Alireza Valizadeh | Social Impact of Scientific Discoveries | Advanced Business Science Innovations Award

Advanced Business Science Innovations Award

Alireza Valizadeh
University of Dundee, United Kingdom

Alireza Valizadeh
Affiliation University of Dundee
Country United Kingdom
Scopus ID 58895991500
Documents 2
Citations 71
h-index 2
Subject Area Social Impact of Scientific Discoveries
Event International Invention Awards
ORCID 0000-0002-7475-1566

The Advanced Business Science Innovations Award recognizes researchers whose scholarly contributions demonstrate meaningful interdisciplinary impact across technology, sustainability, industrial innovation, and societal advancement. Alireza Valizadeh of the University of Dundee has contributed to emerging research areas including machine learning applications, advanced alloys, battery technologies, recycling systems, sustainable energy transitions, and strategic supply chain analysis. His published works reflect an interest in connecting technological development with practical industrial challenges and broader socioeconomic considerations.[1]

Abstract

This article presents an academic overview of Alireza Valizadeh and evaluates his suitability for recognition through the Advanced Business Science Innovations Award. His research portfolio combines data-driven innovation, sustainable manufacturing, advanced materials engineering, renewable energy systems, and strategic industrial analysis. Through publications addressing machine learning, battery recycling, alloy development, and critical mineral supply chains, his work illustrates the interdisciplinary nature of contemporary scientific and business innovation.[2]

Keywords

Machine Learning, Sustainable Energy, Battery Recycling, Critical Minerals, Supply Chain Analysis, Advanced Alloys, Industrial Innovation, Renewable Energy Transition.

Introduction

Modern business science increasingly depends upon the integration of computational intelligence, sustainability objectives, and technological innovation. Researchers who bridge these domains contribute to both scientific progress and practical industrial development. Alireza Valizadeh’s academic work addresses several strategic challenges, including resource sustainability, manufacturing efficiency, advanced materials development, and circular economy practices.[3]

Research Profile

Based at the University of Dundee, Valizadeh has participated in research exploring advanced engineering systems and data-centric innovation. His scholarly interests span machine learning applications in battery technologies, materials optimization, sustainable manufacturing, and geopolitical dimensions of critical material supply chains. These areas are increasingly important for industry, policymakers, and global sustainability initiatives.[4]

Research Contributions

  • Investigated machine learning applications in lithium-ion battery systems and future technology trends.
  • Explored predictive analytics for battery recycling efficiency and resource recovery.
  • Contributed to research on alloy innovation through machine learning methodologies.
  • Examined NdFeB magnet supply chains from geopolitical, technological, and ESG perspectives.
  • Participated in studies related to high-performance cobalt alloy casting technologies.

Publications

  • Supply Chains of NdFeB Magnets: A Conceptual Framework for Geopolitics, Geoeconomics, Technology, and ESG (2026)
  • Machine Learning in Lithium-Ion Battery: Applications, Challenges, and Future Trends (2024)
  • Alloys Innovation Through Machine Learning (2024)
  • Predictive Precision in Battery Recycling (2024)
  • Demonstration of a High-Performance Continuous Casting Process for Cobalt Alloy ASTM F75 (2024)

Research Impact

The research themes addressed by Valizadeh align with major industrial and societal priorities, including energy transition, sustainable resource management, and digital transformation. His publications demonstrate how machine learning techniques can improve industrial decision-making while supporting environmental objectives. The integration of technological innovation with sustainability considerations reflects broader trends within contemporary business science and engineering research.[5]

Award Suitability

The Advanced Business Science Innovations Award recognizes contributions that connect scientific advancement with practical value creation. Valizadeh’s interdisciplinary portfolio demonstrates engagement with emerging technologies, sustainable industrial systems, and strategic resource management. These qualities support consideration for recognition within programs that emphasize innovation, societal relevance, and evidence-based technological development.[6]

Conclusion

Alireza Valizadeh’s research contributions span multiple fields at the intersection of engineering, sustainability, and business innovation. Through work on machine learning, advanced materials, energy technologies, and critical supply chains, he has contributed to discussions relevant to modern industrial transformation. His academic profile reflects the interdisciplinary character associated with the objectives of the International Invention Awards and the Advanced Business Science Innovations Award.

References

  1. Elsevier. (n.d.). Scopus author details: Alireza Valizadeh, Author ID 58895991500. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=58895991500
  2. Valizadeh, A. (2026). Supply Chains of NdFeB Magnets: A Conceptual Framework for Geopolitics, Geoeconomics, Technology, and ESG.
    https://doi.org/10.1016/j.rset.2026.100153
  3. Valizadeh, A. (2024). Machine Learning in Lithium-Ion Battery: Applications, Challenges, and Future Trends.
    https://doi.org/10.1007/s42979-024-03046-2
  4. Valizadeh, A. (2024). Alloys Innovation Through Machine Learning.
    https://doi.org/10.1080/27660400.2024.2326305
  5. Valizadeh, A. (2024). Predictive Precision in Battery Recycling.
    https://doi.org/10.1016/j.compchemeng.2024.108623
  6. Valizadeh, A. (2024). Demonstration of a High-Performance Continuous Casting Process for Cobalt Alloy ASTM F75.
    https://doi.org/10.1051/matecconf/202440109001

Ā Dr. Yi -FengĀ  Ren | Oral Microbiology | Best Researcher Award

Ā Dr. Yi -FengĀ  Ren | Oral Microbiology | Best Researcher Award

Hospital of Chengdu University of Traditional Chinese Medicine,China

Yi-Feng Ren is a dedicated medical professional specializing in oncology and clinical medicine. With a robust educational background, including a Master’s degree from Henan University and academic exchange experience at Tokyo University, he is passionate about advancing cancer research and treatment methodologies.

ProfileĀ 

ScopusĀ 

Education šŸŽ“

Yi-Feng Ren completed his Bachelor’s degree in Clinical Medicine at Chongqing Medical University in June 2017. He then pursued a Master’s degree in Clinical Medicine at Henan University, graduating in June 2020. He further enriched his academic experience with an exchange program at the Department of Medicine, Tokyo University, Japan, from July to September 2019. Currently, he is advancing his studies at Chengdu University of TCM in Oncology.

Experience šŸ„

Ren has extensive experience in clinical and translational research, focusing on lung cancer and microbiota interactions. His contributions to the field include roles as a medical practitioner and researcher, alongside active participation in editorial boards of esteemed medical journals.

Research Interests šŸ”¬

Role of Oral Microbiota: Investigating its impact on lung cancer prediction.

Tumor Metastasis Mechanisms: Understanding the biological processes involved in tumor spread.

Patient-Derived Organoids: Exploring clinical applications of organoids for personalized cancer treatment.

Innovative Diagnostics: Developing new approaches for cancer diagnostics.

Therapeutics Development: Advancing treatment methodologies in oncology.

Awards šŸ†

Yi-Feng Ren has received various accolades for his contributions to medical research and practice, recognizing his commitment to improving patient care and advancing medical knowledge.

Selected Publications šŸ“š

CXCL9+TAMs and TREM2+TAMs are involved in the invasion and metastasis of ground-glass and part-solid nodules in lung adenocarcinoma. Mol Cancer, 2024.

Oral microbiota as a biomarker for predicting the risk of malignancy in indeterminate pulmonary nodules: a prospective multicenter study. Int J Surg, 2025.

Mechanisms underlying the effects, and clinical applications, of oral microbiota in lung cancer: current challenges and prospects. Crit Rev Microbiol, 2023.

Patient-derived organoids of lung cancer based on organoids-on-a-chip: enhancing clinical and translational applications. Front Bioeng Biotechnol, 2023.

Saliva-microbiome-derived signatures: Expected to become a potential biomarker for pulmonary nodules (MCEPN-1). BMC Microbiol, 2024

 

Prof. Chae-Ryong Cho | Secondary batteries | Best Researcher Award

Prof. Chae-Ryong Cho | Secondary batteries | Best Researcher Award

Department of Nanoenergy Engineering/Pusan National University, South Korea.

Prof. Chae-Ryong Cho is a distinguished physicist specializing in nanoenergy engineering. Currently serving as a professor at Pusan National University (PNU) in Busan, Korea, he has made significant contributions to the fields of lithium-ion batteries, photocatalysts, and nanostructured materials. His research has been widely recognized, with numerous publications and patents to his name.

Profile

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Education šŸŽ“

Prof. Chae-Ryong Cho earned his Bachelor of Science (B.S.) in Physics from Pusan National University, Busan, Korea (1982-1986). He then pursued a Master of Science (M.S.) in Surface Physics at Gyeongsang National University, Jinju, Korea (1986-1988). Later, he completed his Doctor of Philosophy (Ph.D.) in Solid-State Physics at Pusan National University, Busan, Korea (1991-1995), specializing in the advanced study of solid-state materials and their physical properties.​

Experience šŸ¢

Prof. Chae-Ryong Cho is a Professor of Nanoenergy Engineering at Pusan National University (PNU) since 2006, specializing in secondary batteries and surface physics. He currently serves as Director of the Secondary Battery Convergence and Open Sharing System (COSS) and Secondary Battery Convergence Major at PNU (2023-Present), as well as Director of the Secondary Batteries Industry Technical Human Resource Development Center (SBitHRD) (2021-Present).

Previously, he was Dean of the College of Nanoscience & Nanotechnology at PNU (2018-2020) and a Visiting Scholar at the University of Illinois at Urbana-Champaign (2013-2014). His research experience includes roles at Korea Basic Science Institute (KBSI), Electronics and Telecommunications Research Institute (ETRI), University of Minnesota, and UIUC. His work focuses on solid-state physics, surface analysis, and secondary battery technology.

Research Interests šŸ”¬

Lithium-ion Batteries: Focus on developing advanced anode and cathode materials.​

Sodium (Na) and Potassium (K) Ion Batteries: Exploration of alternative energy storage solutions.​

All-Solid-State Batteries: Researching safer and more efficient battery technologies.​

In Situ Structural Analysis: Studying real-time structural changes in materials.​

Electrochemical Analysis of Active Materials: Investigating the electrochemical properties of battery components.​

Awards šŸ†

2005: President's Award (ROK)​

2018: Busan Science and Technology Award​

2018: Busan Mayor Award​

2021: Congratulatory Plaque from BISTEP Director​

2024: Deputy Prime Minister Award, Ministry of Education​

Selected Publications šŸ“š

Realization of a 2H-Si microneedle with an ultrafast growth rate of 6.7 Ɨ 10⁓ Ć…Ā·s⁻¹

Authors: S. Mun, K. Kim, S. Park, Y. Kang, H. Ahn

Journal: Semiconductor Science and Technology, 2025

Enhanced Li storage of pure crystalline-C60 and TiNbā‚‚O₇-nanostructure composite for Li-ion battery anodes

Authors: I. Jeon, L. Yin, D. Yang, H. Ahn, C. Cho

Journal: Journal of Energy Chemistry, 2024

Citations: 3

Enhancing Li-Ion Battery Anodes: Synthesis, Characterization, and Electrochemical Performance of Crystalline C60 Nanorods with Controlled Morphology and Phase Transition

Authors: L. Yin, D. Yang, I. Jeon, M. Park, C. Cho

Journal: ACS Applied Materials and Interfaces, 2024

Citations: 3

Enhanced electrochemical performance and interdiffusion behavior of sodium ions in onion-derived freeze-dried and KOH-activated carbon for sodium-ion battery anodes

Authors: I. Jeon, T. Kim, J. Seo, D. Yang, C. Cho

Journal: Applied Surface Science, 2024

Citations: 5

Electrochemical behavior of Ag nanoparticle-incorporated Liā‚„Tiā‚…O₁₂ nanofibers as Li-ion battery anodes under visible light exposure

Authors: H. Yang, D. Yang, I. Jeon, J. Seo, C. Cho

Journal: Applied Surface Science, 2024

 

 

Prof. Dr. Maria Helena Pimentel | Nursing Education | Outstanding Contribution Award

Prof. Dr. Maria Helena Pimentel | Nursing Education | Outstanding Contribution Award

Instituto PolitƩcnico de BraganƧa, Portugal.

Maria Helena Pimentel is a distinguished Professor Coordinator at the Polytechnic Institute of BraganƧa (IPB), Portugal, specializing in Nursing and Health Sciences. With decades of experience in academia and healthcare, she has contributed significantly to research in sociology, nursing education, and public health. Her leadership roles in the IPB, including serving as Director of the School of Health, demonstrate her commitment to advancing higher education and healthcare training.

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šŸŽ“ Education

Prof. Dr. Maria Helena Pimentel holds a Ph.D. in Sociology (2011) from the University of Minho, Portugal, with a thesis on "Lifestyle and Health: The Daily Life of Students at the Polytechnic Institute of BraganƧa." She earned a Master’s in Nursing Sciences (1999) from the University of Porto, focusing on "Nursing Students’ Perceptions of the Profession." Additionally, she completed a Postgraduate Specialization in Child and Pediatric Health Nursing (1993) at the Coimbra School of Nursing and obtained her Bachelor's Degree in Nursing (1985) from the Polytechnic Institute of BraganƧa, Portugal.

šŸ‘©ā€šŸ« Professional Experience

Prof. Dr. Maria Helena Pimentel is a Professor Coordinator (2012–present) at the Polytechnic Institute of BraganƧa, Portugal, where she previously served as an Adjunct Professor (2000–2012) and an Assistant Professor (1993–2000). Before her academic career, she worked as a Nurse (1986–1989) at the BraganƧa Hospital Unit, Portugal.

šŸ”¬ Research Interests

Maria Helena Pimentel's research focuses on:

Nursing Education and Training

Public Health and Healthcare Systems

Sociology of Health and Well-being

Lifestyle and Student Health

šŸ† Awards & Leadership Roles

Director of the School of Health – IPB (2009–2017)

President of the Scientific and Pedagogical Council – IPB (2009–2017)

Member of the Scientific Council of IPB (2017–Present)

International Collaborations through Erasmus Programs (Spain, France, Portugal)

šŸ“š Selected Publications

"Consumption of Major Psychoactive Substances During the COVID-19 Pandemic Among Higher Education Students", Revista de Enfermagem ReferĆŖncia (2023). DOI: 10.12707/RVI22031

"Local Health Unit: A Vertical Integration Model of Healthcare", Revista de Enfermagem ReferĆŖncia (2022). DOI: 10.12707/RV21061

"Human Work on the Frontline of the Pandemic: Socio-Health Assistance", Lex Social: Revista de Derechos Sociales (2021). DOI: 10.46661/lexsocial.5972

"Participation in Community Intervention Programs and Quality of Life: Findings from a Multicenter Study in Portugal", Revista Brasileira de Geriatria e Gerontologia (2020). DOI: 10.1590/1981-22562020023.190017

"Social Benefits in Portuguese Public Higher Education Over the Last Four Decades", AULA (2017). DOI: 10.14201/aula201723

 

 

 

 

Dr. Leonardo Di Giustino | Quantum Chromodynamics Ā | Best Researcher Award

Dr. Leonardo Di Giustino | Quantum Chromodynamics Ā | Best Researcher Award

University of Insubria, Italy.

Leonardo Di Giustino is an Italian theoretical physicist specializing in Quantum Chromodynamics (QCD) and condensed matter physics. With two Ph.D. degrees in physics, his research spans from renormalization scale-setting in QCD to electron states in metal interfaces. He has held research positions at institutions such as the University of Insubria, Max Planck Institute, and SLAC National Accelerator Laboratory. In addition to his academic career, he has extensive experience as a high school teacher in mathematics and physics.

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EducationšŸŽ“

Dr. Leonardo Di Giustino holds two Ph.D. degrees in physics, demonstrating his deep expertise in both theoretical and computational physics. He earned his Ph.D. in Physics (2022, cum laude) from the University of Insubria, Italy, with a thesis titled "The Renormalization Scale-Setting Problem in QCD," focusing on fundamental issues in quantum chromodynamics. Earlier, he completed his first Ph.D. in Physics (2005) at the University of Modena and Reggio Emilia, Italy, where his research, "Ab initio study of NiO-Fe interfaces: electron states and magnetic configurations," explored the electronic and magnetic properties of materials at the atomic level. His academic journey began with an M.Sc. in Physics (2001) from the University of Rome "La Sapienza," where he investigated "Semileptonic Inclusive Decays of Heavy Flavors." In addition to his research credentials, he holds High School Teaching Qualifications from the University of Modena and the University of Parma, equipping him with the expertise to educate and inspire future generations in mathematics and physics.

ExperiencešŸ¢

Dr. Leonardo Di Giustino is a dedicated researcher with extensive experience in theoretical physics, particularly in quantum chromodynamics (QCD) and renormalization scale-setting methods. From 2022 to 2024, he served as a Postdoctoral Researcher at the University of Insubria, Italy, where he contributed to advancements in high-energy physics. His research journey includes international collaborations, such as his role as a Visiting Scientist at SLAC National Accelerator Laboratory, USA (2011, 2018–2019), where he worked alongside leading physicists on cutting-edge particle physics projects. Additionally, he was a Fellowship Researcher at the Max Planck Institute for Physics, Germany (2012–2013), further strengthening his expertise in theoretical physics. Earlier in his career, he was a Research Fellow at the University of Parma, Italy (2006–2007), contributing to fundamental studies in physics. Alongside his research activities, Dr. Di Giustino has been committed to education, serving as a Mathematics and Physics teacher since 2007, inspiring and mentoring students in scientific disciplines. His diverse experience highlights his dedication to both academic research and science education.

Research InterestsšŸ”¬

Quantum Chromodynamics (QCD)

Renormalization and Regularization Methods in QCD

Collider Physics and Precision Calculations

Condensed Matter Physics & Magnetic Interfaces

Awards & FellowshipsšŸ†

Angelo Della Riccia Foundation Fellowship (2011)

Max Planck Institute Fellowship (2012-2013)

Postdoctoral Fellowship, University of Insubria (2022-2024)

Selected PublicationsšŸ“š

1.Detailed Comparison of Renormalization Scale-Setting Procedures Based on the Principle of Maximum Conformality

Journal: Nuclear Physics B

Publication Date: April 2023

Contributors: Xu-Dong Huang, Jiang Yan, Hong-Hao Ma, Leonardo Di Giustino, Jian-Ming Shen, Xing-Gang Wu, Stanley J. Brodsky

Key Insights:

Compares various renormalization scale-setting methods.

Demonstrates the advantages of the Principle of Maximum Conformality (PMC) in eliminating scheme and scale ambiguities in QCD calculations.

2. Elimination of QCD Renormalization Scale and Scheme Ambiguities

Journal: Universe

Publication Date: April 2023

Contributors: Sheng-Quan Wang, Stanley Brodsky, Xing-Gang Wu, Jian-Ming Shen, Leonardo Di Giustino

Key Insights:

Focuses on how PMC removes renormalization ambiguities and improves QCD predictions.

Discusses applications of PMC in high-energy physics.

3. Elimination of QCD Renormalization Scale and Scheme Ambiguities (Preprint)

Publication Date: February 16, 2023

Contributors: Leonardo Di Giustino

Key Insights:

Early version of the Universe journal article.

Highlights the challenges in conventional renormalization procedures and how PMC provides a systematic solution.

4. The Renormalization Scale-Setting Problem in QCD (Ph.D. Thesis)

Publication Date: May 25, 2022

Contributors: Leonardo Di Giustino

Key Insights:

A comprehensive analysis of renormalization scale-setting methods in QCD.

Discusses theoretical foundations and applications of PMC.

5. Thrust Distribution for 3-Jet Production from e⁺e⁻ Annihilation within the QCD Conformal Window and in QED

Journal: Physics Letters B

Publication Date: December 2021

Contributors: Leonardo Di Giustino, Francesco Sannino, Sheng-Quan Wang, Xing-Gang Wu

Key Insights:

Applies PMC to 3-jet production in QCD and QED.

Examines the thrust distribution and its implications for high-energy physics.

 

 

 

Dr. Cyril Ugwuogor | Functional Analysis | Best Researcher Award

Dr. Cyril Ugwuogor | Functional Analysis | Best Researcher Award

Madonna University Nigeria Elele, Nigeria.

Prof. Ugwuogor Cyril Ifeanyichukwu is a distinguished mathematician and researcher specializing in Functional Analysis and Fixed Point Theory. With a strong academic background and extensive teaching experience, he has made remarkable contributions to mathematical optimization, iterative processes, and nonlinear analysis. Currently serving as a Lecturer at Madonna University Nigeria, he has also participated in various international conferences and published impactful research in renowned journals.

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Education šŸŽ“

Prof. Cyril Ugwuogor has pursued his academic journey across Nigeria’s top institutions, specializing in Mathematics. He earned his Ph.D. in Mathematics (Functional Analysis) from the Federal University of Technology, Owerri, in 2024. Prior to that, he obtained an M.Sc. in Mathematics (Functional Analysis) from the University of Nigeria, Nsukka, in 2017, where he had also completed his B.Sc. in Mathematics in 2006. His foundational education includes the Senior Secondary Certificate Examination (SSCE) in 2000 and the First School Leaving Certificate in 1993.

Experience šŸ‘Øā€šŸ«

With over a decade of experience in academia, Prof. Cyril Ugwuogor has held multiple teaching and administrative roles across various institutions. Since 2018, he has served as a Lecturer II at Madonna University Nigeria, where he teaches and mentors students in mathematics. He has also contributed as a Mathematics Tutor for JUPEB Mathematics Courses, helping to prepare students for higher education. From 2009 to 2012, he worked as a Postgraduate Demonstrator at the University of Nigeria, Nsukka, assisting in advanced mathematics instruction. Additionally, he held leadership positions as the Head of School and Head of the Mathematics Department at Doyen Academy School between 2014 and 2018. His early teaching experience includes serving as an NYSC Mathematics Teacher at Community Secondary School, Moriki, Zamfara State, from 2007 to 2008.

Research Interests šŸ”¬

Prof. Ugwuogor’s research focuses on:
āœ” Fixed Point Theory & Functional Analysis – Exploring iterative processes and convergence theorems.
āœ” Mathematical Optimization – Developing novel methods for solving nonlinear equations.
āœ” Fractional Differential Equations – Application of Caputo-type fractional equations in Banach spaces.
āœ” Nonlinear Analysis & Operator Theory – Investigating stability and computational approaches.

Awards & Recognitions šŸ†

šŸ… Young Mathematician Award – Nigerian Mathematical Society
šŸ… Best Paper Presentation Award – Mathematical Analysis and Optimization Research Group (MANORG)
šŸ… Research Excellence Award – Madonna University Nigeria

Notable Publications šŸ“š

Prof. Ugwuogor has published extensively in internationally recognized journals. Here are some of his key papers:

1ļøāƒ£ Strong convergence theorems for equilibrium problems and fixed points of asymptotically nonexpansive map

Nigerian Mathematical Society Journal (2014, Vol. 33, p.77)

2ļøāƒ£ Iterative construction of the fixed point of Suzuki’s generalized nonexpansive mappings in Banach spaces

Fixed Point Theory Journal (2022, No. 2, 633-652) DOI: 10.24193/fpt-ro.2022.2.13

3ļøāƒ£ Convergence analysis of a new implicit iteration process for asymptotically nonexpansive mappings in Banach spaces

The Journal of Analysis DOI: 10.1007/s41478-022-00520-z

4ļøāƒ£ A novel fixed point iteration process applied in solving the Caputo type fractional differential equations in Banach spaces

International Journal of Modern Physics C DOI: 10.1142/S0129183124501766

5ļøāƒ£ Approximation of the fixed point of multivalued mapping in Banach spaces with applications

Mathematics (MDPI) (2025, Vol. 13, Issue 739) DOI: 10.3390/math13050739

 

 

Ms. Chia Min Ho | Environmental Engineering | Best Researcher Award

Ms. Chia Min Ho | Environmental Engineering | Best Researcher Award

Beihang University, Malaysia.

Prof. Ho Chia Min is a dedicated researcher and academic specializing in Environmental Engineering, Materials Science, and Sustainable Materials. With expertise in structural engineering, he focuses on developing innovative materials for construction and environmental sustainability. Currently pursuing a PhD in Environmental Science (Materials Science and Engineering) at Beijing Aeronautics and Astronautics University, China, he has a strong academic background and professional experience in research and industry. His work has been recognized through multiple publications in high-impact journals, contributing significantly to the advancement of eco-friendly and high-performance construction materials.

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šŸŽ“ Education

Ms. Chia Min Ho is an emerging researcher in environmental science and materials engineering, currently pursuing a Ph.D. in Environmental Science (Materials Science and Engineering) at Beijing Aeronautics and Astronautics University, China (2024 – Present). She holds a Master of Science in Civil Engineering (Materials and Structures) from University Malaysia Pahang (2021 – 2023) and a Bachelor’s Degree (Hons) in Civil Engineering from the same university (2017 – 2021). Her academic journey began with a Diploma in Civil Engineering from Polytechnic Sultan Salahuddin Abdul Aziz Shah, Malaysia (2014 – 2017). With a strong foundation in civil and materials engineering, her research interests focus on sustainable construction materials, structural performance, and environmental-friendly innovations in engineering.

šŸ’¼ Experience

Ms. Chia Min Ho is a dedicated Civil and Structural Engineer with experience in both industry and research. She has been working at Brown Consulting Pte Ltd, Singapore from October 2022 to September 2024, where she specializes in designing and analyzing structural systems for commercial and residential projects. Her role involves conducting site assessments, ensuring compliance with safety and building codes, and preparing technical reports and presentations for clients.

Before this, she served as a Research Assistant at University Malaysia Pahang, Malaysia from October 2021 to October 2022. During this time, she contributed to research in structural engineering and material science, developing testing methodologies, analyzing experimental data, and assisting in the publication of research findings. Her combined experience in both practical engineering and academic research makes her a well-rounded professional in the field of civil and structural engineering.

šŸ”¬ Research Interests

Environmental Engineering – Sustainable construction materials and eco-friendly practices

Materials Engineering – Development of high-performance and durable building materials

Sustainable Materials – Utilizing industrial byproducts like steel slag in cement and concrete applications

Structural Engineering – Evaluating material performance under extreme conditions (elevated temperatures, water absorption, etc.)

šŸ† Awards & Honors

Young Researcher Excellence Award – Recognized for outstanding contributions to environmental and materials engineering research

Best Paper Award – Awarded for innovative research on cement replacement using steel slag

Top 10 Emerging Scientists in Materials Engineering – Recognized for advancements in sustainable materials

šŸ“š Selected Publications

1ļøāƒ£ Ho, C. M., Doh, S. I., Chin, S. C., & Li, X. (2024). The effect of particle sizes of steel slag as cement replacement in high strength concrete under elevated temperatures. Construction and Building Materials, 411, 134531.Ā (Cited by: 0)

2ļøāƒ£ Ho, C. M., Doh, S. I., Chin, S. C., & Li, X. (2023). Prediction of concrete residual compressive strength under elevated temperatures: Response surface methodology (RSM) approach. Materials Today: Proceedings. (Cited by: 0)

3ļøāƒ£ Ho, C. M., Doh, S. I., Jing, G., Chin, S. C., & Li, X. (2023, May). Investigation of superplasticizer dosage on fresh and hardened properties of steel slag mortar. AIP Conference Proceedings, 2688(1). Ā (Cited by: 0)

4ļøāƒ£ Ho, C. M., Doh, S. I., Li, X., Chin, S. C., & Ashraf, T. (2022). RSM-based modelling of cement mortar with various water-to-cement ratio and steel slag content. Physics and Chemistry of the Earth, 128, 103256. (Cited by: 3)

5ļøāƒ£ Ho, C. M., Doh, S. I., Al-Btoush, A. M., Li, X., & Chin, S. C. (2022). The impact of alkali activator dosage on the compressive strength and water absorption of steel slag concrete. Materials Today: Proceedings, 51, 1323-1326. (Cited by: 2)

Dr. Xiuling Wang | Molecular biology | Best Researcher Award

Dr. Xiuling Wang | Molecular biology | Best Researcher Award

Shandong University, China.

Dr. Xiuling Wang is a researcher at the State Key Laboratory of Microbial Technology, Shandong University. Her expertise lies in DNA editing technology, focusing on the mining, modification, and biosynthesis of microbial natural products. She completed her master’s and doctoral studies under Prof. Jun Fu at Shandong University, following her undergraduate research at Shandong Agricultural University under Prof. Binghai Du, where she investigated plant-rhizosphere growth-promoting bacteria.

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šŸ“š Education

Dr. Xiuling Wang holds a Ph.D. in Molecular Biology from Shandong University, where she further advanced her expertise in the biological sciences. She also earned a Master’s degree in Microbial Technology from Shandong University, deepening her understanding of the practical applications of microorganisms. Dr. Wang's academic journey began with a Bachelor's degree in Agricultural Sciences from Shandong Agricultural University, laying the foundation for her career in research. Her work focuses on the intersection of molecular biology, microbial technology, and agricultural sciences, contributing to advancements in these fields.

šŸ’¼ Experience

Dr. Xiuling Wang is a dedicated researcher at the State Key Laboratory of Microbial Technology, Shandong University, where she explores cutting-edge advancements in microbial science. She is also actively involved in the National Key Research & Development Program of China (2018YFA0900400), contributing to innovative research initiatives aimed at addressing critical scientific and industrial challenges. Her expertise in molecular biology and microbial technology positions her at the forefront of groundbreaking developments in these fields.

šŸ”¬ Research Interests

Molecular Biology

DNA Editing & Recombinant Systems

Microbial Natural Product Biosynthesis

Silent Gene Cluster Activation

šŸ† Awards & Achievements

Principal Investigator in a National Key Research & Development Program of China

Two China Invention Patents (Application No: 202411054594.4 & CN202411058039.9)

Discovered a novel lipopeptide (Plantariitin A) with anti-inflammatory properties

šŸ“„ Publications

A recombineering system for Bacillus subtilis based on the native phage recombinase pair YqaJ/YqaK
Q. Liu, R. Li, H. Shi, Y. Zhang, J. Fu, X. Wang, Engineering Microbiology, 2023.

Genomics-Driven Discovery of Plantariitin A, a New Lipopeptide in Burkholderia plantarii DSM9509
Xiuling Wang, Zhuo Zhang, Jun Fu, Ruijuan Li
Molecules, 2025, 30(4), 868
DOI: 10.3390/molecules30040868

 

 

Mr. Zheting Meng | Physics and Astronomy | Best Researcher Award

Mr. Zheting Meng | Physics and Astronomy | Best Researcher Award

Institute of Optics and Electron, China.

Mr. Meng Zheting is a graduate student at the Institute of Optoelectronics Technology, Chinese Academy of Sciences, specializing in light field regulation and vector light field control applications. With a strong background in physics and optoelectronics, he is dedicated to advancing laser wireless power transfer (LWPT) for UAVs. His research focuses on developing lightweight air-floating metalenses, significantly improving laser energy distribution and wireless charging efficiency.

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šŸŽ“ Education

Meng Zheting holds a Bachelor of Science in Physics from Sichuan University, where he developed a strong foundation in optics and photonics. His undergraduate studies sparked a deep interest in light field manipulation, leading him to pursue further specialization. Currently, he is enrolled in a Master of Science in Optoelectronics at the Institute of Optoelectronics Technology, Chinese Academy of Sciences. His graduate research focuses on the principle and method of light field regulation, particularly in vector light field control applications. Through his academic journey, he has gained extensive expertise in laser wireless power transfer (LWPT) and its innovative applications, contributing to the advancement of unmanned aerial vehicle (UAV) endurance and efficient long-range wireless energy transfer.

šŸ’¼ Experience

Meng Zheting is currently a Graduate Researcher (2023–Present) at the Research Center on Vector Optical Fields, Institute of Optoelectronics Technology, Chinese Academy of Sciences. His research is dedicated to advancing Laser Wireless Power Transfer (LWPT) technologies, aiming to enhance Unmanned Aerial Vehicle (UAV) endurance by overcoming critical challenges such as beam divergence, non-uniform irradiation, and alignment instability. His innovative work includes the development of a lightweight air-floating metalens that significantly improves laser focusing and energy distribution, achieving up to 75% uniformity in experiments. This breakthrough has the potential to revolutionize long-range wireless power transmission, expanding applications in aerospace, defense, and renewable energy sectors.

šŸ”¬ Research Interests

Light field regulation and vector light field control applications

Laser Wireless Power Transfer (LWPT) for UAVs

Metalens-based optical focusing for power transmission

šŸ“š Publication

Meng, Z., Xiao, Y., Chen, L., Wang, S., Fang, Y., Zhou, J., Li, Y., Zhang, D., Pu, M., & Luo, X. (2025). Floating Multi-Focus Metalens for High-Efficiency Airborne Laser Wireless Charging. Photonics, 12(2), Article 150. DOI: 10.3390/photonics12020150

This study presents a floating multi-focus metalens designed to enhance airborne laser wireless charging efficiency. By improving laser focusing precision and energy uniformity, the proposed technology addresses key limitations in long-range wireless power transfer (LWPT), significantly boosting UAV endurance and operational capabilities.

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Dr. Huazhang Guo | Nanomaterials | Best Researcher Award

Dr. Huazhang Guo | Nanomaterials | Best Researcher Award

Shanghai University, China.

Huazhang Guo is a Research Associate at Shanghai University, specializing in the green, controllable preparation and application of carbon nanomaterial functional materials. With a strong background in nanomaterials and catalysis, she has made significant contributions to sustainable energy conversion and chemical production. Over the years, she has published 13 high-impact journal articles, including in Nature Communications, Advanced Functional Materials, and Materials Today. Her work has garnered 1834 citations with an H-index of 22, and she also serves as a guest editor for the journals Molecules and Nanomaterials.

Profile

Scopus

Education šŸŽ“

Huazhang Guo pursued her Ph.D. in Materials Science at Shanghai University, where she specialized in the green and controllable preparation of carbon nanomaterial functional materials. Prior to that, she earned her Master’s degree in Nanomaterials from the same institution, focusing on advanced material synthesis and their applications in energy conversion and catalysis. She began her academic journey with a Bachelor’s degree in Chemistry, which laid the foundation for her expertise in material chemistry, nanotechnology, and sustainable materials. Her strong academic background has contributed significantly to her research in carbon-based functional materials and electrocatalysis.

Experience šŸ‘©ā€šŸ”¬

Huazhang Guo is currently a Research Associate at Shanghai University, where she focuses on the green and controllable preparation of carbon nanomaterial functional materials. In addition to her research role, she serves as a Guest Editor for the journals Molecules and Nanomaterials, contributing her expertise to advancing scientific publications in nanotechnology and materials science.

She actively collaborates with leading universities and has co-authored research papers in prestigious journals such as Nature Communications, ACS Nano, Carbon, Applied Materials Today, and Molecules. Her work emphasizes electrocatalysis, sustainable material applications, and nanomaterial innovations.

Research Interests šŸ”¬

Carbon Nanomaterials: Green and controllable synthesis for various applications

Electrocatalytic Reduction of COā‚‚ (ECOā‚‚RR): Sustainable syngas production with tunable CO/Hā‚‚ ratios

Energy Conversion & Catalysis: Designing efficient and stable carbon-based catalysts for COā‚‚ utilization

Advanced Functional Materials: Exploring their role in sustainable chemistry

Awards & Achievements šŸ†

5 Highly Cited Papers (ESI Top Papers)

1834 Total Citations & H-index of 22

1 Authorized Chinese Invention Patent & 15 Patent Applications

Editorial Role in Molecules and Nanomaterials

Selected Publications šŸ“š

Recent advances in amino-functionalized metal–organic frameworks for sustainable photocatalytic carbon dioxide reduction
Yaning Liu, Huazhang Guo, Zhonghua Sun, Jiye Zhang, Zhihui Zhang
Separation and Purification Technology, 2025
Cited by: 1

Harnessing graphene quantum dots for the selective and sensitive detection of dye contaminants
Yuping Xiong, Weitao Li, Luoman Zhang, Jiye Zhang, Liang Wang
Diamond and Related Materials, 2025

Optimizing the crystal structure and electrochemical properties of Naā‚„MnCr(POā‚„)ā‚ƒ by trace La doping
Keyi Sun, Yuxuan Liu, Wenbin Fei, Yulei Sui, Ling Wu
Applied Surface Science, 2025

Radiation-synthesis of covalent bonding heterojunctions for selective solar-driven COā‚‚ reduction
Weidong Hou, Huazhang Guo, Kang Wang, Ming Hong Wu, Liang Wang
Materials Today, 2025

Radiation-Synthesized Metal–Organic Frameworks with Ligand-Induced Lewis Pairs for Selective COā‚‚ Electroreduction
Wenhui Liu, Bijun Tang, Kai Huang, Zhendong Lei, Liang Wang
Small, 2024
Cited by: 7