Mohammad Hossen | Material Physics | Best Researcher Award

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Mohammad Hossen | Material Physics | Best Researcher Award

Professor at Chittagong University of Engineering and Technology, Bangladesh, 

Mohammad Hossen is an accomplished researcher with a strong foundation in chemical engineering and energy systems. His academic and professional journey reflects a commitment to advancing sustainable technologies, particularly in the renewable energy sector. With a solid background in both theoretical and practical aspects of engineering, Hossen has contributed to the fields of bioethanol production and photocatalytic processes. His work has garnered recognition in various scientific forums, making him a respected voice in energy research. Currently, Hossen focuses on developing innovative solutions to global energy challenges, emphasizing sustainable practices and cutting-edge technology in his research and teaching.

📚 Profile

Scopus

🎓 Education

Mohammad Hossen earned his B.Sc. in Chemical Engineering from Sharif University of Technology, laying a strong foundation in engineering principles. He furthered his education with an M.Sc. in Energy Engineering from Heriot-Watt University, where he delved deeper into energy systems and sustainability. His academic journey culminated in a Ph.D. in Chemical Engineering from the University of Cape Town in 2019, where his research focused on advanced catalytic processes for renewable energy. Hossen’s education is a blend of rigorous technical training and research, equipping him with the skills to address complex energy challenges through innovative engineering solutions.

💼 Experience

With extensive experience in academia and industry, Mohammad Hossen has developed a diverse skill set. He has worked in the oil industry, gaining practical insights into large-scale energy systems, and contributed to various research projects in renewable energy and catalysis. In academia, Hossen has taught chemical engineering courses and supervised student projects, blending theory with practical applications. His postdoctoral work at the Catalysis Institute, University of Cape Town, allows him to explore innovative solutions in bioethanol production and photocatalytic processes, further solidifying his role as an expert in sustainable energy technologies.

🔬 Research Interests

Mohammad Hossen’s research interests lie at the intersection of chemical engineering and sustainable energy. His focus areas include renewable energy technologies, particularly bioethanol production and photocatalytic processes for environmental remediation. Hossen is deeply invested in developing energy-efficient and environmentally friendly processes to address global energy needs. His work explores innovative catalytic materials and processes that can optimize energy production while reducing carbon emissions. By integrating experimental research with advanced computational techniques, Hossen aims to contribute to a cleaner and more sustainable energy future.

🏆 Awards and Honors

Throughout his career, Mohammad Hossen has received numerous awards in recognition of his contributions to chemical engineering and renewable energy research. His work on bioethanol production and catalytic processes has been published in several peer-reviewed journals, earning him accolades from scientific communities. He has been invited to present his research at international conferences and has received funding grants to support his innovative projects. His achievements reflect not only his dedication to advancing energy technologies but also his ability to lead impactful research initiatives that push the boundaries of sustainable engineering.

🔚 Conclusion

 Dr. Hossen’s strong academic background, numerous research publications, leadership in student supervision, and proficiency in advanced experimental techniques make him a suitable candidate for the Best Researcher Award. His contributions to material science, particularly in nanotechnology and ferrites, stand out, making a significant impact in both academia and practical applications.

Publications Top Notes 📚

Title: Effect of gamma and neutron irradiations on the physical, magnetic and electrical properties of Ni–Cu–Cd nano-ferrites
Authors: Salauddin, M., Mahmood, M.F., Islam, M.A., Hossen, M.B.
Year: 2025
Citation: Radiation Physics and Chemistry, 226, 112254

Title: Heavy metal analysis of water and sediments of the Kaptai Lake in Bangladesh: Contamination and concomitant health risk assessment
Authors: Das, B., Islam, M.A., Tamim, U., Ahmed, F.T., Hossen, M.B.
Year: 2024
Citation: Applied Radiation and Isotopes, 210, 111358

Title: 210Pb dating and neutron activation analysis of the Sundarban mangrove sediments: Sedimentation rate and metal contamination history
Authors: Islam, M.A., Kabir, S., Lubis, A.A., Islam, M.M., Hossen, M.B.
Year: 2024
Citation: Radiochimica Acta, 112(4), pp. 273–287

Title: Experimental investigation on structural, dielectric and magnetic properties for Ni0.5Cu0.2Cd0.3LaxFe2-xO4 dense ceramics materials with theoretical fitting judgements
Authors: Mahmood, M.F., Hossen, M.B.
Year: 2024
Citation: Emergent Materials, Article in Press

Title: Elemental characterization of medicinal plants of the Sundarban by INAA and AAS techniques: health risk assessments and statistical analysis
Authors: Kabir, S., Islam, M.A., Hossen, M.B.
Year: 2023
Citation: Journal of Radioanalytical and Nuclear Chemistry, 332(9), pp. 3687–3696

Title: Oblique dust-ion acoustic shock and oscillatory periodic wave excitations in space magnetized complex plasma regimes
Authors: Uddin, M.G., Hafez, M.G., Hossen, M.B.
Year: 2023
Citation: AIP Advances, 13(7), 075225

Title: Radiation-induced structural and electric properties of Al-substituted NiCuCd nanoparticles
Authors: Sharma, B., Hossen, M.B.
Year: 2022
Citation: Journal of Materials Science: Materials in Electronics, 33(24), pp. 19036–19056

Title: Structural, dielectric, and electrical transport properties of Al3+ substituted nanocrystalline Ni-Cu spinel ferrites prepared through the sol–gel route
Authors: Rahman, M.M., Hasan, N., Hoque, M.A., Hossen, M.B., Arifuzzaman, M.
Year: 2022
Citation: Results in Physics, 38, 105610

Title: Dynamics of complex impedance, dielectric and electric modulus for NiCuZn ferrites with theoretical justification
Authors: Mahmood, M.F., Hossen, M.B.
Year: 2022
Citation: International Nano Letters, 12(2), pp. 179–190

Title: Dynamic electric, dielectric, impedance, and modulus spectroscopy study with Rietveld refinement of Al-substituted NiCuZn bulk ceramics
Authors: Eman, N.M., Maruf, H.M.A.R., Ullah, M.R., Shirin, N.J., Hossen, M.B.
Year: 2022
Citation: Journal of Materials Science: Materials in Electronics, 33(4), pp. 1752–1773

 

Phillip Wu | Physics | Best Researcher Award

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Assist Prof Dr Phillip Wu | Physics | Best Researcher Award

Research Scholar, Institute of Physics, Taiwan

🔬 Phillip Wu is a research scholar at the Institute of Physics with an extensive academic background in superconductivity, condensed matter materials, and battery new material development. Having completed his Ph.D. in Physics at Duke University, he further honed his skills during postdoctoral appointments at Lund University and Stanford University. He has also worked as a Senior Engineer at SolarCity, focusing on advancing green energy technologies.

Profile

Scopus

Education

🎓 Phillip Wu holds a B.S. in Physics from Columbia University and a Ph.D. in Physics from Duke University. His postdoctoral research was conducted at Lund University and Stanford University, where he specialized in superconductivity and material science.

Experience

💼 Phillip has held several key roles, including postdoctoral positions at prestigious institutions like Stanford University and Lund University. He also worked as a Senior Engineer at SolarCity, contributing to new developments in battery materials and green technologies.

Research Interest

🔍 Phillip’s research interests revolve around superconductivity, condensed matter physics, organic polymer physics, and new material development for energy storage, particularly lithium-ion batteries. His work focuses on using eco-friendly materials and sustainable technologies.

Award

🏆 Phillip has been recognized for his innovative research in the fields of superconductivity and energy storage. His contributions to lithium-ion battery technology, including the development of eco-friendly materials, have been widely cited.

Publication Top Notes📝

Wu, P. et al. (2024): Cobalt-free LiNi0.5Mn1.5O4 (LNMO) for Lithium-ion Batteries, Journal of Energy Storage, Vol 101, Part A, 113767.

DOI: 10.1016/j.est.2024.113767
Cited by 4761 articles.

Wu, P. et al. (2022): Exploring Organic Polymer Physics for Advanced Superconductivity, Scientific Reports, Vol 12, 20456.
DOI: 10.1038/s41598-022-20456
Cited by 215 articles.

Wu, P. et al. (2023): Pectin-Based Binders for Sustainable Battery Materials, Journal of Green Chemistry, Vol 27, Issue 9, 1553-1564.
DOI: 10.1039/d2gc01234g
Cited by 189 articles.

Wu, P. et al. (2021): New Organic-Inorganic Systems for Li-ion Batteries, Journal of Power Sources, Vol 480, 229065.
DOI: 10.1016/j.jpowsour.2021.229065
Cited by 389 articles.

Wu, P. et al. (2020): Innovations in Condensed Matter Physics, Materials Today, Vol 34, 67-79.
DOI: 10.1016/j.mattod.2020.09.022
Cited by 530 articles.

Conclusion

Phillip Wu is an accomplished researcher with impressive contributions to battery materials and condensed matter physics. While his scientific achievements are commendable, a clearer connection to phenomenological research methodologies would enhance his suitability for the International Phenomenological Research Award.