Bogdan Majkusiak | Tunneling | Research Excellence Award

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Prof. Bogdan Majkusiak | Tunneling | Research Excellence Award

Warsaw Unversity of Technology | Poland

Bogdan Majkusiak is a distinguished Polish scientist and Professor at the Warsaw University of Technology, renowned for his influential contributions to electronics, semiconductor physics, and microelectronics. He progressed through successive academic degrees at the Faculty of Electronics and rose from technician to a leading academic figure, shaping the field through extensive research, teaching, and leadership. His career includes significant service as Associate Dean, Senior Associate Dean, Rector’s Representative for English Language Studies, and long-standing membership in faculty and scientific councils. He has played a central role in international scientific events, serving on steering and technical program committees for major conferences such as INFOS, IWCE, and Diagnostic and Yield, as well as acting as General Chair of INFOS in Krakow. His expertise has been recognized through appointments as an expert for national research and accreditation bodies. Majkusiak’s scholarly output includes impactful book chapters on multigate MOS physics and nanoscale CMOS modeling, reflecting his deep contributions to device simulation and semiconductor technology. He is widely cited in the global research community, with an h-index of, citation count of, and indexed documents, underscoring his enduring influence on microelectronics research and semiconductor device engineering.

Profile: Scopus | Orcid 

Featured Publications 

Jasiński, J., Mazurak, A., & Majkusiak, B. (2016). Effect of interface traps parameters on admittance characteristics of the MIS (metal–insulator–semiconductor) tunnel structures. Proceedings of SPIE – The International Society for Optical Engineering.

Mazurak, A., Jasiński, J., & Majkusiak, B. (2016). Effect of nanocrystal geometric location on tunnel currents and small-signal admittance of MIS structures. Physica Status Solidi (C): Current Topics in Solid State Physics.

Tanous, D., Mazurak, A., & Majkusiak, B. (2016). Impact of nanocrystal(s) location on C-V-t and I-V-t characteristics of ncMOS structures. Proceedings of SPIE – The International Society for Optical Engineering.

Wiśniewski, P., & Majkusiak, B. (2016). Modeling of tunnel field effect transistor: The impact of construction parameters. Proceedings of SPIE – The International Society for Optical Engineering.

Wiśniewski, P., Mroczyński, R., & Majkusiak, B. (2016). Reactive Ion Etching (RIE) of silicon for the technology of nanoelectronic devices and structures. Proceedings of SPIE – The International Society for Optical Engineering.

Mr. Nangyaley Khan – Structure Engineering – Best Researcher Award

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Mr. Nangyaley Khan - Structure Engineering - Best Researcher Award

University of Leeds - United Kingdom

AUTHOR PROFILE

SCOPUS

ORCID

EARLY ACADEMIC PURSUITS

Nangyaley Khan's academic journey commenced with a strong foundation in pre-engineering and science education. He graduated with first division marks from Islamia Collegiate School and University College for Boys, University of Peshawar, setting a solid base for his future endeavors. His bachelor's degree in Civil Engineering from the University of Engineering and Technology Peshawar further honed his skills, with a commendable CGPA of 3.10/4.00.

PROFESSIONAL ENDEAVORS

Nangyaley Khan has accumulated a wealth of professional experience in various capacities. His roles have ranged from a Trainee Engineer at the National Highway Authority and National Engineering Services Pakistan (PVT) Limited to a Trainee Site Supervisor at the Communication and Works Department Peshawar. Currently, he is serving as a Visiting Lecturer in Structural Engineering at the University of Engineering and Technology, Peshawar, where he imparts knowledge to the next generation of civil engineers.

CONTRIBUTIONS AND RESEARCH FOCUS ON STRUCTURE ENGINEERING

Khan's expertise spans advanced engineering materials, concrete fatigue analysis, durability of structures, and corrosion of reinforcing steels. He has a profound interest in sustainable construction practices, including green concrete, bio-cementation, Structure Engineering and the use of bio-based materials. His research has led to significant contributions in the field of bio-based self-healing concrete, fungi/bacteria cultivation, and advanced material testing and characterization techniques such as SEM-EDX, TGA, XRD, XRF, and FTIR.

IMPACT AND INFLUENCE

Nangyaley Khan has authored impactful journal papers, contributing valuable insights to the field of civil engineering. His work on self-healing concrete using Fusarium Oxysporum and Trichoderma Longibrachiatum, and biomimetic self-healing of concrete using Lysinibacillus Boronitolerans, Structure Engineering has been published in reputable journals like Construction and Building Materials and the Journal of Building Engineering. These publications underline his commitment to advancing knowledge in sustainable construction materials and techniques.

LEGACY AND FUTURE CONTRIBUTIONS

As Khan pursues a Ph.D. in Structural Engineering, his aim is to delve deeper into cutting-edge research and developments. His vision includes continuing his work on sustainable infrastructure, enhancing the durability and longevity of construction materials, and exploring innovative solutions for environmental sustainability in construction. His dedication to both teaching and research positions him as a future leader in the field, poised to leave a lasting legacy in civil engineering.

NOTABLE PUBLICATIONS

Impacts of biomimetic self-healing of Lysinibacillus boronitolerans immobilized through recycled fine and coarse brick aggregates in concrete  2023(3)

Self-healing of recycled aggregate fungi concrete using Fusarium oxysporum and Trichoderma longibrachiatum   2023(4)