Month: October 2024

🎓 Early Academic Pursuits

Dr. Peng Zhao began his academic journey with a strong foundation in materials science, which ultimately led him to pursue advanced studies in electronic materials and components. He completed his Bachelor of Science in Materials Physics at Shaanxi University of Science and Technology in June 2016, where he demonstrated exceptional dedication and aptitude. Following this, he obtained his Master of Engineering in Materials Science and Engineering from the University of Electronic Science and Technology of China (UESTC) in June 2018, further enhancing his knowledge and expertise in the field. This solid educational background set the stage for his future research in electronic ceramic physics.

💼 Professional Endeavors

Dr. Zhao's professional endeavors are characterized by his commitment to advancing the field of electronic ceramic physics. Since obtaining his Ph.D. in Electronic Materials and Components from UESTC in September 2022, he has focused on researching energy storage mechanisms for novel materials and devices. His work involves exploring the properties of ferroelectric, piezoelectric, and pyroelectric materials, as well as investigating the effects of material modification and structural design on dielectric and ferroelectric properties.

🔬 Contributions and Research Focus

Dr. Zhao's research contributions are significant, particularly in the areas of energy storage mechanisms and the phase transitions of functional materials. His research on the transformation kinetics model has provided valuable insights into how materials behave under different conditions. Additionally, his exploration of electrochemistry and ion transfer kinetics contributes to the development of advanced energy storage solutions. His findings are instrumental in enhancing the performance and efficiency of electronic devices and systems.

🌍 Impact and Influence

The impact of Dr. Zhao's research on electronic ceramic physics is reflected in his contributions to the scientific community. He has been recognized for his efforts, receiving several honors and awards during his academic career, including the “Third Prize” from UESTC in 2019 and the “Outstanding Graduate” award from SUST in 2016. His research influences not only academic discourse but also practical applications in materials science, as it addresses critical challenges in energy storage and materials performance.

🏆Academic Cites

Dr. Zhao's work in electronic ceramic physics has been published in reputable journals, contributing to his growing citation record. His innovative research findings are frequently cited by other scholars, demonstrating the relevance and importance of his contributions to the field. The increasing academic interest in his work underscores the impact of his research on advancing knowledge and technology in electronic materials.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Peng Zhao is poised to continue making significant contributions to the field of electronic ceramic physics. His ongoing research in energy storage mechanisms and the properties of functional materials promises to advance both theoretical and practical understanding in these areas. As he continues to explore new avenues in materials science, his legacy will be defined by his innovative approaches and impactful findings that shape the future of electronic materials and devices.

📝Electronic Ceramic Physics

Dr. Peng Zhao’s research in electronic ceramic physics focuses on energy storage mechanisms for novel materials, contributing to advancements in this critical field. His investigations into the properties of ferroelectric and piezoelectric materials underscore the importance of electronic ceramic physics in developing innovative energy storage solutions. The future of electronic ceramic physics is bright, with Dr. Zhao leading the way through his pioneering research and contributions to materials science.

Notable Publication

📝Constructing interlaced network structure by grain boundary corrosion methods on CrCoNiFe alloy for high-performance oxygen evolution reaction and urea oxidation reaction

Authors: Q. Liu, F. Zhao, X. Yang, Q. Wang, Q. Zhang

Journal: Journal of Materials Science and Technology

Year: 2024

Citations: 1

📝Ru nanocrystals modified porous FeOOH nanostructures with open 3D interconnected architecture supported on NiFe foam as high‐performance electrocatalyst for oxygen evolution reaction and electrocatalytic urea oxidation

Authors: P. Zhao, Q. Liu, X. Yang, J. Zhu, Q. Zhang

Journal: Journal of Colloid and Interface Science

Year: 2024

Citations: 0

📝Metal-organic nanosheet assembly ions sieving membrane for precise lithium ion and anion/solvent separation toward robust lithium metal battery

Authors: J.-Q. Shen, T.-T. Zhao, Y.-L. Song, P. Zhao, X.-M. Zhang

Journal: Science China Chemistry

Year: 2024

Citations: 0

📝Precise synthesis of In–Bi alloy nanodroplets through controlled surface reactions on a Si(111) surface at ambient temperature

Authors: S. Du, J. Li, P. Zhao, X. Niu, Z. Wang

Journal: Vacuum

Year: 2024

Citations: 0

📝Carbon-incorporated NaTi2(PO4)3 on carbon cloth as a binder-free anode material for high-performance aqueous sodium-ion hybrid capacitors

Authors: P. Zhao, X. Yang, Q. Liu, L. Chen, Q. Zhang

Journal: Journal of Porous Materials

Year: 2024

Citations: 0

📝Morphological evolution and electrochemical properties of MZCO-0.3 regulated by non-variable valence ions

Authors: X. Lei, Y. Zhang, J. Han, W. Guo, Y. Zhang

Journal: Journal of Power Sources

Year: 2024

Citations: 0

Brian Wells – Metamaterials and Metasurfaces – Best Researcher Award

Posted on 16/10/202416/10/2024 by AMO Physics

Dr. Brian Wells - Metamaterials and Metasurfaces - Best Researcher Award

University of Hartford - United States

Author Profile

🎓 Early Academic Pursuits

Dr. Brian Wells began his academic journey in Physics at Clark University, where he graduated with a B.A. in Physics in 2004, completing an honors thesis on low-dimensional quantum magnetic systems. His curiosity and dedication to the field led him to pursue advanced studies at the University of Massachusetts Lowell. There, he earned both his M.S. and Ph.D. in Physics, focusing on the optical responses of plasmonic nanowire metamaterials. His dissertation, “Emission Modulation and Other Applications of Nonlocal Plasmonic Nanowire Metamaterials,” established a strong foundation for his future research endeavors.

💼 Professional Endeavors

Currently, Dr. Wells is an Associate Professor at the University of Hartford, where he has been a vital member of the Department of Physics since 2015. He has developed and taught a wide range of courses, including those on modern physics, quantum mechanics, and metamaterials. His role as Assistant Director of the NASA CT Space Grant Consortium demonstrates his commitment to fostering research and educational opportunities in the field of physics. Previously, he held various teaching and research positions, including substantial roles at the University of Massachusetts Lowell and experience as a high school physics teacher.

🔬 Contributions and Research Focus

Dr. Wells’ research focus centers on the fields of metamaterials and metasurfaces, emphasizing their computational and theoretical aspects. His work includes experimental research in fabrication and optical properties, particularly related to microwave metamaterials. He has made significant contributions to understanding the principles of magnetic frustration and randomized magnetic systems, utilizing advanced numerical simulations to explore the behavior of these materials. His investigations into metamaterials and metasurfaces have important implications for advancing optical technology.

🌍 Impact and Influence

The impact of Dr. Brian Wells extends across both academic and practical domains. His work in metamaterials and metasurfaces has garnered attention in the scientific community, contributing to advancements in photonics and materials science. He actively engages in interdisciplinary collaborations and has presented his findings at numerous conferences, influencing both peers and students. His dedication to education and research not only fosters a love for physics but also encourages the next generation of scientists to explore complex phenomena in metamaterials.

🏆Academic Cites

Dr. Wells has published extensively in leading scientific journals, with many of his works receiving significant citations. His research contributions on metamaterials and metasurfaces serve as essential resources for researchers in the field. The high citation rates of his publications highlight the relevance and application of his findings, underscoring his status as a respected scholar in the area of advanced materials.

🌟 Legacy and Future Contributions

As Dr. Wells continues to explore the frontiers of metamaterials and metasurfaces, his future contributions are poised to enhance our understanding and application of these technologies. His commitment to mentoring students and collaborating with fellow researchers ensures a lasting impact on the field. With ongoing projects and potential innovations, Dr. Wells’ legacy will undoubtedly inspire future advancements in the physics of metamaterials.

📝Metamaterials and Metasurfaces

Dr. Brian Wells has dedicated his research to the study of metamaterials and metasurfaces, contributing to advancements in the understanding and application of these innovative materials. His investigations into metamaterials and metasurfaces have significant implications for the fields of optics and photonics. Through his teaching and research, Dr. Wells continues to advance the frontiers of knowledge in metamaterials and metasurfaces, shaping the future of materials science and technology.

Notable Publication

📝A copper(II) chloride coordination compound with an adamantane-like core

Authors: B.A. Mukda, C.P. Landee, M. Rademeyer, M.M. Turnbull, B.M. Wells

Journal: Journal of Coordination Chemistry

Year: 2023

Citations: 2

📝Generation of arbitrarily directed split beams with a reflective metasurface

Authors: R.J. Williams, A.M. Gjonbalaj, K.D. Green, B.M. Wells

Journal: Optics Express

Year: 2022

Citations: 2

📝Angle-insensitive plasmonic nanorod metamaterial-based band-pass optical filters

Authors: B.M. Wells, F. Lotti, M.E. Nasir, A.V. Zayats, V.A. Podolskiy

Journal: Optics Express

Year: 2021

Citations: 5

📝Field Enhancement and Ultrafast Plasmonics in Nonlocal Transitional Metamaterials

Authors: B. Wells, R.M. Cordova-Castro, A.V. Zayats, V.A. Podolskiy

Conference: 2019 Conference on Lasers and Electro-Optics (CLEO 2019)

Year: 2019

Citations: 0

📝Strong structural nonlinearity from plasmonic metamaterials in the infrared

Authors: B.M. Wells, A.Yu. Bykov, G. Marino, A.V. Zayats, V.A. Podolskiy

Conference: Optics InfoBase Conference Papers, NLO 2019

Year: 2019

Citations: 0

Yonas Etafa Tasisa – Materials science – Young Scientist Award

Posted on 15/10/202415/10/2024 by AMO Physics

Dr. Yonas Etafa Tasisa - Materials science - Young Scientist Award

Indian institute of technology Indore and Wollega university - Ethiopia

Author Profile

🎓 Early Academic Pursuits

Dr. Yonas Etafa Tasisa began his academic journey with a strong focus on science and engineering. His early education at Lalo Kile Elementary and Secondary Schools laid a solid foundation for his future academic achievements. He later pursued a BSc degree in Applied Physics at Ambo University, where he graduated with an impressive 3.85/4.00 GPA. Driven by a passion for physics and material science, Dr. Yonas furthered his studies at Wollega University, completing an MSc degree in Physics with an exceptional 3.95/4.00 GPA. His academic journey reflects his dedication to the fields of physics and materials science, culminating in his ongoing PhD studies at the Indian Institute of Technology (IIT) and Wollega University.

💼 Professional Endeavors

Dr. Yonas has accumulated a wealth of professional experience at Wollega University, where he has served in various roles, from Graduate Assistant to Lecturer. His professional endeavors have been marked by his commitment to higher education and research. Since 2022, he has been a full-time PhD candidate, focusing on advanced research in nanotechnology at IIT Indore and Wollega University. His work in teaching and research has significantly contributed to the academic community, particularly in the areas of materials science and nanotechnology.

🔬 Contributions and Research Focus

Dr. Yonas Etafa Tasisa’s research focuses on materials science and nanotechnology, with a specific emphasis on the synthesis, processing, and characterization of nanostructured materials. His PhD work centers on the experimental aspects of nanotechnology, exploring the fabrication and characterization of magnetic, superconducting, and multiferroic materials. Additionally, his research includes the study of materials science applications in high-energy solar cells and solar batteries. Dr. Yonas's contributions to this field are substantial, particularly in the development of nanocrystalline materials and their potential applications in electronics and photonics.

🌍 Impact and Influence

Dr. Yonas’s work has had a significant impact on the field of materials science. His research on nanoscale materials, particularly graphene, carbon nanotubes, and nanocrystalline magnetic materials, has contributed to advancements in electronic and photonic technologies. He has also made notable strides in the development of energy-efficient solar cells and batteries. His influence extends beyond the laboratory, as his work has inspired students and colleagues alike, contributing to the growing body of knowledge in nanotechnology and material sciences.

🏆Academic Cites

Dr. Yonas’s research has been recognized within the academic community, with his work being cited in various scientific journals. His contributions to materials science and nanotechnology are widely acknowledged, particularly in the areas of magnetic and electronic materials. The innovative approaches he employs in his experimental studies continue to be referenced by peers and researchers, underscoring the importance of his work in advancing the field.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Yonas Etafa Tasisa is poised to make even greater contributions to the fields of nanotechnology and materials science. His ongoing PhD research promises to yield new insights into the fabrication and application of nanostructured materials. His future contributions are expected to further advance the understanding and utilization of nanotechnology in energy solutions, electronics, and beyond. Dr. Yonas's commitment to education and research ensures that his legacy will continue to influence future generations of scientists and engineers.

📝Notable Publication

📝Phytosynthesis and characterization of tin-oxide nanoparticles (SnO2-NPs) from Croton macrostachyus leaf extract and its application under visible light

Authors: YE Tasisa, TK Sarma, TK Sahu, R Krishnaraj

Journal: Scientific Reports

Year: 2024

Citations: 2

📝Band gap engineering of titanium dioxide (TiO2) nanoparticles prepared via green route and its visible light driven for environmental remediation

Authors: YE Tasisa, TK Sarma, R Krishnaraj, S Sarma

Journal: Results in Chemistry

Year: 2024

Tommaso Savioli – Internal combustion engines – Best Researcher Award

Posted on 14/10/202414/10/2024 by AMO Physics

Dr. Tommaso Savioli - Internal combustion engines - Best Researcher Award

Atris Engineering SRL - Italy

Author Profile

🎓 Early Academic Pursuits

Dr. Tommaso Savioli's academic journey began with a Bachelor's Degree in Mechanical Engineering from the University of Ferrara in 2010. His early focus was on mechanical engineering, specifically investigating grips for tensile tests on plastic materials. He continued his education with a Master's Degree in Vehicle Engineering from the University of Modena and Reggio Emilia, where he explored innovative solutions in the field of internal combustion engines. His thesis on the 3D CFD (KIVA-3V) study of scavenging processes in two-stroke engines set the foundation for his future work. Dr. Savioli completed his PhD in Industrial and Territorial Engineering in May 2022, with a thesis focusing on experimental and numerical analysis of non-conventional combustion processes in internal combustion engines.

💼 Professional Endeavors

Dr. Savioli's professional career is deeply rooted in the automotive industry, where he has collaborated with major companies such as General Motors and Maserati. His work includes the numerical and experimental development of an innovative two-stroke diesel engine at General Motors, as well as creating 1D vehicle models for Maserati to automate engine control system calibration. He also worked with Motori Minarelli on the numerical development of motorcycle engines using 1D CFD analysis. His extensive work on internal combustion engines includes experimental calibration, alternative fuel applications, and control system logic.

🔬 Contributions and Research Focus

Dr. Savioli’s research primarily revolves around internal combustion engines, particularly focusing on combustion processes, fluid dynamics, and fuel systems. His contributions to the field include a deep understanding of scavenging processes in two-stroke engines and the experimental analysis of alternative fuel applications like Dual Fuel and RCCI (Reactivity Controlled Compression Ignition). His patents, such as the two-stroke opposed piston engine and an exhaust system for a EUR5+ two-stroke engine, further demonstrate his commitment to innovation in the automotive sector. His experimental and numerical analysis of internal combustion engines has led to advancements in both academic research and industry applications.

🌍 Impact and Influence

Dr. Tommaso Savioli's influence in the automotive industry and academia is evident in his 19 publications, which have been cited 204 times, resulting in an impressive H-index of 8. His research on internal combustion engines has influenced both practical applications and academic theories. His collaborations with industry giants like General Motors, Maserati, and Motori Minarelli have contributed to significant advancements in engine design, fuel systems, and control mechanisms. As an educator, he has played a key role in shaping the next generation of vehicle engineers through his teaching support and advisorship for over 25 theses at the University of Modena and Reggio Emilia.

🏆Academic Cites

Dr. Savioli's research has garnered significant attention within the academic community, with 204 citations reflecting the relevance and impact of his work. His studies on internal combustion engines, fluid dynamics, and combustion processes are highly regarded, particularly in the fields of experimental and numerical analysis. His ability to bridge academic theory and practical application has led to innovations that are widely cited and used as a reference in further research and development within the automotive engineering domain.

🌟 Legacy and Future Contributions

Looking forward, Dr. Savioli’s legacy will continue to grow as he contributes further to both academic research and the automotive industry. His work on alternative fuel systems and non-conventional combustion processes has set a path for future advancements in engine efficiency and environmental sustainability. His dedication to innovation, as evidenced by his patents and extensive research, positions him as a thought leader in the evolution of internal combustion engines. Future contributions from Dr. Savioli are expected to push the boundaries of automotive engineering, driving the industry towards more efficient and sustainable solutions.

📝Notable Publication

📝Combustion Optimization of a Premixed Ultra-Lean Blend of Natural Gas and Hydrogen in a Dual Fuel Engine Running at Low Load

Authors: Rinaldini, C.A., Scrignoli, F., Savioli, T., Mattarelli, E.

Journal: SAE International Journal of Engines

Year: 2023

Citations: 1

📝Combustion Chamber Optimization for Dual-Fuel Biogas–Diesel Co-Combustion in Compression Ignition Engines

Authors: Caprioli, S., Volza, A., Scrignoli, F., Mattarelli, E., Rinaldini, C.A.

Journal: Processes

Year: 2023

Citations: 0

📝Optimization of the Combustion Chamber Design of a Natural Gas-Diesel Dual Fuel Engine Running at Low Load

Authors: Scrignoli, F., Savioli, T., Rinaldini, C.A.

Conference: ASME 2023 ICE Forward Conference

Year: 2023

Citations: 0

📝Hybrid-electric power unit for an ultralight aircraft

Authors: Pisapia, A.M., Volza, A., Savioli, T., Martini, P., Mattarelli, E.

Journal: Journal of Physics: Conference Series

Year: 2023

Citations: 1

📝Development of a Combustion System for a New Generation of 2-Stroke Spark Ignition Engines

Authors: Scrignoli, F., Mattarelli, E., Rinaldini, C., Savioli, T.

Journal: SAE Technical Papers

Year: 2022

Citations: 0

📝Design of a Novel 2-Stroke SI Engine for Hybrid Light Aircraft

Authors: Caprioli, S., Rinaldini, C., Mattarelli, E., Savioli, T., Scrignoli, F.

Journal: SAE Technical Papers

Year: 2021

Citations: 2

Cihat Boyraz – Material Physics – Best Researcher Award

Posted on 12/10/202412/10/2024 by AMO Physics

Assoc Prof Dr. Cihat Boyraz - Material Physics - Best Researcher Award

Marmara University - Turkey

Author Profile

🎓 Early Academic Pursuits

Assoc. Prof. Dr. Cihat Boyraz began his academic journey in the field of physics at Trakya University, where he earned his Bachelor of Science degree in Physics in June 2000. He continued to advance his education at Marmara University, completing his Master of Science degree in Physics in June 2004. Driven by a passion for material physics, he pursued a Ph.D. in the Department of Physics at Marmara University from October 2005 to April 2012. His doctoral thesis focused on innovative materials and techniques, laying the foundation for his future contributions to material physics.

💼 Professional Endeavors

Dr. Boyraz's professional career is distinguished by his significant contributions to material physics and his dedication to teaching and research. Currently, he serves as an Associate Professor in the Department of Mechanical Engineering at Marmara University, Istanbul, Turkey. His research interests encompass a wide range of areas, including nano-sized magnetic materials, thin film preparation, superconductivity, and photolithography. His extensive experience with high vacuum thin film amplification systems, electron spin resonance spectroscopy, and x-ray photoelectron spectroscopy has positioned him as a leading expert in his field.

🔬 Contributions and Research Focus

Dr. Boyraz has led numerous projects investigating various aspects of material physics. His ongoing research includes examining the effects of defects in ZnO nanomaterials on their optical, magnetic, and electrical properties, and exploring the structural, optical, and magnetic photocatalytic activity of ferrite nanoparticles doped with transition and rare earth elements. Additionally, he is focused on developing highly efficient rare earth element-doped thermoelectric compounds, which hold promise for energy conversion applications. His prior projects include significant work on superconductivity in BaFe2As2 compounds and the characterization of dilute magnetic semiconductor materials.

🌍 Impact and Influence

Dr. Boyraz's impact on material physics extends beyond his research contributions. He has been involved in international collaborations, such as the production of lithium ferrites and thermoelectric materials, which were supported by the U.S. Army Research Office and the Office of Naval Research. His expertise is sought after in academic and industry settings, leading to opportunities for him to share his knowledge through publications and conference presentations. Dr. Boyraz's research has been influential in advancing the understanding of magnetic materials and thin films, contributing to developments in various applications, including spintronics and thermoelectric devices.

🏆Academic Cites

Dr. Boyraz's work has been widely cited in academic literature, highlighting the significance of his contributions to material physics. His research findings have provided valuable insights into the behavior of nano-sized magnetic materials and the properties of thin films, influencing subsequent studies and applications in the field. His publications reflect his commitment to advancing knowledge in material physics, and he is recognized as a leading figure in this area.

🌟 Legacy and Future Contributions

Looking ahead, Assoc. Prof. Dr. Cihat Boyraz aims to continue his impactful contributions to material physics through both teaching and research. He is dedicated to mentoring the next generation of physicists, fostering innovation and excellence in the discipline. His ongoing research endeavors will likely lead to new discoveries and advancements in material properties, further establishing his legacy in material physics. Through his work, he aspires to influence the future direction of research and applications in the field, solidifying his role as a prominent figure in material physics.

📝Notable Publication

📝Structural and magnetic properties of superconductive YFeSb1.2 compound

Author: Boyraz, C.

Journal: International Journal of Modern Physics B

Year: 2024

Citations: 0

📝Short-Range Magnetic Order at Low Temperatures, Exchange Bias, and Negative Magnetization in Undoped CuCrO2

Authors: Boyraz, C., Aksu, P., Guler, A., Oner, Y., Fujioka, M.

Journal: Journal of Electronic Materials

Year: 2023

Citations: 1

📝Superconductivity and magnetism in a novel La0.85Ga0.15FeAsO compound

Authors: Boyraz, C., Aksu, P., Guler, A., Oner, Y.

Journal: Physica C: Superconductivity and its Applications

Year: 2022

Citations: 1

📝The Investigation of Effect of Defects on the Structural, Optical, and Magnetic Properties of CuAlO2

Authors: Boyraz, C., Guler, A., Karataş, Ö., Alphan, M.C., Arda, L.

Journal: Acta Physica Polonica A

Year: 2022

Citations: 0

📝The concentration effects on structural and magnetic properties of Fe2V1-xMnxGe Heusler alloys

Authors: Boyraz, C., Guler, A., Aksu, P., Arda, L.

Journal: SN Applied Sciences

Year: 2022

Citations: 2

📝The effect of defects formed under pressure on CuCrO2 delafossite

Authors: Boyraz, C., Aksu, P., Guler, A., Arda, L.

Journal: SN Applied Sciences

Year: 2022

Citations: 2

Dienifer Horsth – Near Infrared Spectroscopy – Best Researcher Award

Posted on 12/10/202412/10/2024 by AMO Physics

Dr. Dienifer Horsth - Near Infrared Spectroscopy - Best Researcher Award

UNICENTRO - Brazil

Author Profile

🎓 Early Academic Pursuits

Dr. Dienifer Fernanda Lopes Horsth embarked on her academic journey with a Bachelor's Degree in Chemistry from the State University of Centro-Oeste (UNICENTRO) in 2017. During her undergraduate studies, she focused on Inorganic Chemistry, specifically on aluminum recovery, through her Scientific Initiation (2014-2017). Her early academic experiences set the foundation for her later work in aluminum recycling and synthetic inorganic pigments, showcasing her passion for sustainability and material chemistry.

💼 Professional Endeavors

Dr. Horsth pursued a Master's Degree in Applied Chemistry at UNICENTRO (2018-2020), where she concentrated on the recycling of aluminum to obtain colored aluminates that could be applied as synthetic inorganic pigments. Her research was rooted in sustainability and material reuse, providing eco-friendly solutions for pigment production. She furthered her academic achievements by earning a Ph.D. in Sciences from the Université de Mons (UMONS) (2022-2024). Dr. Horsth is currently continuing her doctoral work at UNICENTRO, focusing on the synthesis and application of boehmite oxide-hydroxide through metallic aluminum recycling.

🔬 Contributions and Research Focus

Dr. Horsth has made significant contributions to the fields of Inorganic Chemistry, material recycling, and synthetic pigments. Her research has led to the development of eco-friendly materials such as colored aluminates and boehmite oxide-hydroxide, which have applications in environmental sustainability and waste material repurposing. A recurring theme in her work is the emphasis on Near Infrared Spectroscopy as a tool for characterizing materials and evaluating their performance in various applications. This technology has allowed her to refine the synthesis process and ensure that her materials exhibit the desired infrared reflectance, making them valuable for cool coatings and other innovative uses.

🌍 Impact and Influence

Dr. Horsth's research has been published extensively in respected journals, where she has collaborated with a wide range of scholars. Her work on sustainable blue pigments, such as those produced from recycled aluminum for cool coatings, demonstrates the practical and environmental benefits of her research. Additionally, her studies on the use of Near Infrared Spectroscopy in evaluating the properties of pigments and coatings have positioned her as a key figure in the development of sustainable materials that meet both performance and environmental standards.

🏆Academic Cites

Dr. Horsth’s publications have garnered considerable attention, reflecting the impact of her work in both Inorganic Chemistry and sustainability research. Notable publications include articles in journals like Physchem, RSC Sustainability, and Molecules, where her research on topics like the removal of Cr(III) using MgO and the development of eco-friendly pigments has been cited by academics and industry professionals alike. Near Infrared Spectroscopy has been a central method in many of these studies, aiding in material characterization and helping to establish new standards for the use of recycled materials in industrial applications.

🌟 Legacy and Future Contributions

Dr. Horsth's legacy in the field of Inorganic Chemistry is rooted in her commitment to developing sustainable technologies and promoting the circular economy. By focusing on recycling waste materials, such as aluminum, and transforming them into valuable resources like pigments and oxide-hydroxide compounds, she has laid the groundwork for future advancements in material science. Her continued work on the application of Near Infrared Spectroscopy for improving material synthesis and ensuring environmental compliance will undoubtedly influence future researchers and industries that are seeking sustainable alternatives.

📝Near Infrared Spectroscopy

As Dr. Horsth progresses in her career, her expertise in recycling processes, sustainable pigment synthesis, and the application of Near Infrared Spectroscopy will likely lead to further breakthroughs in both academic and industrial sectors. Her focus on eco-friendly materials is expected to continue evolving, with potential expansions into advanced coatings, water purification, and other applications where her recycled materials can make a significant environmental impact.

Notable Publication

📝Synthesis of Periclase Phase (MgO) from Colloidal Cassava Starch Suspension, Dual Application: Cr(III) Removal and Pigment Reuse

Authors: Balaba, N., Primo, J.D.O., Sotiles, A.R., Bittencourt, C., Anaissi, F.J.

Journal: Physchem

Year: 2024

Citations: 0

📝Raw Smectite from the Guarapuava–Parana–Brasil Saturated with Copper Ions and Its Properties

Authors: Rocha, M.L.M., Balaba, N., Jaerger, S., Cunha, M.A.A., Anaissi, F.J.

Journal: Minerals

Year: 2023

Citations: 1

📝Synthesis of Blue Gahnite (ZnAl2O4, Nd): A Cost-Effective Method for Producing Solar-Reflective Pigments for Cool Coatings

Authors: Primo, J.D.O., Horsth, D.F.L., Balaba, N., Anaissi, F.J., Bittencourt, C.

Journal: Materials

Year: 2023

Citations: 4

📝Synthesis and characterization of iron oxides and their application as inorganic pigments in white paint

Authors: Lemos, M.Z., Jaerger, S., Balaba, N., González-Borrero, P.P., Anaissi, F.J.

Journal: Coloration Technology

Year: 2023

Citations: 0

📝Characterization of calcined red soil applied in the removal of methylene blue dye from wastewater to produce a hybrid pigment

Authors: Silva, D.L., Balaba, N., Horsth, D.F.L., Jaerger, S., Anaissi, F.J.

Journal: Clay Minerals

Year: 2023

Citations: 1

Karim Khaled – Structural Equation Modeling – Best Researcher Award

Posted on 11/10/202411/10/2024 by AMO Physics

Dr. Karim Khaled - Structural Equation Modeling - Best Researcher Award

Birmingham City University - Lebanon

Author Profile

🎓 Early Academic Pursuits

Dr. Karim Khaled embarked on his academic journey with a strong foundation in Nutrition & Dietetics, earning a BSc from the Lebanese American University, Lebanon, in 2015. His early pursuits were driven by a passion for understanding the intricate relationships between diet, nutrition, and health. His academic interests quickly expanded to include clinical nutrition, leading him to work in various medical settings and ultimately to his PhD in Nutritional Epidemiology from Bournemouth University, UK, in 2022.

💼 Professional Endeavors

Dr. Khaled’s professional career spans across multiple institutions and roles, showcasing his versatility and commitment to the field of human nutrition. His tenure as an Assistant Professor in Human Nutrition at Birmingham City University stands out, where he designed and led modules on nutrition, food science, epidemiology, and biochemistry for both undergraduate and postgraduate students. Additionally, his role as a Lecturer in Nutrition and Behaviour at Bournemouth University further solidified his teaching and research capabilities. His work as a clinical dietitian and community nutritionist in Lebanon provided him with invaluable practical experience in healthcare settings, complementing his academic knowledge.

🔬 Contributions and Research Focus

Dr. Khaled's research focus centers on the intersection of mental health, diet quality, and nutritional epidemiology, particularly among women of reproductive age. His notable use of structural equation modeling (SEM) in analyzing complex data sets has allowed him to uncover significant insights into how psychological factors influence dietary behaviors. Through collaborations with institutions such as the University of Texas and the Lebanese American University, he has conducted large-scale primary and secondary research studies, contributing to systematic reviews and meta-analyses in the field. His research output has been published in leading journals and has influenced both the academic and public health domains.

🌍 Impact and Influence

Dr. Khaled’s work in nutritional epidemiology and his methodological application of structural equation modeling has had a substantial impact on both academia and public health. He has successfully secured competitive grants for his research, further enhancing his ability to conduct high-quality studies. His influence extends beyond research, as he is deeply involved in curriculum design, such as the upcoming MSc in Nutrition program at his current institution. Dr. Khaled has also actively contributed to national and international conferences, where his work has been recognized for its innovation and relevance to contemporary public health issues.

🏆Academic Cites

Dr. Khaled’s research has earned him considerable recognition within the academic community. His work on diet quality, mental health, and structural equation modeling is frequently cited in both nutrition and public health literature, reflecting the critical nature of his findings. He is regarded as a leading voice in the field, and his systematic reviews have become key references for researchers and policymakers alike.

🌟 Legacy and Future Contributions

Dr. Khaled’s legacy in the field of nutritional epidemiology is defined by his innovative application of statistical methods like structural equation modeling and his dedication to understanding the complex interplay between diet, mental health, and public health outcomes. Looking to the future, he aims to continue building on his research by expanding collaborations, securing further grant funding, and contributing to the advancement of nutritional science. His involvement in teaching and mentorship ensures that he will continue to influence the next generation of nutrition professionals.

📝Structural Equation Modeling

In his research on nutritional epidemiology, Dr. Khaled has extensively utilized structural equation modeling to explore the relationships between mental health indicators and diet quality. His expertise in applying structural equation modeling has provided groundbreaking insights, making it a cornerstone of his contributions to public health research.

Notable Publication

📝Validation of the European Prospective Investigation into Cancer (EPIC) FFQ for use among adults in Lebanon

Authors: Khaled, K., Hundley, V., Bassil, M., Bazzi, M., Tsofliou, F.

Journal: Public Health Nutrition

Year: 2021

Citations: 9

📝Poor dietary quality and patterns are associated with higher perceived stress among women of reproductive age in the UK

Authors: Khaled, K., Hundley, V., Tsofliou, F.

Journal: Nutrients

Year: 2021

Citations: 8

📝A priori and a posteriori dietary patterns in women of childbearing age in the UK

Authors: Khaled, K., Hundley, V., Almilaji, O., Koeppen, M., Tsofliou, F.

Journal: Nutrients

Year: 2020

Citations: 10

📝Perceived stress and diet quality in women of reproductive age: A systematic review and meta-analysis

Authors: Khaled, K., Tsofliou, F., Hundley, V., Helmreich, R., Almilaji, O.

Journal: Nutrition Journal

Year: 2020

Citations: 47

Angelos Klothakis – High Speed Aerodynamics – Best Researcher Award

Posted on 11/10/202411/10/2024 by AMO Physics

Dr. Angelos Klothakis - High Speed Aerodynamics - Best Researcher Award

Technical University of Crete - Greece

Author Profile

🎓 Early Academic Pursuits

Dr. Angelos Klothakis began his academic journey at the Technical University of Crete (TUC), where he completed his diploma in Production Engineering & Management in 2010. His interest in high speed aerodynamics and computational methods led him to pursue a Master’s degree (MSc) in the same field at TUC, where he focused on "DSMC simulations of rarefied hypersonic flows." His deep engagement with fluid dynamics and high-speed flows was further solidified when he embarked on his Ph.D. journey in 2016, focusing on "the numerical solution of high Mach number flows." This laid the foundation for his expertise in the domain of high speed aerodynamics.

💼 Professional Endeavors

Dr. Klothakis has contributed significantly to several advanced research projects centered on high speed aerodynamics and hypersonic flow phenomena. His role as a research associate in the project “Multiscale Modeling of Unsteady Shock-Boundary Layer Hypersonic Flow Instabilities,” conducted in collaboration with the University of Liverpool, reflects his involvement in cutting-edge studies of complex hypersonic flow behavior. Additionally, his work on NATO's Integrated Air & Missile Defense projects showcases his focus on improving surveillance capabilities for hypersonic vehicles, critical in modern defense strategies. His professional experiences underscore his ability to apply theoretical principles to practical challenges, particularly in hypersonic vehicle design and performance optimization.

🔬 Contributions and Research Focus

Dr. Klothakis' primary research focus is on high speed aerodynamics, particularly in the context of hypersonic flows and computational fluid dynamics (CFD). His work has explored direct simulation Monte Carlo (DSMC) methods and finite volume techniques to solve complex problems related to hypersonic flows, offering insights into the aerodynamic performance and physical phenomena of hypersonic vehicles. His significant contributions to NATO's Integrated Air & Missile Defense Centre of Excellence include extensive reports on the aerodynamic performance of hypersonic vehicles and methods for enhancing detection and tracking capabilities. His academic writings, such as his participation in the 1st Short Course on Space and Hypersonics, further reflect his expertise and contributions to the field.

🌍 Impact and Influence

Dr. Klothakis has had a profound impact on the field of high speed aerodynamics, with his work being recognized through his membership in professional societies such as NATO’s Modelling & Simulation Group and the Technical Chamber of Greece. His research and reports on hypersonic vehicle performance have influenced the direction of missile defense strategies and hypersonic weapon surveillance capabilities. His collaborations with global research institutions like the University of Liverpool have extended his influence in international academic and defense communities.

🏆Academic Cites

Dr. Klothakis has authored several notable reports and academic works on high speed aerodynamics, hypersonic flows, and missile defense strategies. His studies on surveillance capabilities of hypersonic vehicles are frequently cited in the academic community, particularly his collaborative reports with Prof. I.K. Nikolos, which have been foundational in the analysis of hypersonic vehicle performance. His writings on aerodynamic design and his contributions to NATO’s Centre of Excellence have earned him a distinguished place in the scholarly discourse on hypersonic technologies.

🌟 Legacy and Future Contributions

Dr. Klothakis’ ongoing research continues to shape the future of high speed aerodynamics and its applications in defense and aerospace technologies. His future contributions are expected to delve deeper into the optimization of surveillance and detection systems for hypersonic vehicles, as well as the advancement of numerical methods to model high Mach number flows. His commitment to refining both theoretical understanding and practical applications ensures that his legacy will endure, particularly in the domains of hypersonic vehicle performance and missile defense strategies. His dedication to mentoring and collaboration with institutions worldwide will further amplify his impact on the field in years to come.

📝Notable Publication

📝Design and Evaluation of a Hypersonic Waverider Vehicle Using DSMC

Authors: Klothakis, A., Nikolos, I.K.

Journal: Computation

Year: 2024

Citations: 0

📝Computation of Hypersonic Flow Around an Isolated Roughness Element Using Kinetic Methods

Authors: Klothakis, A., Dylewicz, K., Theofilis, V., Levin, D.A.

Journal: AIP Conference Proceedings

Year: 2024

Citations: 0

📝Linear Stability of Couette Flow with DSMC-informed Boundary Conditions

Authors: Dylewicz, K., Cerulus, N., Klothakis, A., Theofilis, V., Levin, D.

Journal: AIP Conference Proceedings

Year: 2024

Citations: 0

📝On the Design of Miniature Reentry Vehicles for Mesosphere Exploration. Part I: Theoretical Considerations

Authors: Lappas, V., Klothakis, A., Nikolos, I., Theofilis, V.

Journal: AIAA SciTech Forum and Exposition

Year: 2024

Citations: 1

📝Instability Measurements on a Cone-Slice-Flap in Mach-6 Quiet Flow

Authors: Francis, A.A., Dylewicz, K., Klothakis, A., Theofilis, V., Jewell, J.S.

Journal: AIAA SciTech Forum and Exposition

Year: 2024

Citations: 7

Philippe TRAORE – Numerical simulation of Electro-Hydro-Dynamics phenomena – Excellence in Research

Posted on 11/10/202411/10/2024 by AMO Physics

Prof. Philippe TRAORE - Numerical simulation of Electro-Hydro-Dynamics phenomena - Excellence in Research

Université de Poitiers - France

Author Profile