Dr Qaisar Alam | Physics | Young Scientist Award
Postdoc, University of Electronic Science and Technology of China, China
Dr. Qaisar Alam is a Pakistani physicist specializing in computational condensed matter physics. He has a strong academic foundation, earning a PhD from Hazara University. Currently, he is a postdoctoral researcher at the University of Electronic Science and Technology of China, where he explores innovative energy solutions. Dr. Alam has contributed significantly to the field through his extensive publication record, focusing on low-dimensional materials and their applications in energy conversion and storage. His dedication to education as a lecturer has influenced many students, while his collaborative spirit fosters a productive research environment. His work aims to bridge theoretical studies with practical applications, positioning him as a leader in advancing sustainable technologies. ๐๐ฌ
Profile
Strengths for the Award
Dr. Qaisar Alam exhibits a robust academic and research background, particularly in computational condensed matter physics and materials science. His extensive publications in reputable journals demonstrate his commitment to advancing knowledge in his field. The focus on low-dimensional materials and photocatalytic processes aligns with current trends in energy conversion technologies, showcasing his relevance in modern scientific discourse. His experience in both teaching and research institutions, coupled with his proficiency in advanced computational tools, highlights his capability to mentor emerging scientists and contribute to academic excellence.
Areas for Improvement
While Dr. Alamโs publication record is impressive, further diversification of his research focus could enhance his portfolio. Exploring interdisciplinary collaborations could broaden the impact of his work. Additionally, increasing engagement in public science communication and outreach initiatives may enhance his visibility and contribute to promoting physics among younger audiences. Developing a more extensive network through international conferences could also lead to potential collaborative projects.
Education
Dr. Qaisar Alam holds an impressive academic background in physics. He completed his MPhil in March 2017 at Hazara University, where he began his focus on computational condensed matter physics. He then pursued a PhD from the same institution, concluding in March 2023, with a research proposal titled “Enhanced functionalities of low dimensional materials for applications to energy conversion and storage devices: a DFT-based study.” Currently, Dr. Alam is engaged in postdoctoral research, enhancing Z-scheme photocatalytic CO2 methanation mechanisms. His educational journey reflects a deep commitment to understanding and modeling complex materials, utilizing advanced computational techniques such as Density Functional Theory (DFT) and many-body perturbation theory. Dr. Alamโs educational experiences have equipped him with the knowledge and skills necessary to explore innovative solutions in energy and materials science. ๐๐
Experienceย ย
Dr. Qaisar Alam has a solid teaching and research background in physics. He served as a Lecturer at Hazara University from March 2019 to March 2022, where he taught undergraduate and graduate courses, sharing his passion for computational physics. He then joined Abbottabad University of Science and Technology as a Lecturer from April 2022 to August 2023, continuing his commitment to education and mentorship. In December 2023, he transitioned to the School of Physics at the University of Electronic Science and Technology of China as a postdoctoral researcher, where he currently enhances his research in photocatalysis. Throughout his academic career, Dr. Alam has participated in various workshops and conferences, furthering his knowledge and network within the scientific community. His roles have emphasized not only teaching but also fostering research collaboration, making significant contributions to the fields of physics and materials science. ๐จโ๐ซ๐
Research Focusย
Dr. Qaisar Alamโs research focuses on computational condensed matter physics, particularly in the realm of low-dimensional materials and their applications in energy conversion and storage. His PhD work centered on using Density Functional Theory (DFT) and many-body perturbation theory to explore the electronic, optical, thermoelectric, and magnetic properties of materials such as transition metal dichalcogenides (TMDCs), Janus oxides, and MXenes. Currently, in his postdoctoral role, Dr. Alam investigates Z-scheme photocatalytic CO2 methanation processes, analyzing charge transport and surface catalytic reaction mechanisms. His work includes examining thermodynamic processes for CO2 photoreduction, contributing valuable insights into renewable energy technologies. Dr. Alam aims to bridge theoretical modeling with practical applications, seeking to develop materials that can effectively address energy-related challenges and advance sustainable technologies. His interdisciplinary approach positions him at the forefront of innovation in materials science and energy solutions. โ๏ธ๐
Publication Top Notes
- First-principles study of the electronic structures and optical and photocatalytic performances of van der Waals heterostructures of SiS, P and SiC monolayers. ๐
- Stacking effects in van der Waals heterostructures of blueP and Janus XYO (X= Ti, Zr, Hf: Y= S, Se) monolayers. ๐
- MSSe-N2CO2 (M= Mo, W and N= Zr, Hf) van der Waals heterostructures; A first principles study. ๐
- First principle study of van der Waals heterostructure based on MS2 (M= Mo, W) and Janus CrSSe monolayers. ๐
- Hydrogen Production and Spin-orbit Interaction in Blue Phosphorene and Janus Transition Metal Dichalcogenides vdW Heterostructures: A first-principles study. ๐
- Structural, electronic, optical, thermoelectric and photocatalytic properties of SiS/MXenes van der Waals heterostructures. ๐
- Van der Waal heterostructure based on BY (Y As, P) and MX2 (M Mo, W; XS, Se) monolayers. ๐
- First principles study of electronic and optical properties and photocatalytic performance of GaNโSiS van der Waals heterostructure. ๐
- Tunable optoelectronic and photocatalytic properties of BAs-BSe van der Waals heterostructures by strain engineering. ๐
- First principles study of electronic properties and optoelectronic performance of type-II SiS/BSe heterostructure. ๐
Conclusion
Dr. Qaisar Alam is a strong candidate for the Young Scientist Award due to his innovative research, significant contributions to the field, and potential for future impact. His academic achievements, combined with a focus on practical applications in energy conversion, align well with the award’s criteria. With some enhancements in outreach and collaboration, he is poised to make even greater contributions to science and education.