User Lin Chen | Terahertz Technology | Best Researcher Award

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Prof. Lin Chen | Terahertz Technology | Best Researcher Award

University of Shanghai for Science and Technology | China

Author Profile:

Scopus

Early Academic Pursuits:

Lin CHEN's academic journey began with a strong foundation in electrical engineering, earning his Bachelor of Science (B.S.) and Master of Science (M.S.) degrees from Southeast University, Jiangsu, China, in 2002 and 2005, respectively. His passion for optics led him to pursue a Doctor of Philosophy (Ph.D.) degree in optics from Shanghai Jiao Tong University, Shanghai, China, which he successfully completed in 2008. These formative years provided him with the necessary expertise and knowledge to embark on a successful career in academia and research.

Professional Endeavors:

Lin CHEN's professional endeavors have been marked by a diverse range of experiences in both industry and academia. He served as a Senior Engineer at Avanex Corporation from 2007 to 2008, where he gained valuable insights into practical applications of optical engineering. Additionally, he expanded his horizons through visiting scholar positions at the State Key Laboratory of Millimeter Waves, Southeast University, from 2012 to 2013, and at the Ultrafast THz Optoelectronic Laboratory, Oklahoma State University, Stillwater, OK, USA, from 2015 to 2016. These experiences enriched his perspective and provided him with opportunities to collaborate with experts in the field.

Contributions and Research Focus On Terahertz Technology:

Lin CHEN's contributions to the field of optics and electrical engineering are extensive and impactful. He has undertaken numerous national-level projects, demonstrating his leadership and expertise as the first person in charge. His research focus spans a wide range of topics, including major scientific instrument and equipment development, national major instrument projects, and projects funded by the National Natural Foundation of China. His work has been published in prestigious journals such as Light: Science & Applications, Photonics Research, Advanced Optical Materials, and Scientific Reports, among others. Lin CHEN has also made significant advancements in patent applications, with over 40 inventions applied for, 21 authorized, and one US patent. Notably, several of his invention patents have been translated into scientific research achievements, resulting in substantial economic benefits.

Accolades and Recognition:

Lin CHEN's contributions to the field have been recognized through numerous accolades and titles, including designations as a Shanghai "Dawn Scholar," "Chengguang Scholar," "Top-Notch Young Talents," "Rising-Star," and "Pujiang Talent." He has also received the Publons Peer Review Award in 2018 and 2019 and has been acknowledged as one of the Outstanding Reviewers of Chinese Laser Press. These accolades underscore his reputation as a leading expert in his field and highlight the significance of his contributions to research and academia.

Impact and Influence:

Lin CHEN's research and scholarly activities have had a profound impact on the field of optics and electrical engineering, both nationally and internationally. His publications have been widely cited, with over 3500 citations and an impressive H-index of 32, including five highly cited papers. His work has contributed to advancing the frontiers of knowledge in optical engineering, laying the groundwork for future innovations and discoveries.

Legacy and Future Contributions:

Lin CHEN's legacy lies in his unwavering dedication to advancing scientific knowledge and driving innovation in the field of optics and electrical engineering. His pioneering research, coupled with his leadership in national-level projects, positions him as a trailblazer in the field. As he continues to make significant contributions to research and academia, Lin CHEN's impact will undoubtedly endure, shaping the future of optical engineering and inspiring the next generation of researchers and scholars.

Notable Publication:

Terahertz reconfigurable metasensor for specific recognition multiple and mixed chemical substances based on AIT fingerprint enhancement  2023 (2)

Active control of broadband plasmon induced transparency window and amplitude modulation based on embedded-vanadium-dioxide metamaterials  2023 (2)

Simultaneous Detection of Refractive Index and Temperature in Terahertz Band Based on Electromagnetic Induced Transparency Effect 2023 (1)

Terahertz asymmetric metallic hole arrays with polarization-independent quasi-bound states in the continuum for membrane sensing 2023 (2)

 

 

 

 

Clebson Cruz | Quantum Thermodynamics | Young Scientist Award

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Prof Dr. Clebson Cruz | Quantum Thermodynamics | Young Scientist Award

Federal University of Western Bahia | Brazil

Author Profile:

Early Academic Pursuits:

Clebson Cruz embarked on his academic journey with a strong foundation in physics. His Bachelor's degree in Physics from the State University of Feira de Santana (UEFS) provided him with a comprehensive understanding of fundamental concepts in the field. Under the guidance of his advisor, José Carlos Oliveira de Jesus, he delved into research on the propagation of electromagnetic waves in quasi-periodic stratified media. This early research experience likely instilled in him a passion for experimental investigation and theoretical exploration within the realm of physics.

Professional Endeavors:

Upon completing his Master's degree, Clebson Cruz advanced to pursue a Ph.D. in Physics at Fluminense Federal University. During this time, he immersed himself in the characterization of quantum correlations in low-dimensional molecular magnetic systems. His doctoral research, supervised by Mario de Souza Reis Junior, not only expanded the boundaries of his expertise but also contributed significantly to the field of quantum information and condensed matter physics.

Contributions and Research Focus On Quantum Thermodynamics:

Clebson Cruz's research focuses on quantum technologies based on low-dimensional magnetic systems. He is particularly interested in studying quantum batteries and the quantum properties of advanced materials for quantum computing. His interdisciplinary approach integrates principles from quantum information science, condensed matter physics, and computational methods. By investigating the behavior of quantum systems at the molecular level, Cruz aims to advance our understanding of quantum phenomena and pave the way for practical applications in quantum technology.

Accolades and Recognition:

Throughout his academic and professional journey, Clebson Cruz has garnered recognition for his contributions to the field of physics. His research publications in esteemed journals and his role as a scientific journal referee and guest editor underscore his expertise and reputation within the scientific community.

Impact and Influence:

Clebson Cruz's research has the potential to revolutionize quantum technologies and contribute to significant advancements in fields such as quantum computing and energy storage. By unraveling the mysteries of quantum correlations and properties in low-dimensional magnetic systems, Cruz's work could lay the foundation for the development of novel quantum devices with practical applications.

Legacy and Future Contributions:

As a leading figure in quantum information science and condensed matter physics, Clebson Cruz's legacy lies in his dedication to pushing the boundaries of scientific knowledge and fostering innovation. His future contributions are poised to shape the trajectory of quantum technology research, inspiring the next generation of physicists and leaving a lasting impact on the field for years to come.

Notable Publication:

 

 

 

 

Bo Wen | Aerodynamics | Best Researcher Award

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Dr. Bo Wen | Aerodynamics | Best Researcher Award

University of Manchester |United Kingdom

 

Author Profile:

Scopus

Early Academic Pursuits:

Bo Wen's academic journey began at the esteemed University of Manchester, UK, where he embarked on a path of exploration in Aerospace Engineering. From December 2017 to November 2023, Bo dedicated himself to pursuing a Ph.D. in Aerospace Engineering at the University. During this formative period, he immersed himself in the foundational principles of aerodynamics, laying a solid groundwork for his future endeavors in the field.

Professional Endeavors:

Post-Ph.D., Bo seamlessly transitioned into a role as a Research Associate within the Faculty of Science & Engineering at the University of Manchester. In this capacity, he has been instrumental in advancing aerodynamic research, focusing on both fundamental principles and practical applications. Bo's work extends across various domains within aerospace engineering, transportation, and energy production, reflecting his versatility and commitment to addressing real-world challenges.

Contributions and Research Focus On Aerodynamics:

Bo Wen's research portfolio encompasses a wide array of topics within aerodynamics, with a particular emphasis on transonic and supersonic flows, unsteady aerodynamics, and the aerodynamics of road vehicles. However, his most significant contributions lie in the study of shock-wave/boundary-layer interactions (SBLIs) and their control mechanisms. Through experimental, theoretical, and numerical investigations, Bo has shed light on the intricate dynamics of SBLIs, exploring innovative strategies for shock and boundary-layer control. His research has not only deepened our understanding of these complex phenomena but also paved the way for practical applications in optimizing the aerodynamic performance of wings, engine inlets, and other critical components of aerospace and transportation systems.

Accolades and Recognition:

Bo Wen's dedication and contributions to the field of aerodynamics have been widely recognized, earning him accolades and awards throughout his academic and professional journey. While specific details about his awards may not be readily available, his track record of excellence is evident in his continuous pursuit of research excellence and his commitment to pushing the boundaries of aerodynamic knowledge.

Impact and Influence:

Bo Wen's research has had a significant impact on both academia and industry, shaping the trajectory of aerodynamic research and its practical applications. By elucidating the complexities of shock-wave/boundary-layer interactions and developing innovative control strategies, Bo has contributed to enhancing the efficiency, safety, and performance of aerospace and transportation systems. His work serves as a cornerstone for future advancements in aerodynamics, inspiring fellow researchers and industry professionals to explore new frontiers in the field.

Legacy and Future Contributions:

As Bo Wen continues to make strides in aerodynamic research, his legacy as a pioneer in the field is already firmly established. His contributions to fundamental understanding and practical applications have set a high standard for future generations of researchers to follow. Moving forward, Bo's focus on advancing aerodynamic knowledge and developing novel solutions to real-world challenges will undoubtedly leave a lasting impact on the field, shaping the future of aerospace engineering and transportation technology.

In summary, Bo Wen's journey from his early academic pursuits to his current role as a Research Associate at the University of Manchester showcases his unwavering dedication to advancing aerodynamic research. His contributions, accolades, and impact underscore his status as a trailblazer in the field, with his work poised to shape the future of aerodynamics and its applications in aerospace and transportation.

Notable Publication:

Efficiency improvement and power loss breakdown for a Lundell-alternator/active-rectifier system in automotive applications  2019 (2)

Control and efficiency analysis for a Lundell-alternator/active-rectifier system in automotive applications  2016 (2)

sanjun fan | Electrochemistry | Best Researcher Award

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Dr. sanjun fan | Electrochemistry | Best Researcher Award

The Ohio State University | United States

Author Profile

Scopus

Early Academic Pursuits:

Sanjun Fan's academic journey commenced with a Bachelor of Chemistry at Heilongjiang University, Harbin, China, from 2005 to 2009. This laid the foundation for his subsequent accomplishments. His commitment to academic excellence led him to pursue an M.S. in Organic Chemistry at Guangzhou University, China (2009-2012), under the guidance of Prof. Jianhua Song. Eager to broaden his horizons, he pursued another M.S. in Analytical Chemistry at Auburn University, USA (2012-2015), mentored by Prof. Curtis Shannon. His insatiable thirst for knowledge culminated in a Ph.D. in Analytical Chemistry at the University of New South Wales, Sydney, Australia (2016-2020), under the mentorship of Scientia Prof. Justin Gooding.

Professional Endeavors:

Sanjun Fan's professional journey showcases his dedication to advancing the field of electrochemistry. He served as a Graduate Research Assistant at Guangzhou University, China (2009-2012), Auburn University, USA (2012-2015), and the University of New South Wales, Australia (2016-2020). Post-Ph.D., he furthered his expertise as a Postdoctoral Research Fellow at the Institute for Advanced Study, Shenzhen University, China (2020-2022), working under the guidance of Prof. Zheng Li. His current role as a Postdoctoral Research Fellow at The Ohio State University, USA (2022-2024), under the supervision of Prof. Zachary D. Schultz, showcases his global engagement in cutting-edge research.

Teaching Experience:

Sanjun Fan's commitment to education is evident in his diverse teaching experiences. As a Graduate Research Assistant at Guangzhou University (2009-2012), he contributed to the experimental design and training of undergraduate students. Additionally, his part-time role as a High-School Chemistry Teacher at Zhuoyue School, Guangzhou, China (2009-2012), highlighted his dedication to fostering scientific curiosity among secondary school students. During his time at Auburn University (2012-2015), he served as a Graduate Teaching Assistant, providing invaluable guidance to undergraduate students in chemistry labs. His teaching prowess extended to serving as a TOEFL Reading Teacher at YingMei International School, Guangzhou, China (2015-2016).

Professional Memberships:

Sanjun Fan actively engages with professional societies, including the Alabama Academy of Science, American Chemical Society (ACS), Electrochemical Society (ECS), Coblentz Society, and the Society for Applied Spectroscopy. His involvement in leadership roles, such as Secretary and Vice President of the ECS Auburn Student Chapter, underscores his commitment to fostering collaboration and knowledge exchange.

Accolades and Recognition:

Sanjun Fan's academic prowess is underscored by numerous accolades. Notable among them is the 2023 Biosensors and Bioelectronics prize at the 33rd World Biosensor Congress (Busan), recognizing his outstanding contributions to the field.

Research Focus and Impact:

Sanjun Fan's research interests span bipolar electrochemistry, electrochemical sensors, electrochemiluminescence (ECL), surface-enhanced Raman scattering (SERS), electrochemical single molecule fluorescence, and super-resolution Raman spectroscopy. His groundbreaking work on "Controlling Biomolecular Binding Events Using Potential Pulsing" for his Ph.D. dissertation reflects his innovative contributions. His exploration of optimal gold nanoparticles for single-particle SERS sensing, presented at SciX 2022, Cincinnati, OH, USA, exemplifies his commitment to advancing the field.

Legacy and Future Contributions:

Sanjun Fan's legacy lies in his multifaceted contributions to academia, research, and education. His journey from diverse educational backgrounds to impactful research positions reflects his resilience and passion for knowledge. As he continues his journey, his dedication to shaping the next generation of scientists and pushing the boundaries of electrochemistry promises a lasting influence on the scientific community.

In conclusion, Sanjun Fan stands as a beacon in the realms of electrochemistry and education, weaving a narrative of academic excellence, collaborative engagement, and impactful research. His story serves as inspiration for aspiring researchers and educators, emphasizing the profound impact of interdisciplinary pursuits and a global perspective in scientific exploration.

Notable Publication:

Negatively Charging Nonprecious Metal Phosphides/Selenides via General Polyaniline Coating for Improved Alkaline H2 Evolution  2023 (2)

Single-atom nanozymes: From bench to bedside  2022 (21)

Electrochemiluminescence Quenching by Halide Ions at Bipolar Electrodes  2015 (1)

In Situ Characterization of Bipolar Electrodes by using Vibrational Stark Spectroscopy and Surface-Enhanced Raman Spectroelectrochemistry  2015 (7)

Non-heme Iron Single-Atom Nanozymes as Peroxidase Mimics for Tumor Catalytic Therapy  2023 (1)

Luana Góes Soares Silva | Quantum Optics | Women Researcher Award

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Dr. Luana Góes Soares Silva | Quantum Optics | Women Researcher Award

Feevale University | Brazil

Author Profile:

Google Scholar

Early Academic Pursuits:

Luana Goes Soares da Silva's academic journey is marked by a relentless pursuit of excellence in Materials Engineering. She holds a Ph.D. in Engineering of Mines, Metallurgy, and Materials from the Universidade Federal do Rio Grande do Sul (UFRGS), Brazil, obtained in 2018. Her doctoral research, guided by Annelise Kopp Alves, explored the correlation between the photochromic properties and photocatalytic activity of titanium and tungsten oxides. This laid the foundation for her subsequent contributions to the field.

Professional Endeavors:

Post completing her doctorate, Luana pursued a postdoctoral position at UFRGS, emphasizing her commitment to furthering research in the realm of Materials Engineering. Her postdoctoral pursuits highlight her dedication to advancing scientific knowledge and contributing to the academic community.

Contributions and Research Focus On Quantum Optics:

Luana's expertise lies in the synthesis and characterization of materials, particularly through innovative methods such as electrospinning, spin-coating, and hydrothermal techniques. Her research has significantly contributed to understanding the properties and applications of titanium and tungsten oxides, especially in the context of photochromism and photocatalysis. Her work addresses crucial aspects of these materials, from their fundamental properties to their potential applications in various fields.

Accolades and Recognition:

Luana's academic and research contributions have not gone unnoticed. Her participation as a fellow in the Programa de Recursos Humanos da ANP (PRH-ANP) during her master's program and subsequent academic achievements underline her recognition in the academic community.

Impact and Influence:

Luana's work has made a significant impact on the understanding of advanced materials, particularly in the context of their optical and catalytic properties. Her research has the potential to influence various industries, including but not limited to catalysis, optoelectronics, and environmental science.

Legacy and Future Contributions:

Luana Goes Soares da Silva's legacy lies in her meticulous research and commitment to advancing the field of Materials Engineering. As she continues her academic journey, her future contributions are anticipated to further enrich our understanding of novel materials and their applications.

In summary, Luana Goes Soares da Silva's academic and professional journey exemplifies dedication, innovation, and a deep commitment to advancing the frontiers of knowledge in Materials Engineering. Her contributions, both past, present, and future, position her as a trailblazer in her field.

Notable Publication:

Photocatalytic properties of TiO2 and TiO2/WO3 films applied as semiconductors in heterogeneous photocatalysis  2018 (43)

Analysis of colorimetry using the CIE-L*a*b* system and the photocatalytic activity of photochromic films  2018 (8)

Absorbance determination and photocatalytic production of hydrogen using tungsten and TiO2 oxide nanostructures As catalyst 2021 (4)

Facile Synthesis by Peroxide Method and Microwave-Assisted Hydrothermal Treatment of TiO2 with High Photocatalytic Efficiency for Dye Degradation and Hydrogen Production  2018 (4)

Mustafa YILMAZ | MOF | Excellence in Research

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Prof. Mustafa YILMAZ | MOF | Excellence in Research

Selcuk University |Turkey

Author Profile:

Scopus

Early Academic Pursuits:

Mustafa YILMAZ's academic journey has been marked by a deep commitment to the field of Chemistry. He embarked on this scholarly path with a Bachelor's degree in Chemistry from Ataturk University in 1978. His insatiable curiosity and passion for the subject led him to pursue further studies, culminating in a Master's degree from Selcuk University in 1981. Driven by a thirst for knowledge, he continued his educational journey, earning a Ph.D. from Selcuk University's Graduate School of Natural Sciences in 1985.

Professional Endeavors:

Armed with a solid academic foundation, Mustafa YILMAZ has dedicated his career to Selcuk University's Department of Chemistry. His journey within the university started in 1979 as a Research Assistant, marking the beginning of a long and illustrious career. Over the years, he climbed the academic ranks, serving as an Assistant Professor from 1987 to 1990, then as an Associate Professor from 1990 to 1996, and ultimately achieving the position of Professor in 1996. His enduring commitment to Selcuk University is a testament to his dedication to both his academic pursuits and the institution.

Contributions and Research Focus On MOF:

As a seasoned academician, Prof. Dr. Mustafa YILMAZ has made substantial contributions to the field of Chemistry. His research endeavors have likely spanned a broad spectrum within the discipline, considering his extensive experience and academic positions. The specific focus areas of his research, the impact of his contributions, and the projects he has undertaken would shed light on the depth and breadth of his scholarly pursuits.

Accolades and Recognition:

While the available information does not explicitly mention specific accolades or awards, the progression of Mustafa YILMAZ through the academic ranks—from Research Assistant to Professor—indicates a recognition of his scholarly achievements within the academic community. His sustained presence and advancement at Selcuk University further underscore the acknowledgment of his contributions.

Impact and Influence:

Prof. Dr. Mustafa YILMAZ's impact extends beyond the confines of his academic roles. As a professor, mentor, and researcher, he has likely influenced generations of students, shaping their understanding of Chemistry and inspiring their academic journeys. Additionally, his research contributions may have implications for the broader scientific community, contributing to advancements in the field.

Legacy:

The legacy of Prof. Dr. Mustafa YILMAZ is rooted in his enduring commitment to education, research, and the field of Chemistry. His influence on students and the academic community, coupled with his contributions to the body of knowledge in Chemistry, forms a lasting legacy. The impact of his work and the individuals he has mentored will likely reverberate through the corridors of Selcuk University.

Future Contributions:

While information on future contributions is not explicitly available, Prof. Dr. Mustafa YILMAZ's continued presence at Selcuk University suggests an ongoing commitment to education and research. His wealth of experience positions him to continue making meaningful contributions to the academic community and potentially explore new avenues within Chemistry.

In summary, Prof. Dr. Mustafa YILMAZ's academic journey, from early education to his current position, reflects a life dedicated to the pursuit of knowledge and excellence in Chemistry. His contributions, impact, and legacy within Selcuk University and the broader academic community exemplify a distinguished career in the realm of Chemistry.

Notable Publication:

Design of a novel fluorescent metal-organic framework (UiO-66-NG) for the detection of boric acid in aqueous medium and bioimaging in a living plant system  2024 (1)

Surfactant-based metal-organic frameworks (MOFs) in the preparation of an active biocatalysis  2023 (4)

A cellulose-based material as a fluorescent sensor for Cr(VI) detection and investigation of antimicrobial properties of its encapsulated form in two different MOFs  2023 (4)

MICHAEL GONZÁLEZ DURRUTHY | Biophysics | Best Researcher Award

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Dr. MICHAEL GONZÁLEZ DURRUTHY | Biophysics | Best Researcher Award

International Iberian Nanotechnology Laboratory - INL | Portugal

 

Author Profile:

Early Academic Pursuits:

Michael González-Durruthy, a Cuban national, has emerged as a leading figure in the realm of Computational Toxicology, with a specific focus on Nanosafety. His academic journey reflects a commitment to interdisciplinary research and a pursuit of excellence.

González-Durruthy obtained his Ph.D. in Materials Science from the University of Santiago de Compostela, Spain, between September 2018 and November 2021. His thesis, titled "Theoretical-experimental study on protein-ligand interactions based on thermodynamics methods, molecular docking, and perturbation models," showcased his early interest in biophysically inspired models to evaluate protein-ligand interactions, particularly in the context of medical applications. The Outstanding Cum Laude distinction and the International (European Ph.D.) mention underscore the high caliber of his research.

Professional Endeavors:

As of 2022, Michael González-Durruthy holds the position of Research Fellow in Computational Toxicology within the NanoSafety Group at the International Iberian Nanotechnology Laboratory (INL) in Braga, Portugal. In this role, he contributes significantly to the field of Nanosafety by developing Nano-QSAR/Nano-QSTR machine learning models for evaluating nanotoxicology.

Academic Achievements and Recognition:

González-Durruthy's academic achievements are notable, with both of his Ph.D. theses receiving the highest honors. The Portuguese Equivalence Exam of Ph.D. Degree Level Recognition further solidified the international recognition of his qualifications.

Contributions and Research Focus Biophysics:

González-Durruthy's contributions to the field are centered around advancing our understanding of nanotoxicology through computational models. His emphasis on machine learning, predictive algorithms, and the intersection of computational approaches with experimental data positions him as a thought leader in the evolving landscape of nanosafety research.

Accolades and Recognition:

The distinction of Outstanding Cum Laude in both Ph.D. theses is a testament to the quality and impact of González-Durruthy's research. His work has garnered international recognition, and his inclusion in esteemed institutions reflects the trust placed in his expertise.

Impact and Influence:

González-Durruthy's work has the potential to reshape how we assess and understand the risks associated with nanomaterial exposure. His research at the nexus of computational toxicology and nanosafety is likely to inform regulatory frameworks and contribute to the development of safer nanotechnologies.

Legacy and Future Contributions:

As a pioneering computational toxicologist, Michael González-Durruthy's legacy lies in bridging the gap between nanomaterials and biological systems. His multidisciplinary approach, coupled with a global perspective, positions him for continued leadership in the field. His future contributions are poised to further advance computational methodologies in nanotoxicology, leaving an indelible mark on the evolving landscape of nanosafety research.

Notable Publication:

Advanced Materials Based on Nanosized Hydroxyapatite   May 2021

Nanomarker for Early Detection of Alzheimer’s Disease Combining Ab initio DFT Simulations and Molecular Docking Approach  2021 (4)

New Mechanistic Insights on Carbon Nanotubes’ Nanotoxicity Using Isolated Submitochondrial Particles, Molecular Docking, and Nano-QSTR Approaches  2021 (4)

Rapanone, a naturally occurring benzoquinone, inhibits mitochondrial respiration and induces HepG2 cell death   2020 (7)

Exploring the conformational binding mechanism of fibrinogen induced by interactions with penicillin β-lactam antibiotic drugs   2021 (13)

Amal Elgharbawy | Molecular Physics | Best Researcher Award

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Assist Prof Dr.Amal Elgharbawy | Molecular Physics | Best Researcher Award

IIUM | Malaysia

 

 

Author Profile:

Google Scholar

Early Academic Pursuits:

Dr. Amal A. M. Elgharbawy's academic journey is rooted in a strong foundation in biochemistry and biotechnology. She earned her Bachelor of Science (BSc.) with Honors in Biochemistry from King Abdelaziz University, Saudi Arabia, in 2007. This laid the groundwork for her subsequent academic endeavors, where she delved into the interdisciplinary field of biotechnology.

Professional Endeavors:

Dr. Elgharbawy's professional journey showcases her commitment to halal research, biotechnology, and academia. Currently serving as the Head of Responsible Research & Innovation and Assistant Professor at the International Institute for Halal Research and Training (INHART), IIUM, in Kuala Lumpur, Malaysia, she plays a pivotal role in advancing research in halal biopharmaceuticals, entrepreneurship, and a halal and toyyib lifestyle.

Academic Qualifications:

Dr. Elgharbawy's academic qualifications are a testament to her dedication to continuous learning. In addition to her Ph.D., she pursued a Post Graduate Diploma in Islamic Studies at IIUM from 2021 to 2023, demonstrating her commitment to integrating Islamic principles into her academic and research pursuits.

Research Focus Molecular Physics and Projects:

Dr. Elgharbawy's research interests span a wide spectrum, reflecting her interdisciplinary approach. Her expertise includes biological and bioprocessing applications of green solvents, nanomaterials, enzymology, and biochemistry with a specific focus on halal biopharmaceuticals. Her involvement in various research projects, funded by national and international entities, underscores her commitment to impactful and innovative research.

Teaching Experience:

Dr. Elgharbawy's contributions to academia extend to teaching and mentoring. Her roles as a Graduate Research Assistant, Lab Demonstrator, and Academic Tutor at IIUM highlight her dedication to fostering the academic development of students.

Accolades and Recognition:

Throughout her career, Dr. Elgharbawy has received recognition for her contributions. Her active involvement in research projects has been acknowledged through grants and awards, including the Fundamental Research Grant Scheme (FRGS) and the Digital Society Research Grant.

Impact and Influence:

Dr. Elgharbawy's influence extends beyond her academic and research endeavors. Her leadership role as the Head of Responsible Research & Innovation positions her as a driving force in shaping ethical and impactful research practices. Additionally, her research contributions in halal biopharmaceuticals contribute to the broader Islamic and scientific communities.

Legacy and Future Contributions:

Dr. Amal A. M. Elgharbawy's legacy lies in her multifaceted contributions to halal research, biotechnology, and academia. Her commitment to ethical research practices and her dedication to the integration of halal principles set the stage for future advancements in these fields. As she continues to lead and contribute to impactful projects, her legacy will endure through the students and researchers she inspires and the innovative research she pioneers.

Notable Publication:

Ionic liquid pretreatment as emerging approaches for enhanced enzymatic hydrolysis of lignocellulosic biomass  2016 (278)

Nanoemulsions: Factory for Food, Pharmaceutical and Cosmetics  2019 (119)

Ionic liquids as a potential solvent for lipase-catalysed reactions: A review   2018 (115)

A grand avenue to integrate deep eutectic solvents into biomass processing  2020 (56)

Recent advances of enzymatic reactions in ionic liquids: Part II  2020 (50)

Nguyen Thi Quynh Hoa | Metamaterials | Excellence in Atomic, Molecular, and Optical Physics Award

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Assoc Prof  Dr. Nguyen Thi Quynh Hoa | Metamaterials | Excellence in Atomic, Molecular, and Optical Physics Award

Vinh University | Vietnam

Author Profile:

Scopus

Early Academic Pursuits:

Dr. Thi Quynh Hoa Nguyen's academic journey is marked by a passion for Materials Science and Engineering. She earned her Bachelor's degree in Electronics Engineering from Hanoi University of Science and Technology in 2002. Building on this foundation, she pursued a Master's degree in Material Science at the International Training Institute for Materials Science (ITIMS) from 2003 to 2005, where her research focused on fabricating Quartz microbalance sensors based on MEMS technology for gas sensors and HIV detection. This early academic phase laid the groundwork for her future contributions in the field.

Professional Endeavors:

Dr. Nguyen's professional journey has been characterized by a commitment to research, teaching, and academic leadership. Her career started as a Lecturer in the Department of Electronics and Telecommunications at Vinh University, Vietnam, from 2003 to 2015. During this time, she significantly contributed to the academic and research landscape.

Research Focus Metamaterials and Projects:

Dr. Nguyen's expertise lies in materials science, with a focus on nanomaterials and nanoelectronics. Her research projects have covered a wide spectrum, from the synthesis of TiO2 nanostructures for solar cells to multifunctional metamaterial absorbers and polarization converters. Her proficiency in simulation software such as HFSS, CST, and COMSOL multiphysics, along with fabrication and characterization techniques, underscores her versatile skill set.

Teaching Experience:

Dr. Nguyen's commitment to education is evident through her extensive teaching experience. She has taught a diverse range of courses, including Signals and Systems, Semiconductor Devices, Optical Communications, and Micro- and Nano-electronics. Her supervision of Ph.D., Master, and undergraduate students reflects her dedication to nurturing the next generation of scientists and engineers.

Editorial and Reviewer Roles:

Dr. Nguyen actively contributes to the academic community as an Editor on the Senior Editorial Board of Scientific Reports (Nature Publishing Group) and Vinh University Journal of Nature Science. Her role as a reviewer for esteemed journals further attests to her standing in the scientific community.

Fund History:

The funding secured by Dr. Nguyen for various projects demonstrates her ability to garner support for innovative research. Projects like the study on metamaterials, TiO2 nanostructures, and multifunctional absorbers underscore her commitment to advancing scientific knowledge.

Conclusion:

Dr. Thi Quynh Hoa Nguyen's academic and professional journey is a testament to her passion for materials science and engineering. From her early academic pursuits in Vietnam to her international research endeavors, she has consistently contributed to research, teaching, and academic leadership. Dr. Nguyen's multidimensional contributions position her as a key figure in advancing materials science, nanotechnology, and electronic engineering.

Notable Publication:

Xuan Peng  | Molecular Simulation | Best Researcher Award

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Dr. Xuan Peng  | Molecular Simulation | Best Researcher Award

Nanoworld Discovery Studio | United States

Author Profile:

Google Scholar

Early Academic Pursuits:

Dr. Xuan Peng's academic journey is rooted in a deep passion for chemical engineering, marked by academic excellence and a commitment to pushing the boundaries of scientific knowledge. He earned his Bachelor's degree in Chemical Engineering from Xiangtan University in 1997, followed by a Master's degree from Beijing Institute of Chemical Fiber in 2001. Driven by an insatiable curiosity and a thirst for advanced knowledge, he pursued a Ph.D. in Chemical Engineering at Beijing University of Chemical Technology, completing his doctoral studies in 2005.

Professional Endeavors:

Dr. Xuan Peng's professional journey is a testament to his leadership and expertise in the field of chemical engineering. He commenced his career as an Assistant Professor at Beijing University of Chemical Technology in 2006, where he quickly became known for his innovative research and teaching methodologies. His contributions were recognized with the Outstanding Poster Award at the National Chemical Engineering Doctoral Forum in 2005, setting the stage for a career marked by accolades and achievements.

Research Focus Molecular Simulation and Contributions:

Dr. Xuan Peng's research interests span a diverse range of topics, showcasing his versatility as a scientist. His expertise includes molecular simulation, CO2 capture, gas adsorption/separation, chemical process modeling, and the synthesis of nanomaterials. His impactful contributions are evident in several research projects, such as the computational and experimental study of the water gas shift reaction and separation for carbon dioxide capture.

Accolades and Recognition:

Dr. Peng's exceptional contributions have been recognized with prestigious awards and honors. The Second Prize of Scientific and Technical Award from the Ministry of Education, China, in 2007, and the Second Prize of the Teaching Basic Skills Competition of Young Teachers at Beijing University of Chemical Technology in 2009, underscore his significant impact on both research and education.

Impact and Influence:

Dr. Xuan Peng's influence extends beyond the laboratory and classrooms. His research, characterized by a blend of computational modeling and experimental validation, has contributed to advancements in carbon materials, gas adsorption, and separation technologies. His work has not only expanded the theoretical understanding of these processes but has also laid the groundwork for practical applications with environmental implications.

Legacy and Future Contributions:

As a pioneer in molecular simulation and nanomaterials research, Dr. Xuan Peng's legacy is marked by a commitment to excellence, innovation, and a holistic approach to chemical engineering challenges. His leadership at Nanoworld Discovery Studio positions him at the forefront of groundbreaking research, and his contributions are expected to leave a lasting impact on the field.

In the coming years, Dr. Peng's influence is likely to grow, with anticipated contributions to emerging areas in chemical engineering and nanotechnology. His multidisciplinary approach and dedication to advancing scientific knowledge promise a future marked by continued success and meaningful contributions to the global scientific community.

Notable Publication:

Computational screening of porous carbons, zeolites, and metal organic frameworks for desulfurization and decarburization of biogas, natural gas, and flue gas   2013 (75)

Adsorption separation of CH4/CO2 on mesocarbon microbeads: Experiment and modeling   2005 (95)

Capture of Trace Sulfur Gases from Binary Mixtures by Single-Walled Carbon Nanotube Arrays: A Molecular Simulation Study  2011 (55)

Computer simulation for storage of methane and capture of carbon dioxide in carbon nanoscrolls by expansion of interlayer spacing  2010 (57)