Mr. Jamal Rahimi | Best Researcher Award - Winners 2023

Mr. Jamal Rahimi |Environmental Chemistry

Congratulations, Jamal Rahimi, on achieving the distinguished Best Research Award from Technische Universität Dresden in Germany! We are delighted to extend our heartfelt congratulations on this outstanding accomplishment, highlighting your exceptional contributions to the world of research.

Your dedication to excellence in research not only brings honor to your name but also enhances the prestige of Technische Universität Dresden. Your passion for advancing knowledge and making significant strides in your field is truly commendable.

EARLY ACADEMIC PURSUITS:

Jamal Rahimi began his academic journey with a Bachelor's degree in Pure Chemistry from Azarbaijan Shahid Madani University, Tabriz, Iran. This laid the foundation for his subsequent advanced studies in organic chemistry.

PROFESSIONAL ENDEAVORS:

His professional journey includes a Ph.D. in Organic Chemistry from Iran University of Science and Technology, Tehran, Iran, where he focused on the synthesis, design, and characterization of nanopolymer covalent organic frameworks (COFs) and their applications in contamination removal and drug delivery.

CONTRIBUTIONS AND RESEARCH FOCUS:

Jamal Rahimi's research contributions center around the synthesis of various organic compounds, including nanopolymer COFs, and their practical applications in areas such as contamination removal and drug delivery. His work showcases a blend of theoretical knowledge and practical applications in the field of organic chemistry.

IMPACT AND INFLUENCE:

Rahimi's impact is evident through his recognition as a top researcher multiple times at Iran University of Science and Technology. His involvement in various catalytic and nanocomposite projects suggests potential influence on advancements in the field.

NOTABLE PUBLICATION

Synergistic catalytic effect between ultrasound waves and pyrimidine-2,4-diamine-functionalized magnetic nanoparticles: Applied for synthesis of 1,4-dihydropyridine pharmaceutical derivatives

The Google Scholar h-index of 18 indicates a notable impact, showcasing the influence of Jamal Rahimi's work in the academic community.

EXPERIENCE:

Jamal Rahimi has served as the Head of Organic Chemistry Laboratory at the Department of Chemistry, Iran University of Science and Technology, showcasing leadership and organizational skills. His role as a Research Assistant and Teaching Assistant further emphasizes his commitment to both research and education.

LEGACY AND FUTURE CONTRIBUTIONS:

Rahimi's legacy is characterized by his leadership in the organic chemistry laboratory and his contributions to research, particularly in the synthesis of nanocomposites and catalysis. His extensive publications and involvement in various projects position him for continued contributions and potential advancements in the future.

EDUCATION:

Jamal Rahimi pursued a Ph.D. at Iran University of Science and Technology and is currently a Visiting Ph.D. candidate at Technische Universität Dresden, Germany. His educational background reflects a consistent focus on advancing knowledge in the field of organic chemistry.

RESEARCH INTERESTS:

Rahimi's research interests encompass a wide range of topics, including organic synthesis, catalyst synthesis, catalyzed reactions, and covalent organic frameworks (COFs). These interests indicate a comprehensive exploration of various aspects within organic chemistry.

In conclusion, Jamal Rahimi's academic and professional journey is characterized by a commitment to organic chemistry research, leadership roles, and a diverse skill set. His legacy and potential future contributions are evident through impactful research, recognition as a top researcher, and active involvement in various projects and publications.

DR. Abdul Baess Keyhani | Best Researcher Award - Award Winner 2023

DR. Abdul Baess Keyhani | Urban Planning

Congratulations, Abdul Baess Keyhani, on receiving the esteemed Best Research Award from Huazhong Agriculture University in China! We are thrilled to extend our heartfelt congratulations on this remarkable achievement, highlighting your exceptional contributions to the field of research.

Your dedication to excellence in research not only brings honor to your name but also enhances the prestige of Huazhong Agriculture University. Your passion for advancing knowledge and making significant strides in your field is truly commendable.

EARLY ACADEMIC PURSUITS:

Abdul Baess Keyhani initiated his academic journey, which is not explicitly detailed in the provided content. His background, evident from his later pursuits, includes a focus on forestry and natural resources.

PROFESSIONAL ENDEAVORS:

Keyhani's professional journey is marked by significant roles in academia and forestry management. He has served as the Head of Forest & Natural Resources Department and as a Lecturer at the Agriculture Faculty of Badghis University, Afghanistan. His responsibilities encompassed lecturing, technical consulting, inspections, and curriculum development.

CONTRIBUTIONS AND RESEARCH FOCUS:

While specific details about Keyhani's contributions and research focus are not provided, his roles as a lecturer and head of a department suggest a commitment to forestry, agriculture, and education. His emphasis on experiential learning and curriculum development underscores a dedication to innovative teaching methodologies.

IMPACT AND INFLUENCE:

Keyhani's impact and influence in the field of forestry and agriculture can be inferred from his leadership roles in education. His contributions to curriculum development and motivation of students suggest an influence on the learning environment and, potentially, on future professionals in the field.

ACADEMIC CITES:

The content does not provide specific information about Abdul Baess Keyhani's citation metrics or the impact of his academic publications.

LEGACY AND FUTURE CONTRIBUTIONS:

While details about Keyhani's legacy are not explicitly mentioned, his commitment to education and forestry positions him to contribute significantly to the development of future professionals and advancements in forestry science.

EDUCATION AND TRAINING:

Abdul Baess Keyhani pursued a Ph.D. in Forest Landscape Architecture at Huazhong Agriculture University (HZAU) in China, following a Master's and Bachelor's degree in Forestry Science and Forests & Natural Resources, respectively. These academic achievements indicate a comprehensive educational background.

LANGUAGE SKILLS:

Keyhani is proficient in Persian, his mother tongue, and demonstrates basic proficiency (Levels A1 and A2) in another language (not specified).

RESEARCH INTERESTS:

Keyhani's research interests span a wide range of environmental and forestry topics, including ecology restoration, forest ecology, biodiversity conservation, and sustainable farmland practices.

SCHOLARSHIP/AWARDS:

Abdul Baess Keyhani has received the Chinese Government Scholarship for both his MSc and Ph.D. programs, along with certificates from international conferences in Japan and model United Nations Conference in China.

NOTABLE PUBLICATIONS:

Border row effects on the distribution of root and soil resources in maize–soybean strip intercropping systems.

CO-CURRICULAR AND EXTRA-CURRICULAR ACTIVITIES:

Keyhani has engaged in various activities, including founding the Department of Research and Development for Students, serving on the examination committee, and delivering speeches at orientation and commencement events. He has also participated in cultural events such as the New Year Gala.

In conclusion, Abdul Baess Keyhani's journey encompasses a rich tapestry of academic achievements, professional roles in forestry and education, diverse skills, and a commitment to research and student development. His contributions to academia and forestry science position him as a potential influencer and contributor to future advancements in the field.

Feridun Esmaeilzadeh | Best Researcher Award  - Award Winner - 2023

Feridun Esmaeilzadeh | Environmental Engineering.

Congratulations, Feridun Esmaeilzadeh, on receiving the esteemed Best Research Award from Shiraz University in Iran! We are delighted to extend our heartfelt congratulations on this outstanding achievement, showcasing your remarkable contributions to the world of research.

Your dedication to excellence in research not only brings honor to your name but also elevates the prestige of Shiraz University. Your passion for advancing knowledge and making significant strides in your field is truly commendable.

EARLY ACADEMIC PURSUITS:

Feridun Esmaeilzadeh embarked on his academic journey with a focus on Chemical Engineering. The details provided do not specify his early academic pursuits, but it can be inferred that his foundation in chemical engineering laid the groundwork for his subsequent achievements.

PROFESSIONAL ENDEAVORS:

Dr. Esmaeilzadeh currently holds a position in the Chemical Engineering Department at the School of Chemical and Petroleum Engineering, Shiraz University, Iran. Additionally, he is affiliated with the Enhanced Oil and Gas Recovery Institute, particularly the Advanced Research Group for Gas Condensate Recovery at Shiraz University. These affiliations signify his engagement in both academic and research-oriented roles.

CONTRIBUTIONS AND RESEARCH FOCUS:

Esmaeilzadeh's contributions and research focus are not explicitly mentioned in the provided content. However, given his academic position and association with the Enhanced Oil and Gas Recovery Institute, it can be inferred that his work likely involves advancements in chemical engineering, particularly in the domain of oil and gas recovery.

NOTABLE PUBLICATION

Sustainable biodiesel production from waste cooking oil using banana peel biochar-Fe₂O₃/Fe₂K₆O₅ magnetic catalyst

Solubility prediction of CO2 in ionic liquids under subcritical and supercritical carbon dioxide conditions by the adaptive neuro-fuzzy inference system.

Hydrogen sulfide removal from normal heptane using zinc oxide, silicon dioxide and zeolite 13X: adsorption capacity, kinetics, selectivity, breakthrough and regeneration

Modeling and Experimental Investigation of Sulfurous Compounds Removal from Gas Condensate through Ultrasound-Assisted Oxidative Desulfurization Method

Assessment of Agricultural Residue to Produce Activated Carbon-Supported Nickel Catalysts and Hydrogen Rich Gas

AUTHOR PROFILE:

Scopus

ORCID

SHORT COURSES ATTENDED:

The content does not provide specific details about any short courses attended by Dr. Esmaeilzadeh.

IMPACT AND INFLUENCE:

While the details provided do not offer insight into Dr. Esmaeilzadeh's impact and influence, his affiliations with the Enhanced Oil and Gas Recovery Institute and the Advanced Research Group for Gas Condensate Recovery suggest involvement in influential research and projects with potential industry impact.

EXPERIENCE:

Dr. Esmaeilzadeh's experience is rooted in his academic position at Shiraz University and his involvement with the Enhanced Oil and Gas Recovery Institute. The absence of specific details limits a comprehensive understanding of his professional experience.

LEGACY AND FUTURE CONTRIBUTIONS:

While the provided content does not elaborate on Dr. Esmaeilzadeh's legacy, his future contributions can be anticipated based on his current affiliations and academic position. As a faculty member engaged in oil and gas recovery research, his legacy may include advancements in the field and the training of future professionals in chemical engineering.

In conclusion, Feridun Esmaeilzadeh's professional journey is characterized by his academic role and involvement in oil and gas recovery research. Specific details about his contributions, research focus, and impact are not provided, but his affiliations suggest active engagement in advancing knowledge and technologies related to chemical engineering and resource recovery.

Ju-Ying Yang | Best Researcher Award - Award Winner 2023

Ju-Ying Yang |Environmental Policy and Management

Congratulations, Ju-Ying Yang, on receiving the prestigious Best Research Award from Kansas State University in the United States! We are thrilled to extend our heartfelt congratulations on this exceptional achievement, which underscores your remarkable contributions to the field of research.

Your dedication to excellence in research not only brings honor to your name but also elevates the reputation of Kansas State University. Your passion for pushing the boundaries of knowledge and making significant strides in your field is truly commendable.

EARLY ACADEMIC PURSUITS

In 2023, the individual embarked on a Visiting Assistant Professor role at the Department of Political Science, Kansas State University, following the successful completion of a Ph.D. in Public Administration and Policy from the University at Albany, State University of New York. The doctoral dissertation focused on "How Municipalities Transition to Renewable Energy and Address Problems that Occur in the Process: A Comparative Case Study of Four Texas Municipalities."

PROFESSIONAL ENDEAVORS

Having achieved a Master's degree in Public Administration and Policy from Florida State University in 2012 and a Bachelor's degree in Public Administration and Policy/Accounting from National Taipei University in 2009, the individual's professional journey has been characterized by diverse experiences. This includes serving as a Graduate Assistant at the International Student and Scholar Services, University at Albany, State University of New York, and as an Assistant Research Fellow at the Taiwan Institute of Economic Research.

CONTRIBUTIONS AND RESEARCH FOCUS

The individual's research experience spans various roles, notably as a Research Assistant at the University at Albany, where responsibilities included collecting, coding, and analyzing public hearing transcripts. The individual has also contributed significantly to projects such as "Political Interpretation of Evidence in Contested Agency Hearings: The Case of Hydraulic Fracturing in New York" and "Pathways to a Sustainable Energy Future: A Comparative Case Study of Four Texas Municipalities."

NOTABLE PUBLICATION

Local Energy Transitions as Process: How Contract Management Problems Stymie a City’s Sustainable Transition to Renewable Energy.

AUTHOR PROFILE

ORCID

Google Scholar

IMPACT AND INFLUENCE

The individual has made impactful contributions with refereed journal publications and a forthcoming book chapter. Noteworthy is the publication in "Energy Policy" titled "Local Energy Transitions as Process: How Contract Management Problems Stymie a City’s Sustainable Transition to Renewable Energy."

ACADEMIC CITES

The individual's scholarly impact is reflected in presentations at conferences and involvement in projects, presenting findings at international conferences like the 6th International Conference on Public Policy (ICPP6) in Toronto, Canada, and the Association for Budgeting and Financial Management annual conference in Miami, FL.

EXPERIENCE

With teaching experiences both as a Teaching Assistant and a Visiting Assistant Professor, the individual has covered a range of courses in political science and public administration, including subjects like Public Personnel Administration, Strategic Management of Public and Nonprofit Organizations, and Intergovernmental Relations.

LEGACY AND FUTURE CONTRIBUTIONS

The legacy and future contributions of the individual are yet to unfold fully. However, the groundwork has been laid through research, teaching, and active participation in conferences, suggesting a promising trajectory in academia and public policy.

In summary, the academic and professional journey of the individual showcases a commitment to research excellence, teaching, and contributions to the understanding of sustainable energy transitions and public policy. The blend of educational achievements, research endeavors, and teaching experiences positions the individual as a promising scholar in the field of public administration and policy.

 

Prof. Anders Lyngfelt | Best Researcher Award - Award Winner 2023

Prof. Anders Lyngfelt | Climate Change Mitigation and Adaptation

Congratulations, Anders Lyngfelt, on achieving the distinguished Best Research Award from the University of Technology in Sweden! We extend our heartfelt pride and congratulations on this remarkable accomplishment, which serves as a testament to your outstanding contributions to the world of research.

Your dedication to excellence in research not only brings immense honor to your name but also adds prestige to the University of Technology. Your passion for pushing the boundaries of knowledge and making significant strides in your field is truly commendable.

EARLY ACADEMIC PURSUITS

Anders Lyngfelt obtained his Ph.D. in Energy Conversion in 1988 and was subsequently appointed as a Docent in Energy Technology in 1992. His academic journey continued as he achieved the position of Professor in 1999. In the early phase of his academic career, before 1998, Lyngfelt primarily focused on fluidized bed combustion, delving into areas such as the sulfur capture process, the impact of reducing conditions, nitrous oxide emission, and combustion progress.

PROFESSIONAL ENDEAVORS

Lyngfelt transitioned his main field of research to chemical-looping combustion (CLC) after 1998, making significant contributions to the development of oxygen-carrier materials for the process. He successfully demonstrated sustained operation of CLC in a 10 kW prototype unit for gaseous fuel in 2003. Under his leadership, Chalmers achieved several milestones in CLC, including the first operation of a 10 kW unit designed for solid fuel (2006) and CLC with liquid fuels (2011). Chalmers now boasts substantial operational experience in CLC with various fuels.

CONTRIBUTIONS AND RESEARCH FOCUS

Anders Lyngfelt has become a world leader in CLC, having investigated over 500 different oxygen carrier materials in laboratory settings and over 70 in actual operation. His breakthroughs include proposals for chemical-looping steam reforming, Chemical-Looping with Oxygen Uncoupling (CLOU), and a novel system for circulation in a 200 MW design of combined CFB-CLC. Additionally, he has proposed a policy instrument for CO2 emitter liability with financial deposits for emissions removal.

NOTABLE PUBLICATION

Study of the interaction between a Mn ore and alkali chlorides in chemical looping combustion.

Operational experiences of chemical-looping combustion with 18 manganese ores in a 300W unit.

Alkali emissions characterization in chemical looping combustion of wood, wood char, and straw fuels.

Steam Methane Reforming with Chemical-Looping Combustion: Scaling of Fluidized-Bed-Heated Reformer Tubes.

Performance of a volatiles distributor equipped with internal baffles under different fluidization regimes.

AUTHOR PROFILE

Scopus

ORCID

IMPACT AND INFLUENCE

Lyngfelt's impact is evident in his role as a Highly Cited Researcher in 2019, recognized by Web of Science. His work has earned him a place among the top 1% researchers for most cited documents in his specific field. He has been ranked as the 2nd most productive and cited researcher in Sweden in the area of physics and technology.

ACADEMIC CITES

Anders Lyngfelt's academic record includes authoring or co-authoring 246 scientific publications, accumulating 20,922 citations, with an H-index of 76 (Scopus, December 2023). His contributions have been recognized with a Special Issue in the journal Energy & Fuels titled "Pioneers in Energy Research: Anders Lyngfelt."

EXPERIENCE

Lyngfelt has played a pivotal role in organizing international conferences, including the 3rd International Conference on Chemical-Looping in 2014 and the 1st and 2nd International Conferences on Negative CO2 Emissions in 2018 and 2022, respectively.

LEGACY AND FUTURE CONTRIBUTIONS

Anders Lyngfelt's legacy is deeply rooted in advancing CLC technology, showcasing operational successes and proposing innovative policy instruments for emissions. His future contributions may involve continued leadership in CLC research, participation in international collaborations, and further advancements in sustainable energy technologies.

In summary, Anders Lyngfelt's academic and research journey demonstrates a profound commitment to advancing clean energy technologies, particularly in the realm of chemical-looping combustion. His influential contributions, extensive citations, and leadership in conferences underscore his significant impact on the field.