Month: December 2024

Education Background🎓

Md. Jahangir Alam completed his Master of Science in Mathematics from Comilla University, Bangladesh, in 2018, with a thesis focused on Biomagnetic fluid flow and heat transfer analysis over a steady/unsteady stretching sheet with variable fluid properties and thermal radiation. He earned his Bachelor of Science in Mathematics from the same university in 2017, where he worked on a project titled A short discussion on ordinary differential equations and its applications. His academic journey has been marked by a strong foundation in mathematics and a deep interest in fluid dynamics and heat transfer.

Professional Experience🌱

Md. Jahangir Alam currently serves as a Lecturer in Mathematics at Northern University Bangladesh since September 2023. In this role, he is responsible for preparing and delivering lectures, conducting seminars, supervising student research, and writing academic papers. Previously, he was a Research Fellow at the Bose Centre for Advanced Study and Research in Natural Sciences, University of Dhaka (May 2022-April 2024), where he worked on advanced mathematical modeling and fluid dynamics.

Research Interests🔬

His research interests primarily include biomagnetic fluid flow, heat transfer, and mathematical modeling of fluid dynamics over stretching sheets, with applications in thermal radiation and variable fluid properties. Alam is also engaged in numerical analysis and the development of innovative procedures for solving complex mathematical problems.

Author Metrics

Md. Jahangir Alam has established a solid academic reputation through his research in applied mathematics and fluid dynamics. His work is widely accessible through platforms like Google Scholar, Scopus, and ResearchGate, where he actively contributes to the field. His Google Scholar profile showcases his growing citations and impact in the field of fluid mechanics and heat transfer. Alam has also been recognized for his research, particularly winning the Best Paper Presentation award at the “2nd International Conference on Recent Advances in Fluid Mechanics and Nanoelectronics” held at Manipal University, India, in 2024.

Publications Top Notes 📄

1. Biomagnetic fluid flow and heat transfer study of blood with gold nanoparticles over a stretching sheet in the presence of magnetic dipole

Authors: J. Alam, G. Murtaza, E. Tzirtzilakis, M. Ferdows
Journal: Fluids
Volume: 6, Issue: 3, Article 113
Year: 2021
Citations: 33

2. Biomagnetic Flow with CoFe2O4 Magnetic Particles through an Unsteady Stretching/Shrinking Cylinder

Authors: M. Ferdows, J. Alam, G. Murtaza, E. Tzirtzilakis, S. Shuyu
Journal: Magnetochemistry
Volume: 8, Article 27, Pages: 1-35
Year: 2022
Citations: 24

3. Application of Biomagnetic Fluid Dynamics modelling for simulation of flow with magnetic particles and variable fluid properties over a stretching cylinder

Authors: J. Alam, G. Murtaza, E. Tzirtzilakis, M. Ferdows
Journal: Mathematics and Computers in Simulation
Year: 2022
Citations: 22

4. Effect of Thermal Radiation on Biomagnetic Fluid Flow and Heat Transfer over an Unsteady Stretching Sheet

Authors: M. J. Alam, M. G. Murtaza, E. E. Tzirtzilakis, M. Ferdows
Journal: Computer Assisted Methods in Engineering and Science
Volume: 28, Issue: 2, Pages: 81-104
Year: 2021
Citations: 16

5. Magnetohydrodynamic and Ferrohydrodynamic Interactions on the Biomagnetic Flow and Heat Transfer Containing Magnetic Particles Along a Stretched Cylinder

Authors: J. Alam, G. Murtaza, E. Tzirtzilakis, M. Ferdows
Journal: European Journal of Computational Mechanics
Volume: 31, Issue: 1, Pages: 1-40
Year: 2022
Citations: 13

Conclusion

Md. Jahangir Alam is a promising researcher with significant contributions in the field of applied mathematics, particularly in biomagnetic fluid dynamics and heat transfer. His academic journey, publications, and awards indicate his strong capabilities and dedication to advancing scientific research. To further his growth and impact, expanding his research scope and improving his visibility within the international academic and industry communities will be beneficial. Md. Jahangir Alam’s ongoing work and future potential make him a strong candidate for the Best Researcher Award, recognizing his valuable contributions to the scientific community.

Xiaoqi Li | Blockchain | Best Researcher Award

Posted on 30/12/202430/12/2024 by usudeeparya

Assoc. Prof. Dr. Xiaoqi Li | Blockchain | Best Researcher Award

Associate Professor at Hainan University, China📖

Dr. Simon Xiaoqi Li is an Associate Professor in the School of Cyberspace Security at Hainan University, China. A distinguished researcher in blockchain, software/system security, and artificial intelligence, Dr. Li is a Senior Member of the China Computer Federation (CCF) and an active member of IEEE and ACM. Recognized with multiple prestigious awards, including the Youth Top-notch Talent Support Program in 2024, Dr. Li has significantly advanced the fields of cybersecurity and blockchain technologies through his academic contributions and leadership.

Profile

Education Background🎓

Dr. Li earned his Ph.D. in Computer Science from the Hong Kong Polytechnic University in 2021, under the guidance of Dr. Daniel Xiapu Luo and Ting Chen. He holds a Master’s degree in Computer Science from the Chinese Academy of Sciences (2016) and a Bachelor’s degree in Computer Science from Central South University (2013). His robust academic foundation has propelled his research in cutting-edge technologies.

Professional Experience🌱

Dr. Li has an extensive career in academia and research, including:

Associate Professor at Hainan University (2021–Present), focusing on blockchain security and network defense.
Research Assistant at Hong Kong Polytechnic University (2019–2021), contributing to security analysis and blockchain optimization projects.
Research Assistant at the Chinese Academy of Sciences (2013), where he worked on cybersecurity and software vulnerabilities.

His teaching portfolio includes courses on Vulnerability Analysis, Penetration Testing, Network Attack and Defense, and Information Security Management, underscoring his dedication to cultivating the next generation of cybersecurity experts.

Research Interests🔬

Dr. Li’s research interests span several advanced fields:

Blockchain Security: Addressing smart contract vulnerabilities and enhancing decentralized finance security.
Software and System Security: Investigating software vulnerabilities and developing robust defense mechanisms.
Artificial Intelligence: Leveraging AI for cybersecurity and blockchain applications.
Software Engineering: Focused on quality assurance, optimization, and secure software development.

Author Metrics

Dr. Li’s impactful research is reflected in his robust author metrics:

Scopus H-index: 7
Google Scholar Citations: 800+
Numerous ESI Hot and Highly Cited Papers, demonstrating his influence in blockchain and security research.
Dr. Li has received best paper awards at prestigious conferences such as IEEE INFOCOM, CCF Blockchain, and ISPEC, showcasing his contributions to advancing theoretical and applied research.

Publications Top Notes 📄

1. A Survey on the Security of Blockchain Systems

Authors: X. Li, P. Jiang, T. Chen, X. Luo, Q. Wen
Journal: Future Generation Computer Systems
Volume: 107
Pages: 841-853
Year: 2020
Citations: 2160
Summary: This highly cited survey paper comprehensively examines the security challenges in blockchain systems. It categorizes various vulnerabilities, threats, and defense mechanisms while providing insights into securing blockchain ecosystems and identifying future research directions.

2. Under-Optimized Smart Contracts Devour Your Money

Authors: T. Chen, X. Li, X. Luo, X. Zhang
Conference: The 24th IEEE International Conference on Software Analysis, Evolution, and Reengineering (SANER)
Year: 2017
Citations: 481
Summary: This paper highlights inefficiencies in smart contract optimization and their economic consequences. The study provides a detailed analysis of vulnerabilities caused by under-optimized code and proposes solutions to mitigate these issues, ensuring efficient and secure smart contracts.

3. Understanding Ethereum via Graph Analysis

Authors: T. Chen, Y. Zhu, Z. Li, J. Chen, X. Li, X. Luo, X. Lin, X. Zhang
Conference: The 37th IEEE International Conference on Computer Communications (INFOCOM)
Year: 2018
Citations: 426
Summary: This work uses graph analysis to explore the structure and behavior of Ethereum. The study reveals key insights into transaction patterns, network activity, and security vulnerabilities, offering a novel perspective on understanding blockchain ecosystems.

4. An Adaptive Gas Cost Mechanism for Ethereum to Defend Against Under-Priced DoS Attacks

Authors: T. Chen, X. Li, Y. Wang, J. Chen, Z. Li, X. Luo, M.H. Au, X. Zhang
Conference: The 13th International Conference on Information Security Practice and Experience (ISPEC)
Year: 2017
Citations: 155
Summary: This paper proposes an adaptive gas cost mechanism to mitigate the risk of under-priced Denial of Service (DoS) attacks in Ethereum. By dynamically adjusting gas costs based on resource utilization, the study enhances the resilience of Ethereum against such attacks.

5. Towards Saving Money in Using Smart Contracts

Authors: T. Chen, Z. Li, H. Zhou, J. Chen, X. Luo, X. Li, X. Zhang
Conference: The 40th IEEE/ACM International Conference on Software Engineering (ICSE)
Year: 2018
Citations: 124
Summary: This work examines cost-saving strategies in deploying and using smart contracts. By identifying inefficiencies in contract design and execution, the paper presents actionable solutions to minimize operational costs while maintaining contract reliability and security.

Conclusion

Assoc. Prof. Dr. Simon Xiaoqi Li is a highly suitable candidate for the Best Researcher Award, owing to his outstanding contributions to blockchain security, exemplary academic metrics, and recognized leadership in cybersecurity research. His work bridges theoretical rigor and practical relevance, driving advancements in blockchain systems, smart contracts, and decentralized applications.

By enhancing international collaborations and integrating emerging technologies, Dr. Li can further expand his research’s global impact, making him a trailblazer in blockchain and cybersecurity fields.

Kyriaki Tsilika | Computational Economics | Best Researcher Award

Posted on 30/12/202430/12/2024 by usudeeparya

Assoc. Prof. Dr. Kyriaki Tsilika | Computational Economics | Best Researcher Award

Kyriaki Tsilika at University of Thessaly, Greece📖

Dr. Kyriaki Tsilika is an Associate Professor in the Department of Economics at the University of Thessaly, Greece, and an adjunct faculty member at Hellenic Open University. With over 20 years of academic experience, she specializes in computational methods for economics and education, leveraging advanced mathematical tools and technologies to enhance research and teaching practices.

Profile

Education Background🎓

Dr. Tsilika earned her Ph.D. in Applied Mathematics from the Faculty of Engineering at Aristotle University of Thessaloniki, Greece. Her strong foundation in mathematics has guided her interdisciplinary approach to computational economics and data visualization.

Professional Experience🌱

Dr. Tsilika has held key academic positions at the University of Thessaly and the former Technological Educational Institute of Thessaly. Over her two-decade career, she has taught undergraduate and postgraduate courses in Computational Mathematics, Computational Statistics, Data Analysis, Operational Research, and Decision Making.
She has also developed and conducted laboratory courses for statistical and mathematical software, writing syllabi and study guides to align with computer-based learning approaches. As a committed advocate of integrating new informatics and communication technologies, her teaching philosophy centers on modernizing education through technology.
Dr. Tsilika has contributed editorially to leading journals, serving as:

Guest Editor for Computational Economics (Springer)
Leading Guest Editor for Mathematics (MDPI)
Collection Editor for Digital Technologies Research and Applications
She is also an editorial board member of Astrolavos, a journal by the Hellenic Mathematical Society focusing on new technologies.

Research Interests🔬

Dr. Tsilika’s research interests encompass:

Computational Economics and Graph Theory
Data and Information Visualization
Computational Mathematics and Computer Algebra Systems
Her work emphasizes the application of computational tools to economic modeling, decision-making, and education.

Author Metrics

Dr. Kyriaki Tsilika has established a strong academic presence, with her research widely recognized in the fields of computational economics and applied mathematics. Her contributions are reflected in her comprehensive author metrics, including her Scopus Author ID (6506532108), which tracks her impactful publications in international journals. Additionally, her ResearcherID (E-2117-2018) and ORCID profile (ORCID) showcase her scholarly work and ongoing collaborations. Dr. Tsilika has contributed as a guest editor and collection editor for respected journals like Computational Economics (Springer) and Mathematics (MDPI), further underlining her influence in advancing research at the intersection of computational methods and economics. Her metrics highlight the breadth and depth of her contributions to the academic community.

Publications Top Notes 📄

1. Understanding Transboundary Air Pollution Network: Emissions, Depositions, and Spatio-Temporal Distribution of Pollution in the European Region

Authors: G. Halkos, K. Tsilika
Journal: Resources, Conservation and Recycling
Volume: 145
Pages: 113-123
Year: 2019
Citations: 29
Summary: This paper investigates the dynamics of transboundary air pollution in Europe, focusing on emissions, depositions, and their spatio-temporal distribution. The study provides insights into cross-border environmental issues, emphasizing the need for collaborative policy measures to mitigate pollution.

2. Climate Change Effects and Their Interactions: An Analysis Aiming at Policy Implications

Authors: G.E. Halkos, K.D. Tsilika
Journal: Economic Analysis and Policy
Volume: 53
Pages: 140-146
Year: 2017
Citations: 27
Summary: This article examines the multifaceted effects of climate change and their interactions, proposing actionable policy implications. The research highlights the interconnected nature of climate impacts, providing a basis for comprehensive and adaptive policy frameworks.

3. Evidence for Novel Structures Relating CSR Reporting and Economic Welfare: Environmental Sustainability—A Continent-Level Analysis

Authors: G. Halkos, S. Nomikos, K. Tsilika
Journal: Computational Economics
Pages: 1-30
Year: 2021
Citations: 19
Summary: This study explores the relationship between corporate social responsibility (CSR) reporting and economic welfare, focusing on environmental sustainability at the continent level. Using computational methods, the research uncovers novel structures that link CSR practices to broader economic and environmental outcomes.

4. Analyzing and Visualizing the Synergistic Impact Mechanisms of Climate Change Related Costs

Authors: G.E. Halkos, K.D. Tsilika
Journal: Applied Mathematics and Computation
Volume: 246
Pages: 586-596
Year: 2014
Citations: 19
Summary: This paper provides an analysis of the synergistic mechanisms driving climate change-related costs, utilizing advanced computational techniques to visualize and quantify these impacts. The findings offer valuable insights for decision-makers and policymakers tackling climate challenges.

5. Programming Correlation Criteria with Free CAS Software

Authors: G.E. Halkos, K.D. Tsilika
Journal: Computational Economics
Volume: 52
Pages: 299-311
Year: 2018
Citations: 14
Summary: This work introduces programming methodologies using free computer algebra systems (CAS) to implement correlation criteria. The study bridges computational tools and statistical analysis, enhancing accessibility and efficiency for researchers in economics and mathematics

Conclusion

Assoc. Prof. Dr. Kyriaki Tsilika exemplifies the qualities of an outstanding researcher through her innovative contributions to computational economics, her impactful publications, and her leadership in education and editorial roles. Her ability to combine advanced computational methods with practical economic solutions makes her a compelling candidate for the Best Researcher Award.

By expanding her global collaborations and integrating cutting-edge technologies into her research, Dr. Tsilika has the potential to drive further innovation and solidify her position as a global leader in computational economics and applied mathematics.

Mbuyu Germain Ntunka | Technological Networks | Best Researcher Award

Posted on 30/12/202430/12/2024 by usudeeparya

Dr. Mbuyu Germain Ntunka | Technological Networks | Best Researcher Award

Doctor at Durban University of Technology/Faculty of Engineering & The Bulit Environment, China📖

Dr. Mbuyu Germain Ntunka is a Senior Lecturer in the Department of Chemical Engineering at the Durban University of Technology (DUT), South Africa. With a career spanning academia, research, and industry, Dr. Ntunka has contributed extensively to chemical engineering, specializing in mineral processing, sustainable materials, and energy recovery. He is also a visiting Associate Professor at the University of Lubumbashi and an Honorary Researcher at the University of KwaZulu-Natal (UKZN).

Profile

Education Background🎓

Ph.D. in Chemical Engineering, University of KwaZulu-Natal, South Africa (2020)
M.Sc. in Chemical Engineering, University of the Witwatersrand, South Africa (2005)
B.Sc. (Eng) in Chemical Engineering, University of Lubumbashi, Democratic Republic of Congo (1996)
B.Sc. Eng Honours in Chemical Engineering, University of Lubumbashi, DRC (1998)

Dr. Ntunka also completed various training programs in teaching, hydrometallurgy, and advanced chemical processes, enhancing his expertise in education and engineering.

Professional Experience🌱

Dr. Ntunka has held multiple academic and professional positions, including:

Senior Lecturer, DUT (2022–Present)
Teaching, curriculum development, and program coordination for BEng Tech Honours.
Visiting Associate Professor, University of Lubumbashi (2023–Present)
Providing expertise in advanced chemical engineering topics.
Honorary Researcher & Ad-hoc Lecturer, UKZN (2022–2023)
Teaching Thermodynamics and Mass Transfer while contributing to research initiatives.
Lecturer, University of the Witwatersrand (2010)
Delivered courses on mass transfer and supported student research projects.
Tutor and Research Assistant, Wits University (2008–2010)
Assisted in research and education in chemical engineering.
Contract Engineer, Shituru Acid Plant, DRC (1998)
Industrial experience in acid production and chemical plant operations.

Research Interests🔬

Dr. Ntunka’s research interests include:

Sustainable materials development, focusing on waste valorization and circular economy.
Energy recovery and mineral processing, exploring innovative extraction and refining techniques.
Renewable and clean energy solutions, including biofuels and green chemistry applications.
Advanced chemical engineering processes, particularly in thermodynamics, mass transfer, and fluid dynamics.

Author Metrics

Dr. Mbuyu Germain Ntunka has established himself as a notable contributor to the field of chemical engineering, with a Google Scholar H-index of 3 and a Scopus H-index of 4, reflecting the growing impact of his research. His work has garnered over 53 citations, showcasing its relevance and influence within the academic community. With a ResearchGate Score of 8.35, Dr. Ntunka demonstrates active engagement in research dissemination and collaboration. He has contributed extensively to journals such as the Journal of Cleaner Production and the South African Journal of Chemical Engineers, while also serving as a reviewer with 21 verified peer-reviews on Publons. Recognized for his outstanding contributions, Dr. Ntunka received the prestigious JW Nelson Research Productivity Award in 2020. His research spans sustainable material development, energy recovery, and advanced chemical processes, cementing his role as a leader in promoting innovative and impactful solutions in engineering.

Publications Top Notes 📄

1. Review on the Manufacturing and Properties of Nonwoven Superabsorbent Core Fabrics Used in Disposable Diapers

Authors: G. Kakonke, T. Tesfaye, B.B. Sithole, M. Ntunka
Publisher: Trade Science Inc
Year: 2019
Citations: 27
Summary: This review focuses on the production processes and material properties of nonwoven superabsorbent core fabrics used in disposable diapers. The study emphasizes innovations in manufacturing and their implications for the performance and sustainability of these fabrics.

2. Production and Characterization of Cotton-Chicken Feather Fibres Blended Absorbent Fabrics

Authors: G. Kakonke, T. Tesfaye, B. Sithole, M. Ntunka
Journal: Journal of Cleaner Production
Volume: 243
Article Number: 118508
Year: 2020
Citations: 17
Summary: This research explores the production and characterization of blended absorbent fabrics made from cotton and chicken feather fibers. The study highlights the potential of using waste materials to create sustainable and efficient absorbent fabrics with high-performance properties.

3. Heterogeneous Acid-Catalyzed Biodiesel Production from Crude Tall Oil: A Low-Grade and Less Expensive Feedstock

Authors: N.M. Mkhize, B.B. Sithole, M.G. Ntunka
Journal: Journal of Wood Chemistry and Technology
Volume: 35
Issue: 5
Pages: 374–385
Year: 2015
Citations: 17
Summary: This paper investigates the production of biodiesel using crude tall oil, a low-grade and cost-effective feedstock. The research demonstrates the feasibility of using heterogeneous acid catalysis for biodiesel production, offering an innovative solution for sustainable fuel alternatives.

4. A Novel Method for Rapid Extraction of Biofibres from Waste Chicken Feathers

Authors: G. Kakonke, T. Tesfaye, B. Sithole, M. Ntunka
Journal: The Journal of Solid Waste Technology and Management
Volume: 47
Issue: 1
Pages: 31-45
Year: 2021
Citations: 2
Summary: This study presents a novel and efficient method for extracting biofibers from waste chicken feathers. The paper emphasizes the potential of converting agricultural waste into valuable bio-based materials for industrial applications.

5. Electrochemical Performance of Coated Titanium Anodes in Concentrated Chromium VI Solutions

Authors: M.G. Ntunka, A.B. Bryson, I. Cukrowski
Journal: ECS Transactions
Volume: 6
Issue: 13
Pages: 1
Year: 2007
Citations: 2
Summary: This work examines the electrochemical performance of coated titanium anodes in concentrated chromium VI solutions. The findings contribute to the understanding of electrode stability and efficiency in industrial electrochemical processes.

Conclusion

Dr. Mbuyu Germain Ntunka is a highly accomplished researcher whose work significantly advances the fields of chemical engineering, sustainability, and renewable energy. His innovative research, coupled with a strong academic and collaborative record, makes him a deserving candidate for the Best Researcher Award.

By enhancing industry collaborations and broadening the scope of his research to include emerging interdisciplinary technologies, Dr. Ntunka could further amplify his impact, solidifying his role as a global leader in chemical engineering research.

Yuan Zhang | Pharmaceutical Sciences | Best Researcher Award

Posted on 27/12/202427/12/2024 by usudeeparya

Prof. Yuan Zhang | Pharmaceutical Sciences | Best Researcher Award

Deputy Director at South China University of Technology, China📖

Dr. Yuan Zhang is a distinguished professor at South China University of Technology, where he serves in the School of Biomedical Sciences and Engineering at the Guangzhou International Campus. Additionally, he contributes to the National Engineering Research Center for Tissue Restoration and Reconstruction. With a career marked by groundbreaking research in pharmaceutical sciences and nanotechnology, Dr. Zhang has established himself as a leading figure in drug delivery systems and cancer research.

Profile

Education Background🎓

Dr. Zhang completed his postdoctoral research fellowship at the Massachusetts Institute of Technology (MIT) from 2013 to 2016, under the mentorship of Prof. Darrell J. Irvine, a National Academy of Medicine member and Howard Hughes Medical Institute (HHMI) investigator. He earned his Ph.D. in Pharmaceutical Sciences from the University of North Carolina at Chapel Hill in 2013, where he specialized in molecular pharmaceutics and nanotechnology. Before this, he received his M.S. in Pharmaceutical Sciences from Peking University in 2009, guided by Prof. Qiang Zhang, a member of the Chinese Academy of Engineering. Dr. Zhang also holds dual bachelor’s degrees in Pharmaceutical Sciences and Economics from Peking University.

Professional Experience🌱

Dr. Zhang began his academic career as an Assistant Professor at the University of Rhode Island from 2016 to 2019, where he excelled in advancing biomedical and pharmaceutical sciences. Since 2019, he has been a professor at South China University of Technology, contributing significantly to research in tissue restoration and reconstruction while mentoring the next generation of scientists.

Research Interests🔬

Dr. Zhang’s research focuses on nanotechnology for drug delivery, tissue engineering, and cancer therapy. He explores innovative approaches to enhance the efficacy and precision of drug delivery systems, emphasizing translational research to improve patient outcomes. His contributions to molecular pharmaceutics and tissue restoration have opened new avenues in biomedical sciences, particularly in regenerative medicine and targeted therapeutics.

Author Metrics

Dr. Zhang’s research has led to numerous high-impact publications in leading journals, reflecting his expertise in drug delivery systems, nanotechnology, and cancer therapeutics. His work is widely cited, underscoring his influence and thought leadership in pharmaceutical sciences.

Publications Top Notes 📄

1. In Vivo Gene Delivery by Nonviral Vectors: Overcoming Hurdles

Authors: Y. Zhang, A. Satterlee, L. Huang
Journal: Molecular Therapy, 2012, 20(7), pp. 1298–1304
Citations: 470
Summary:
This paper discusses the challenges of in vivo gene delivery using nonviral vectors, emphasizing strategies to overcome barriers such as stability, targeting efficiency, and cellular uptake. The study highlights advancements in nanotechnology and biomaterials that enhance the potential of nonviral vectors for clinical applications in gene therapy.

2. Delivering Safer Immunotherapies for Cancer

Authors: L. Milling, Y. Zhang, D.J. Irvine
Journal: Advanced Drug Delivery Reviews, 2017, 114, pp. 79–101
Citations: 305
Summary:
The paper reviews recent developments in cancer immunotherapies, focusing on minimizing systemic toxicity while enhancing efficacy. It explores strategies such as targeted delivery systems, immune checkpoint inhibitors, and nanocarriers to ensure safer and more effective immunotherapy solutions.

3. Nanoparticle Anchoring Targets Immune Agonists to Tumors Enabling Anti-Cancer Immunity Without Systemic Toxicity

Authors: Y. Zhang, N. Li, H. Suh, D.J. Irvine
Journal: Nature Communications, 2018, 9(1), Article 6
Citations: 215
Summary:
This study introduces a novel nanoparticle system for targeting immune agonists directly to tumors, thereby inducing a potent anti-cancer immune response. The method reduces systemic toxicity and enhances the therapeutic index of immune-based treatments, representing a breakthrough in cancer immunotherapy.

4. Biomimetic Diselenide‐Bridged Mesoporous Organosilica Nanoparticles as an X‐Ray‐Responsive Biodegradable Carrier for Chemo‐Immunotherapy

Authors: D. Shao, F. Zhang, F. Chen, X. Zheng, H. Hu, C. Yang, Z. Tu, Z. Wang, Y. Zhang, et al.
Journal: Advanced Materials, 2020, 32(50), Article 2004385
Citations: 199
Summary:
The paper presents innovative mesoporous organosilica nanoparticles with diselenide bridges for X-ray-triggered chemo-immunotherapy. These nanoparticles are biodegradable, providing a controlled drug release system that combines chemotherapy and immunotherapy for enhanced anti-cancer efficacy.

5. Lipid-Coated Cisplatin Nanoparticles Induce Neighboring Effect and Exhibit Enhanced Anticancer Efficacy

Authors: S. Guo, Y. Wang, L. Miao, Z. Xu, C.M. Lin, Y. Zhang, L. Huang
Journal: ACS Nano, 2013, 7(11), pp. 9896–9904
Citations: 145
Summary:
This research develops lipid-coated cisplatin nanoparticles that induce a “neighboring effect,” enhancing anticancer efficacy. The study demonstrates the nanoparticles’ ability to selectively target cancer cells, improve drug delivery, and minimize off-target toxicity, making them a promising candidate for advanced chemotherapy.

Conclusion

Dr. Yuan Zhang exemplifies the qualities of an outstanding researcher, with groundbreaking contributions to pharmaceutical sciences and nanotechnology. His work has significantly advanced the fields of drug delivery, cancer therapy, and tissue restoration, earning him high citation metrics and global recognition. By focusing more on translational research, interdisciplinary collaborations, and public engagement, Dr. Zhang could further amplify the real-world impact of his innovations.

Given his achievements, leadership roles, and potential for future contributions, Dr. Zhang is a highly suitable candidate for the Best Researcher Award, making him a deserving recipient of this prestigious honor.

Young Jae Kim | Life Science | Best Researcher Award

Posted on 27/12/202427/12/2024 by usudeeparya

Prof. Dr. Young Jae Kim | Life Science | Best Researcher Award

Professor at Changwon National University, South Korea📖

Dr. Young Jae Kim is a distinguished professor in the Department of Bio Health Science at the College of Natural Sciences, Changwon National University, Korea. With a career spanning over three decades, Dr. Kim has made significant contributions to the fields of biochemistry and microbiology. His extensive research has been pivotal in understanding the mechanisms of bacterial proteins, enzymatic systems, and bioactive compounds, as reflected in his numerous high-impact publications.

Profile

Education Background🎓

Dr. Kim earned his Bachelor’s degree from Kyungpook National University, Korea, in 1983. He later pursued his doctoral studies at Tokyo University, Japan, obtaining his Ph.D. in 1991. His academic journey laid a strong foundation for his subsequent research and teaching endeavors.

Professional Experience🌱

Dr. Kim began his career as a researcher at the prestigious Kitasato Research Institute in Japan. He further honed his expertise during his postdoctoral tenures at Wesleyan University in the United States and the Korea Institute of Biotechnology (KRRIB). Dr. Kim also served as a visiting professor at Tokyo University, Japan, before joining Changwon National University in 1995, where he continues to inspire students and contribute to groundbreaking research.

Research Interests🔬

Dr. Kim’s research interests are centered on microbial biochemistry, enzymology, and bioactive compounds. His work delves into protein translocation in bacterial membranes, respiratory enzyme systems, and the biochemical properties of novel enzymes. Recently, he has explored the biochemical changes in food components during processing, emphasizing applications in health and nutrition.

Author Metrics

Dr. Kim has an impressive body of work, including publications in high-impact journals such as Cell, FEBS Letters, and the Journal of Immunology. His research has garnered recognition in the scientific community, with studies focusing on bacterial proteins, enzymatic activities, and bioactive compounds. His latest research on the properties of chlorogenic acid in roasted coffee beans reflects his continued pursuit of innovation.

Publications Top Notes 📄

1. Purification and Characterization of a Novel Thermoacid-Stable Fibrinolytic Enzyme from Staphylococcus sp. Strain AJ Isolated from Korean Salt-Fermented Anchovy-Joet

Authors: Choi, N.-S., Song, J.J., Chung, D.-M., Maeng, P.J., Kim, S.-H.
Journal: Journal of Industrial Microbiology and Biotechnology, 2009, 36(3), pp. 417–426.
Summary:
This study focused on isolating and characterizing a unique fibrinolytic enzyme from Staphylococcus sp. strain AJ. The enzyme exhibits exceptional thermoacid stability, making it a potential candidate for industrial and pharmaceutical applications.

2. HQNO-Sensitive NADH:Quinone Oxidoreductase of Bacillus cereus KCTC 3674

Authors: Kang, J., Young, J.K.
Journal: Journal of Biochemistry and Molecular Biology, 2007, 40(1), pp. 53–57.
Citations: 3
Summary:
This paper investigates the enzymatic properties and sensitivity of NADH:quinone oxidoreductase in Bacillus cereus. The enzyme’s sensitivity to HQNO highlights its specific role in the bacterial respiratory chain.

3. Enzymatic Properties of the Membrane-Bound NADH Oxidase System in the Aerobic Respiratory Chain of Bacillus cereus

Authors: Man, S.K., Young, J.K.
Journal: Journal of Biochemistry and Molecular Biology, 2004, 37(6), pp. 753–756.
Citations: 12
Summary:
This research characterizes the NADH oxidase system in Bacillus cereus, detailing its role in aerobic respiration and energy metabolism.

4. The Influence of NaCl and Carbonylcyanide-m-Chlorophenylhydrazone on the Production of Extracellular Proteases in a Marine Vibrio Strain

Authors: Young, J.K.
Journal: Journal of Microbiology, 2004, 42(2), pp. 156–159.
Citations: 3
Summary:
This study examines the effects of NaCl and a protonophore on extracellular protease production in a marine Vibrio strain, shedding light on environmental factors affecting enzyme activity.

5. Enzymatic and Energetic Properties of the Aerobic Respiratory Chain-Linked NADH Oxidase System in the Marine Bacterium Pseudomonas nautica

Authors: Cho, K.H., Kim, Y.J.
Journal: Molecules and Cells, 2000, 10(4), pp. 432–436.
Citations: 7
Summary:
This paper explores the energy transduction properties of NADH oxidase in Pseudomonas nautica, highlighting its significance in the marine bacterium’s respiratory processes.

Conclusion

Dr. Young Jae Kim is a highly deserving candidate for the Best Researcher Award. His extensive research, international academic background, and impactful publications underline his expertise in life sciences. He has significantly advanced our understanding of microbial biochemistry and enzymatic systems, making meaningful contributions to both fundamental and applied science.

While his research portfolio is already robust, further efforts to broaden its societal impact and interdisciplinary applications could enhance his profile even more. Overall, his achievements, innovation, and dedication to the field strongly align with the criteria for the Best Researcher Award.

Xiuhua Lu | Blockchain | Best Researcher Award

Posted on 27/12/202427/12/2024 by usudeeparya

Assoc. Prof. Dr. Xiuhua Lu | Blockchain | Best Researcher Award

Master Supervisor at Qufu Normal university, China📖

Xiuhua Lu, an Associate Professor at the School of Cyber Science and Engineering, Qufu Normal University, hails from Taian, Shandong, China. Born in October 1979, she has dedicated her career to advancing knowledge in lattice cryptography, blockchain, and federated learning. Her expertise in mathematics and information security has established her as a prominent figure in the field of cybersecurity and applied cryptography.

Profile

Education Background🎓

Xiuhua Lu holds a Bachelor of Science in Mathematics and Applied Mathematics from Shandong Normal University (1998–2002). She pursued a Master of Science in Applied Mathematics at Capital Normal University (2002–2005), deepening her analytical and mathematical prowess. Later, she earned a Doctor of Engineering in Information Security from Beijing University of Posts and Telecommunications (2011–2019), where she focused on advanced topics in cybersecurity and cryptography.

Professional Experience🌱

Xiuhua Lu began her academic journey as an Assistant Teacher at Langfang Normal University in 2005, progressing to Lecturer and subsequently Associate Professor during her 16-year tenure. Since January 2022, she has been serving as an Associate Professor at Qufu Normal University, where she continues to mentor students and lead research projects in the School of Cyber Science and Engineering.

Research Interests🔬

Xiuhua Lu’s research interests include lattice cryptography, blockchain technology, and federated learning. Her work focuses on developing secure and efficient solutions for modern challenges in data privacy, distributed systems, and cryptographic algorithms, positioning her as a key contributor to advancements in these areas.

Author Metrics

Xiuhua Lu has contributed significantly to her field through numerous research publications in lattice cryptography, blockchain applications, and federated learning. Her scholarly work is recognized for its innovative approach and practical applications, garnering citations and establishing her influence in cybersecurity and data privacy.

Publications Top Notes 📄

1. Quantum-Resistant Identity-Based Signature with Message Recovery and Proxy Delegation

Authors: Lu, X., Wen, Q., Yin, W., Panaousis, E., Chen, J.
Journal: Symmetry, 2019, 11(2), 272
Abstract: This paper presents a quantum-resistant identity-based signature scheme that incorporates message recovery and proxy delegation capabilities. Leveraging lattice-based cryptography, the proposed method ensures robust security against quantum attacks while enhancing efficiency in identity-based systems.
Citations: 6

2. Message Integration Authentication in the Internet-of-Things via Lattice-Based Batch Signatures

Authors: Lu, X., Yin, W., Wen, Q., Chen, L., Chen, J.
Journal: Sensors (Switzerland), 2018, 18(11), 4056
Abstract: This study explores lattice-based batch signatures for message authentication in IoT systems. The proposed scheme effectively integrates and authenticates multiple messages simultaneously, addressing security and computational efficiency in resource-constrained IoT environments.
Citations: 4

3. A Lattice-Based Unordered Aggregate Signature Scheme Based on the Intersection Method

Authors: Lu, X., Yin, W., Wen, Q., Jin, Z., Li, W.
Journal: IEEE Access, 2018, 6, pp. 33986–33994
Abstract: This paper introduces a lattice-based unordered aggregate signature scheme utilizing the intersection method. The method enhances computational efficiency and scalability while ensuring strong security foundations, suitable for applications requiring high-performance aggregate signing.
Citations: 23

4. The Prediction of PM2.5 Value Based on ARMA and Improved BP Neural Network Model

Authors: Zhu, H., Lu, X.
Conference: Proceedings of the 2016 International Conference on Intelligent Networking and Collaborative Systems (IEEE INCoS), 2016, pp. 515–517
Abstract: This research proposes a hybrid model combining ARMA and an improved BP neural network for accurate PM2.5 value predictions. The model demonstrates improved forecasting accuracy, contributing to better environmental monitoring and pollution control strategies.
Citations: 46

5. A Lattice-Based Signcryption Scheme Without Trapdoors

Authors: Lu, X., Wen, Q., Wang, L., Du, J.
Journal: Dianzi Yu Xinxi Xuebao/Journal of Electronics and Information Technology, 2016, 38(9), pp. 2287–2293
Abstract: The authors develop a lattice-based signcryption scheme that eliminates the need for trapdoors, enhancing both security and practical applicability. The scheme is tailored for secure communication in post-quantum scenarios, balancing confidentiality, authenticity, and efficiency.
Citations: 11

Conclusion

Dr. Xiuhua Lu is an outstanding candidate for the Best Researcher Award, owing to her groundbreaking work in quantum-resistant cryptography, blockchain technology, and federated learning. Her scholarly contributions are marked by innovation, practical relevance, and academic rigor, aligning seamlessly with the award’s objectives. Addressing areas like expanded collaboration, outreach, and leadership in large-scale projects could further elevate her already stellar profile.

Recommendation:

Awarding Dr. Lu this recognition would highlight her pivotal role in advancing cybersecurity and cryptographic research, inspiring further contributions in these critical fields.

Jianxin Deng | Data Extraction | Best Researcher Award

Posted on 26/12/202426/12/2024 by usudeeparya

Prof. Jianxin Deng | Data Extraction | Best Researcher Award

Professor at Guangxi University, China📖

Jianxin Deng is a professor and Ph.D. candidate supervisor in Mechanical Engineering at Guangxi University and serves as the vice director of the Guangxi Key Laboratory of Manufacturing Systems and Advanced Manufacturing Technology. He has an extensive academic and professional background, contributing to advancements in intelligent manufacturing, manufacturing systems, informatics, and squeeze-casting technology. With over 60 published academic papers and 15 national invention patents, along with one U.S. patent, his innovative work continues to impact the field significantly.

Profile

Education Background🎓

Jianxin Deng earned his master’s degree in Industrial Engineering from Chongqing University, China, followed by a Ph.D. in Mechanical Engineering from South China University of Technology, China. His academic foundation laid the groundwork for his multidisciplinary research in manufacturing and data engineering.

Professional Experience🌱

Currently, Jianxin Deng holds a pivotal academic position as a professor at Guangxi University, where he mentors Ph.D. candidates and leads critical research initiatives. His collaborative work includes partnerships with renowned institutions such as Georgia Institute of Technology and South China University of Technology, focusing on integrated process models and data-driven design methods. As an editor for the journal Equipment Manufacturing Technology and a senior member of the Chinese Mechanical Engineering Society, he actively shapes the future of his field.

Research Interests🔬

Jianxin Deng’s research spans intelligent manufacturing, industrial engineering, manufacturing systems, and data-driven solutions. His recent work on the efficient extraction method EMbTTBF highlights his expertise in developing innovative approaches to address data augmentation and literature analysis challenges. His ongoing projects focus on creating adaptable and efficient methodologies for modern manufacturing and data engineering.

Author Metrics

Jianxin Deng’s scholarly impact is evident through his publication of 45 articles in leading journals indexed by SCI and Scopus, achieving a citation index of 284. His contributions also extend to authoring books such as those with ISBNs 9787517027737 and 9787040557039. He has secured 22 patents, including 15 in China and one in the United States, further reflecting his influence in both academic and industrial domains.

Publications Top Notes 📄

1. Resource Coordination Scheduling Optimisation of Logistics Information Sharing Platform Considering Decision Response and Competition

Authors: Deng, J., Chen, X., Wei, W., Liang, J.
Journal: Computers and Industrial Engineering
Year: 2023
Volume: 176
Article Number: 108892
Citations: 7
Abstract: This paper presents a novel optimization framework for logistics information sharing platforms that integrates decision-making response times and competitive factors. The study employs advanced coordination models to enhance resource scheduling efficiency, ensuring balanced competition among stakeholders and improved logistics operations.

2. Review of Design of Process Parameters for Squeeze Casting

Authors: Deng, J., Xie, B., You, D., Huang, H.
Journal: Chinese Journal of Mechanical Engineering (English Edition)
Year: 2023
Volume: 36
Issue: 1
Article Number: 146
Citations: 3
Abstract: This review provides a comprehensive analysis of squeeze casting process parameters, highlighting key advancements and challenges. It outlines methodologies for optimizing casting performance and introduces new perspectives for the design and control of process variables.

3. Intelligent Optimization Design of Squeeze Casting Process Parameters Based on Neural Network and Improved Sparrow Search Algorithm

Authors: Deng, J., Liu, G., Wang, L., Wu, X.
Journal: Journal of Industrial Information Integration
Year: 2024
Volume: 39
Article Number: 100600
Citations: 1
Abstract: This paper introduces an intelligent framework leveraging neural networks and an improved sparrow search algorithm to optimize squeeze casting process parameters. The proposed approach achieves enhanced precision and efficiency, reducing production defects and material waste.

4. The Parameter Identification of Metro Rail Corrugation Based on Effective Signal Extraction and Inertial Reference Method

Authors: Sun, H., He, D., Ma, H., Wen, Z., Deng, J.
Journal: Engineering Failure Analysis
Year: 2024
Volume: 158
Article Number: 108043
Citations: 7
Abstract: This study develops a novel methodology for identifying metro rail corrugation parameters using signal extraction and inertial reference techniques. The findings contribute to more effective rail maintenance strategies, enhancing safety and operational performance.

5. Blockchain-Based Security Access Control System for Sharing Squeeze Casting Process Database

Authors: Deng, J., Liu, G., Zeng, X.
Journal: Integrating Materials and Manufacturing Innovation
Year: 2024
Volume: 13
Issue: 1
Pages: 92–104
Citations: 1
Abstract: This research proposes a blockchain-based access control system for securely sharing squeeze casting process databases. The system enhances data integrity and accessibility, enabling collaborative innovation in manufacturing processes.

Conclusion

Prof. Jianxin Deng is an outstanding candidate for the Best Researcher Award. His innovative contributions to intelligent manufacturing, logistics optimization, and data-driven methodologies are highly impactful, and his patents underscore the practical relevance of his work. Although there are opportunities to diversify his application areas and enhance outreach, his achievements firmly position him as a leading figure in mechanical engineering and manufacturing research.

Recommendation:

Prof. Deng’s remarkable accomplishments and continued dedication to advancing his field make him a strong contender deserving of the award.

Büşra Çalmaz | Clique Mining | Best Researcher Award

Posted on 26/12/202426/12/2024 by usudeeparya

Mrs. Büşra Çalmaz | Clique Mining | Best Researcher Award

Research and Teaching Assistant at Izmir Institute of Technology, Turkey📖

Büşra Çalmaz is a dedicated Postdoctoral Research Fellow specializing in computer engineering with a focus on graph mining and k-clique counting algorithms. She has extensive experience in developing computational methodologies for analyzing large-scale networks, emphasizing applications in social network analysis, bioinformatics, and cybersecurity. Her innovative contributions include k-clique counting and frequent subgraph mining, techniques essential for uncovering complex patterns in extensive datasets. Büşra has published her work in high-impact journals and is committed to advancing graph-based methodologies through research and collaboration.

Profile

Education Background🎓

Büşra is pursuing a Ph.D. in Computer Science at the Izmir Institute of Technology, Turkey, where her thesis focuses on “Graphlet Mining in Big Data” and is expected to be completed in 2024. She earned her M.Sc. in Computer Science from the same institution in 2018, with a thesis on analyzing social media data through frequent pattern mining methods. Her academic journey began with a B.Sc. in Computer Science from Selçuk University, Konya, Turkey, in 2015.

Professional Experience🌱

Since 2016, Büşra has served as a Research and Teaching Assistant in the Computer Engineering Department at the Izmir Institute of Technology. She contributes to various courses, including Data Structures, Computer Networks, and Distributed Information Management, and develops practical assignments and lab sessions to enhance learning. She also assists in grading, assessing student work, and collaborating with faculty to refine course content and teaching methodologies.

Research Interests🔬

Büşra’s research interests lie in graph mining, frequent subgraph mining, k-clique counting algorithms, and large-scale network analysis. She is passionate about using computational methodologies to solve real-world problems in fields like social network analysis, biological motif identification, and cybersecurity. Her recent work emphasizes enhancing algorithmic efficiency and scalability for analyzing complex networks, with a strong inclination toward integrating advanced tools like Apache Spark and Hadoop for distributed computing.

Author Metrics

Büşra has contributed to impactful research, including a survey on k-clique counting on large-scale graphs, accepted for publication in PeerJ Computer Science in 2024. Her notable works include “BDAC: Boundary-Driven Approximations of K-Cliques,” published in Symmetry, and a qualitative survey on frequent subgraph mining, published in Open Computer Science. Her publications showcase her expertise in computational efficiency, parallel computing, and data mining methodologies.

Publications Top Notes 📄

1. A Qualitative Survey on Frequent Subgraph Mining

Authors: B. Güvenoglu, B.E. Bostanoğlu
Published in: Open Computer Science, Volume 8, Issue 1, Pages 194-209
Year: 2018
DOI: https://doi.org/10.1515/comp-2018-0018
Abstract: This paper provides a comprehensive survey on frequent subgraph mining techniques, detailing methodologies, algorithmic advancements, and applications across domains such as bioinformatics, social networks, and cheminformatics. The authors emphasize the computational challenges of scalability and propose qualitative comparisons to guide researchers in selecting appropriate methods.
Citations: 15

2. BDAC: Boundary-Driven Approximations of K-Cliques

Authors: B. Çalmaz, B.E. Bostanoğlu
Published in: Symmetry, Volume 16, Issue 8, Article 983
Year: 2024
DOI: https://doi.org/10.3390/sym16080983
Abstract: This paper introduces the BDAC algorithm, a novel approach to approximate k-clique counts in large-scale networks using boundary-driven techniques. The method balances accuracy and computational efficiency, making it suitable for real-world applications in large datasets. Performance is evaluated against state-of-the-art algorithms, showcasing improvements in both runtime and memory usage.
Citations: 1

3. k-Clique Counting on Large Scale-Graphs: A Survey

Authors: B. Çalmaz, B.E. Bostanoğlu
Published in: PeerJ Computer Science, Volume 10, Article e2501
Year: 2024
Abstract: This survey explores the challenges and methodologies associated with k-clique counting in large-scale graphs, focusing on recent advancements in parallel computing and approximation algorithms. It highlights application areas, including community detection and fraud detection, and outlines open research challenges in the field.
Status: In press / Awaiting publication

4. Analyzing Social Media Data by Frequent Pattern Mining Methods

Author: B. Güvenoğlu
Published in: PQDT-Global
Year: 2018
Abstract: This study applies frequent pattern mining techniques to analyze social media data, extracting insights about user behavior and interaction patterns. The research demonstrates the utility of data mining in handling unstructured data from platforms like Twitter and Facebook, with implications for marketing and sentiment analysis.
Thesis publication: Based on M.Sc. thesis work

Conclusion

Mrs. Büşra Çalmaz is an outstanding candidate for the Best Researcher Award, with a strong portfolio of impactful publications and innovative contributions to graph mining and k-clique counting algorithms. Her dedication to solving complex computational problems, combined with her academic achievements and teaching experience, positions her as a leader in her field.

While she could enhance her research through industry collaborations and community engagement, her existing strengths make her highly deserving of this recognition. Awarding her would not only acknowledge her significant achievements but also encourage further groundbreaking work in graph mining and large-scale network analysis.

Dongdong An | Graph Neural Networks | Best Researcher Award

Posted on 23/12/202423/12/2024 by usudeeparya

Assist. Prof. Dr. Dongdong An | Graph Neural Networks | Best Researcher Award

Lecture at Shanghai Normal University, China📖

Dr. AN Dongdong is a lecturer at Shanghai Normal University in the College of Information and Mechanical & Electrical Engineering. He has a strong academic background with a focus on the security and verification of AI and cyber-physical systems. His work, including research on Graph Neural Networks and dynamic verification, has contributed significantly to advancing the reliability and security of AI applications. Dr. An is also actively involved in several research projects funded by prestigious institutions like the National Natural Science Foundation of China.

Profile