of Mines and Technology (UMaT). This combination of academic credentials and professional experience provides a solid foundation for his research work.

Research and Innovations

Dr. Kelly’s research addresses critical areas in technology and financial systems. His completed and ongoing projects (9 in total) demonstrate a commitment to advancing knowledge in mobile money banking, security, and technology adoption. His studies have made significant contributions to understanding mobile payment adoption among Gen-Z, enhancing security in mobile money systems, and improving disaster management strategies. These contributions highlight his innovative approach and practical impact.

Notable Publications and Citations

Dr. Kelly has published in reputable journals such as the Journal of Innovation and Entrepreneurship and Journal of Emergency Management and Disaster Communications. His work, including the paper on mobile money service transactions in Ghana, has been cited 10 times, reflecting its influence and recognition in the academic community.

Contributions

Dr. Kelly’s research in mobile money banking offers insights into enhancing marketing strategies and promoting sustainable financial practices. His work on mobile money security contributes to reducing fraud and increasing consumer trust, thereby fostering financial inclusion. Additionally, his studies on disaster management provide actionable strategies for improving disaster risk reduction and resilience.

Research Impact

Dr. Kelly’s research has practical implications, such as improving mobile money security and adoption, and providing insights into disaster management. His work aids in understanding factors affecting mobile money usage and enhancing financial security, which is crucial for promoting financial inclusion and disaster resilience.

Awards and Recognition

Dr. Kelly’s contributions to the field have been recognized through significant publications and citations. His ongoing research projects and collaborations with renowned institutions further highlight his commitment and impact in his area of expertise.

Conclusion

Dr. Afful Ekow Kelly’s academic qualifications, extensive research experience, and impactful contributions to mobile money security and disaster management make him a compelling candidate for the Best Researcher Award. His innovative approach and significant findings align well with the criteria for this prestigious recognition.

publication top notes

The sustainability and contribution of Generation Z influenced by hedonic and utilitarian values to use mobile money services for fee payment

Using a technology acceptance model to determine factors influencing continued usage of mobile money service transactions in Ghana

The contribution of government policy and financial security control in Ghana’s mobile money services

 

Xinxin Zhao | Engineering and Technology | Best Researcher Award

Xinxin Zhao | Engineering and Technology | Best Researcher Award

Dr Xinxin Zhao, School of Metallurgy, Northeastern University, China

Dr. Xinxin Zhao appears to be a strong candidate for the Best Researcher Award based on the following considerations.

Publication profile

Scopus

Research Focus and Innovations

Dr. Zhao specializes in the comprehensive utilization of metallurgical mineral solid waste and non-traditional aluminum resources. Her innovative approach involves the chlorination-oxygen pressure conversion method to extract valuable elements from low-grade bauxite, which addresses the challenges faced by traditional Bayer process treatments. This novel method not only enhances the exploitation of aluminum resources but also contributes to waste reduction and resource efficiency.

Notable Contributions

Co-Extraction of Aluminum and Silicon: Dr. Zhao’s work on the carbochlorination process of low-grade bauxite, published in Materials (2024), focuses on the extraction kinetics and valuable element recovery. Synergistic Extraction from Fly Ash: In her recent publication in the Journal of Sustainable Metallurgy (2024), she explores the extraction of valuable elements from high-alumina fly ash using carbochlorination, showcasing her contributions to sustainable metallurgy. Review on Chitosan Composites: The review article in Polymer Bulletin (2022) by Zhao and colleagues highlights advances in chitosan and its composites, emphasizing her diverse research interests and impact in material science.

Support and Recognition

Dr. Zhao’s research is supported by major funding bodies, including:

  • National Key Research and Development Program of China
  • National Natural Science Foundation of China
  • Cross-Integration and Collaborative Development Project of Northeastern University
  • Natural Science Foundation Joint Fund of Liaoning Province

Research Output and Impact

Her publications span several high-impact journals and include both original research and reviews, reflecting her active engagement in the academic community. Notably, her work on chitosan membranes and aluminum dross treatment has received considerable citations, indicating its significance and influence.

Summary

Dr. Xinxin Zhao’s innovative methodologies, substantial contributions to resource utilization, and strong support from prestigious funding agencies make her a deserving candidate for the Best Researcher Award. Her research not only advances scientific knowledge but also offers practical solutions for sustainable resource management.

Publication top notes

Co-Extraction of Aluminum and Silicon and Kinetics Analysis in Carbochlorination Process of Low-Grade Bauxite

Synergistic Extraction of Valuable Elements from High-Alumina Fly Ash via Carbochlorination

Review on preparation and adsorption properties of chitosan and chitosan composites

Removal of Fluorine, Chlorine, and Nitrogen from Aluminum Dross by Wet Process

Study on Water Model Experimental of Waste Circuit Board Treatment by Top-Blowing Bath Smelting Method

Research Progress of Chitosan Membranes in Pervaporation Separation 

 

Ming-Yen Wei | Engineering and Technology | Best Researcher Award

Ming-Yen Wei | Engineering and Technology | Best Researcher Award

Assist Prof Dr Ming-Yen, Wei National Formosa University, Department of Electrical Engineering, Taiwan

Assist. Prof. Dr. Ming-Yen was born in Taichung City, Taiwan 🇹🇼 on April 20, 1983. He earned his Bachelor’s and Master’s degrees in Electrical Engineering from National Formosa University in 2005 and 2007, and his Ph.D. from National Taiwan University of Science and Technology in 2012 🎓. After a decade in industrial technical roles, he joined National Formosa University as an Assistant Professor in early 2023 👨‍🏫. His research interests include motor drive control, embedded systems, control theory applications, mechatronics, and robotics 🤖⚙️.

Publication profile

Scopus

Research focus

Dr. Ming-Yen Wei’s research primarily focuses on the design, control, and implementation of advanced motion control systems and platforms. His work encompasses the development of servo control systems, multi-axis motion chairs, and flight simulators, utilizing CAN bus and microcontroller technologies. Additionally, he has contributed to the creation of motion-cueing algorithms and inverse kinematics for six degrees of freedom (6DoF) platforms. His research has significant applications in robotics, aerospace, and virtual reality simulations, showcasing innovations in precision motion control and system integration.

Publication top notes

Design and Control of a Three-Axis Motion Servo Control System Based on a CAN Bus

Design and Implementation of a New Training Flight Simulator System

Design and Control of a Multi-Axis Servo Motion Chair System Based on a Microcontroller

Design of a DSP-Based Motion-Cueing Algorithm Using the Kinematic Solution for the 6-DoF Motion Platform

Design and implementation of inverse kinematics and motion monitoring system for 6dof platform

Optimal Control-based Motion Cueing Algorithm Design for 6DOF Motion Platform

Design and Implementation of the Inverse Kinematics and Monitoring Module for Six-axis Crank Arm Platform

Design, Analysis, and Implementation of a Four-DoF Chair Motion Mechanism