Tarek Naadia | Civil engineering materials | Industry Impact Award

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Dr. Tarek Naadia | Civil engineering materials | Industry Impact Award

Dr. Tarek Naadia, Ecole Polytechnique d’Architecture et d’Urbanisme (EPAU), Algeria.

Dr. Tarek Naadia, a prominent scholar at the Ecole Polytechnique d’Architecture et d’Urbanisme (EPAU) in Algeria, has carved a significant place in the academic and professional spheres of architecture and urbanism. His journey began with a strong academic foundation in architectural theory and urban design, eventually evolving into a distinguished teaching and research career. With a focus on sustainable architecture, urban morphology, and heritage-sensitive design, Dr. Naadia’s work bridges traditional values and contemporary challenges. His influence is evident in both the classroom and the urban landscape, as he continues to mentor students and contribute to public and academic discourse on urban planning and design.

 

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🎓 Early Academic Pursuits

Dr. Tarek Naadia began his academic journey with a profound interest in architecture and urbanism, fields that demand both creative vision and analytical precision. His formative years were marked by rigorous training in design principles, environmental planning, and the socio-cultural aspects of urban spaces. His commitment to academic excellence led him to pursue higher education at prestigious institutions, where he developed a strong foundation in architectural theory and urban design methodology. These early academic experiences shaped his research direction and laid the groundwork for his future as a scholar and educator.

🏛️ Professional Endeavors

As a dedicated faculty member at the Ecole Polytechnique d’Architecture et d’Urbanisme (EPAU) in Algeria, Dr. Naadia has played a vital role in mentoring the next generation of architects and urban planners. His professional career has been characterized by a balance between academic instruction, applied research, and collaboration with governmental and urban development bodies. He has been actively involved in curriculum development, cross-disciplinary workshops, and strategic planning initiatives, all of which underscore his commitment to enhancing architectural education and practice in Algeria.

🧠 Contributions and Research Focus

Dr. Naadia’s research is deeply rooted in the intersection of sustainable architecture and urban morphology. He has explored themes such as adaptive reuse of urban space, vernacular architecture, and the socio-environmental impacts of urban expansion. His scholarly contributions often address the challenges of modernity within historic urban fabrics, advocating for a harmonious blend of tradition and innovation. Through his analytical frameworks, he contributes to rethinking spatial organization in North African cities, drawing attention to climatic responsiveness, community engagement, and architectural identity.

🏆 Accolades and Recognition

Throughout his academic and professional career, Dr. Naadia has been recognized for his impactful research and dedication to the field. He has received commendations for his publications and conference presentations, both nationally and internationally. These accolades reflect not only his scholarly excellence but also his ability to contextualize architectural issues within the broader socio-cultural and environmental landscapes. His insights have earned him a respected position among Algerian architectural scholars and practitioners.

🌍 Impact and Influence

Dr. Naadia’s work extends beyond academic circles into real-world urban challenges faced by Algerian cities and the broader Maghreb region. His critical analyses and design propositions have influenced public discourse on urban regeneration, heritage conservation, and sustainable development. By bridging theoretical knowledge and practical applications, he has contributed to more inclusive, resilient, and culturally sensitive urban environments. His teachings continue to inspire students to engage with architecture not only as a profession but as a tool for societal transformation.

🧱 Legacy and Future Contributions

Looking ahead, Dr. Naadia envisions a continued dialogue between traditional architectural practices and contemporary urban needs. His legacy lies in his holistic approach to urbanism—one that respects the past while innovating for the future. He aims to expand his research into digital tools for urban analysis and climate-responsive design, positioning his work within global conversations about smart cities and ecological architecture. Through future collaborations and publications, he seeks to shape policies and pedagogies that support sustainable urban futures.

🏙️ Vision in Urban Design Research

At the core of Dr. Naadia’s scholarly identity is a visionary approach to urban design. He perceives cities as dynamic organisms shaped by culture, climate, and community. His research continues to interrogate how built environments respond to human needs, ecological pressures, and technological advancements. By advocating for context-aware urbanism, he contributes to a more equitable and adaptive understanding of city-making. His vision is one of inclusive growth, architectural integrity, and environmental stewardship.

Publication

  • Title: Rheological and mechanical optimization of a steel fiber reinforced self-compacting concrete using the design of experiments method
    Authors: D. Gueciouer, G. Youcef, N. Tarek
    Year: 2022

 

  • Title: Development of a measuring procedure of rheological behavior for self compacting concrete
    Authors: T. Naadia, Y. Ghernouti, D. Gueciouer
    Year: 2020

 

 

  • Title: Corrélations rhéologie-compacité-granularité des bétons autoplaçants
    Author: T. Naadia
    Year: 2014

 

  • Title: Optimization of Steel Fiber-Reinforced Self-Compacting Concrete with Tuff Powder
    Authors: T. Naadia, D. Gueciouer
    Year: 2025

 

  • Title: Formulation and characterization of steel fiber reinforced self-compacting concrete (SFRSCC) based on marble powder
    Authors: T. Naadia, D. Gueciouer, Y. Ghernouti
    Year: 2025

 

  • Title: Effect of the aggregates size on the rheological behaviour of the self compacting concrete
    Authors: T. Naadia, F. Kharchi
    Year: 2013

 

🏁 Conclusion

Dr. Naadia’s career stands as a testament to the power of thoughtful, research-driven architecture in shaping better urban futures. His interdisciplinary approach, grounded in cultural sensitivity and sustainability, continues to guide new generations of architects and planners in Algeria and beyond. As he looks toward the future, Dr. Naadia is poised to make further contributions that not only enrich academic understanding but also inform real-world solutions for more inclusive, resilient, and livable cities.

Zakyeh Akrami | Analytical Chemistry | Best Researcher Award

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Dr. Zakyeh Akrami | Analytical Chemistry | Best Researcher Award

Dr. Zakyeh Akrami, Farhangian University, Iran.

Zakyeh Akrami is a distinguished Assistant Professor at Farhangian University with a rich academic background in applied chemistry, electroanalytical chemistry, and nanotechnology. Her research focuses on the development of innovative electrochemical sensors using nanocomposites like ZnS/MIL-125, which significantly enhance sensor performance. She has made notable contributions to the fields of analytical chemistry, chemistry education, and nanotechnology, producing 18 SCI-indexed publications and an impressive h-index of 9. Throughout her career, she has earned recognition for her work on cost-effective and highly sensitive sensor technologies, which have applications in healthcare, environmental monitoring, and industry. Her legacy extends through her mentorship of students and ongoing contributions to scientific research and education.

 

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Scholar

Early academic pursuits 📚

Zakyeh Akrami’s academic journey began with her undergraduate studies at the University of Kashan, where she earned her BSc in Applied Chemistry in 2002. Driven by a passion for chemistry, she continued her studies at the University of Yazd, completing her MSc in 2004 with excellent distinction under the guidance of Professor M.M. Ardakani. Her interest in the intricate world of chemical processes and their applications laid a strong foundation for her subsequent research career. She then pursued a PhD in Electroanalytical Chemistry at the University of Yazd, working under Professor R.K. Shervedani on the functionalization of self-assembled monolayers (SAMs) for the development of innovative electrochemical sensors.

Professional endeavors 👩‍🔬

Zakyeh Akrami is currently an Assistant Professor at Farhangian University, where she imparts her deep knowledge of analytical chemistry and its applications in sensor technology. She has built a reputation for her expertise in electrochemical systems and nanotechnology, particularly focusing on developing highly efficient sensors for detecting both inorganic and biological species. As a passionate educator, she integrates her research findings into her teaching, enriching the learning experience for her students. Beyond academia, Dr. Akrami has also contributed to consultancy projects, helping industries harness the power of electrochemical sensors for practical applications.

Contributions and research focus 🔬

Dr. Akrami’s research primarily revolves around analytical chemistry, with a focus on creating innovative electrochemical sensors. One of her notable contributions includes the development of a cost-effective and highly sensitive electrochemical sensor using a ZnS/MIL-125 nanocomposite. This research explores the synergistic effects of combining metal-organic frameworks (MOFs) with nanomaterials to enhance sensor performance, including increased sensitivity, faster response times, and improved durability. Her work also extends to exploring the potential of nanotechnology in supercapacitors, corrosion prevention, and fuel cell development, showcasing her commitment to advancing sustainable and efficient technologies in the field of chemistry.

Accolades and recognition 🏅

Throughout her career, Zakyeh Akrami has garnered significant recognition for her groundbreaking work in electroanalytical chemistry. With an impressive h-index of 9, Dr. Akrami has published 18 papers in prestigious SCI-indexed journals, solidifying her position as a leading researcher in her field. Her work on electrochemical sensors has attracted considerable attention for its innovative approach and practical applications, earning her the respect of both her peers and industry professionals. As a recognized expert, she has also served on editorial boards for scientific journals, further amplifying her influence in the academic community.

Impact and influence 🌍

Dr. Akrami’s contributions to the field of analytical chemistry have made a significant impact on both academic research and industrial applications. Her development of nanocomposite-based sensors has opened new avenues for more sensitive, cost-effective, and durable detection methods, benefiting environmental monitoring, healthcare, and industrial sectors. Moreover, her educational influence extends beyond the classroom, as she mentors the next generation of chemists and engineers, fostering a passion for research and scientific inquiry. Her work continues to inspire students and colleagues alike, reinforcing the importance of innovation and sustainability in chemistry.

Legacy and future contributions 🔮

As Zakyeh Akrami looks toward the future, her passion for research and development in electrochemical systems remains as strong as ever. Her legacy in the academic community is defined by her unwavering commitment to innovation, as well as her desire to make a tangible difference through the practical application of her research. Moving forward, Dr. Akrami aims to explore the potential of new nanomaterials and their integration into sensor technologies, with an eye toward further advancements in renewable energy and environmental sustainability. Her future contributions promise to shape the future of analytical chemistry and inspire breakthroughs in multiple industries.

📚 Publications

  • Electrocatalytic characteristics of uric acid oxidation at graphite–zeolite-modified electrode doped with iron (III)
    Authors: MM Ardakani, Z Akrami, H Kazemian, HR Zare
    Year: 2006

 

  • Nanostructure Molecular Assemblies Constructed Based on Ex-Situ and In-Situ Layer-by-Layer Ferrioxamation Characterized by Electrochemical and Scanning
    Authors: R Karimi Shervedani, Z Akrami, H Sabzyan
    Year: 2011

 

  • Gold–deferrioxamine nanometric interface for selective recognition of Fe (III) using square wave voltammetry and electrochemical impedance spectroscopy methods
    Authors: RK Shervedani, Z Akrami
    Year: 2013

 

  • Preconcentration and electroanalysis of copper at zeolite modified carbon paste electrode
    Authors: M Mazloum-Ardakani, Z Akrami, H Kazemian, HR Zare
    Year: 2009

 

  • A simple route to surface functionalization of graphene nanosheets by benzoic acid and its application toward Pb (ii) sensing
    Authors: S Rooyanian, M Bagherzadeh, Z Akrami, AN Golikand
    Year: 2018

 

  • The effectiveness of education with the STEM approach in the development of entrepreneurial thinking in chemistry students
    Author: Z Akrami
    Year: 2022

 

  • Accumulation and voltammetric determination of cobalt at zeolite-modified electrodes
    Authors: MM Ardakani, Z Akrami, H Kazemian, HR Zare
    Year: 2008

 

  • One-step synthesis of reduced graphene oxide and magnetic graphene: characterization and its application in electrochemical detection of lead (II) ions
    Authors: M Bagherzadeh, M Jabouri-Abassi, Z Akrami
    Year: 2019

 

  • Sulfate-selective electrode based on a complex of copper
    Authors: MM Ardakani, Z Akrami, M Mansournia, HR Zare
    Year: 2006

 

  • Electrochemical detection of Cr (III) and Cr (VI) in solution by using ZrO2 modified magnetic nanoparticles by redox probes
    Authors: M Bagherzadeh, Z Hadizadeh, Z Akrami, ZS Ghahfarokhi
    Year: 2021

 

Conclusion

Zakyeh Akrami’s career reflects a remarkable commitment to advancing scientific knowledge and practical applications in electrochemical sensing and nanotechnology. Her innovative research continues to make a significant impact on both academia and industry, and her educational efforts shape the future of the chemistry field. With her strong track record of publications, collaborations, and recognition, Dr. Akrami is poised to make even greater contributions in the years to come, driving advancements that will benefit various industries and inspire future generations of researchers.

 

Xin He | Nanomaterials and Nanodevices | Best Researcher Award 

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Dr. Xin He | Nanomaterials and Nanodevices | Best Researcher Award

Dr. Xin He, Yunnan Normal University, China.

Xin he, serving as a teaching secretary at yunnan normal university, has made significant contributions to the field of low-dimensional materials and their applications in electronic and optoelectronic devices. with a strong academic foundation and a research focus on first-principles calculations combined with the non-equilibrium green’s function, xin explores material behaviors at nanoscale levels. balancing professional endeavors with impactful research, xin he continues to influence technological advancements while fostering innovation and academic growth within the university environment.

 

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✨ Early academic pursuits

Xin he’s academic journey began with a profound curiosity for materials science and its applications in technology. during their early studies, xin developed a keen interest in understanding the fundamental properties of materials, driven by a solid foundation in physics and engineering. this passion led to a commitment to exploring how materials interact at the atomic level, setting the stage for future research endeavors.

🔬 Professional endeavors

As the teaching secretary at yunnan normal university, xin he plays an integral role in academic administration while actively contributing to research. balancing organizational responsibilities and academic pursuits, xin has created a unique space where administration supports innovation and student growth. the role highlights xin’s dedication to both education and research excellence.

💡 Contributions and research focus

Xin he’s primary research lies in exploring low-dimensional materials and their applications in electronic and optoelectronic devices. using first-principles calculations combined with the non-equilibrium green’s function, xin investigates the behavior of materials at nanoscale dimensions. these groundbreaking studies aim to enhance electronic device efficiency and unlock new opportunities in optoelectronic technologies, addressing key challenges in the technological field.

🏆 Accolades and recognition

Through consistent dedication to research, xin has earned recognition for significant contributions to material science and device engineering. while accolades often remain understated, xin’s meticulous work and research methodology have received appreciation within academic circles and among peers at yunnan normal university.

🌍 Impact and influence

Xin he’s work has laid a strong foundation for understanding low-dimensional materials and their real-world applications. by contributing insights into material behavior in advanced devices, xin’s research influences technological advancements that bridge the gap between theory and practical innovation. this research not only impacts the scientific community but also inspires students and aspiring researchers to delve into material sciences.

🚀 Legacy and future contributions

looking ahead, xin aims to continue exploring emerging materials and technologies, driving advancements in electronic and optoelectronic devices. xin’s focus on low-dimensional materials holds immense promise for future breakthroughs, fostering innovations that could revolutionize industries and reshape how technology interacts with the environment.

📚 Commitment to education and research

At yunnan normal university, xin he exemplifies a harmonious balance between research and teaching administration. by encouraging students to engage in research-driven learning and upholding institutional excellence, xin ensures the future generation benefits from a supportive and inspiring academic environment.

📚 Publications

  • Tunable interface properties of Janus MoSi₂N₂P₂/graphene van der Waals heterostructure: Implications for electronic and optoelectronic devices
    Authors: Mengshi Dai, Lianmeng Yu, Xiaobo Feng, Qianjin Wang, Xin He
    Year: 2024

 

  • Achieving real Ohmic contact by the dual protection of outer layer atoms and surface functionalization in 2D metal Mxenes/MoSi₂N₄ heterostructures
    Authors: X. He, Wenzhong Li, Z. Gao, Z. Zhang, Yao He
    Year: 2023

 

  • Simulation studies on robust contacts in V₂CT₂/MoSi₂N₄ (T═O, F, OH) van der Waals heterojunction nanostructures: Implications for optoelectronic devices
    Authors: Xin He, Zhen Gao, Zhenhua Zhang, Kai Xiong, Yao He
    Year: 2023

 

  • Electronic and optical properties and device applications for antimonene/WS₂ van der Waals heterostructure
    Authors: X. He, X.Q. Deng, L. Sun, Z.H. Zhang, Z.Q. Fan
    Year: 2022

 

  • Geometry, induced magnetism and modified electronic behaviors for magnetic atom adsorption on antimonene nanotubes
    Authors: X. He, Zhiqiang Fan, Z. Zhang
    Year: 2020

 

Conclusion

Xin he’s work exemplifies a commitment to advancing material science through groundbreaking research and practical applications. by exploring the untapped potential of low-dimensional materials, xin not only addresses modern technological challenges but also inspires future researchers. with a legacy of dedication to both education and scientific discovery, xin he stands as a pillar of academic excellence, shaping the future of electronic and optoelectronic device innovation.