Dr. Muhammad Moin | Material science | Young Scientist Award 

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Dr. Muhammad Moin | Material science | Young Scientist Award 

University of Engineering and Technology Lahore | Pakistan

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Muhammad Moin's academic journey began with secondary education at Government High School, Pakpttan, where he completed his Secondary School Certificate in 2011. He then pursued Intermediate studies at Abaid Ullah Educational Complex Higher Secondary School, Pakpttan, graduating in 2013. Dr. Moin obtained his Bachelor's degree in Physics from the University of the Punjab, Lahore, Pakistan, from July 2013 to October 2015. His academic quest continued with an M.Phil. in Nano Science and Technology from the University of Engineering and Technology (UET), Lahore, Pakistan, which he completed from November 2015 to December 2019. During this period, Dr. Moin engaged deeply in research related to Material Science.

PROFESSIONAL ENDEAVORS

Dr. Moin has amassed significant experience in the field of Material Science through his role as a Research Scientist at the University of Engineering and Technology Lahore. He worked at this position from October 2020 to December 2022, where he contributed to research involving Density Functional Theory (DFT) and computational simulations using Material Studio software. His expertise includes methods such as General Gradient Approximation (GGA) and Hybrid Functional (HSEO6, HSEO3), and tools like WIEN2k. Dr. Moin's hands-on experience extends to working with CVD (Chemical Vapor Deposition) and centrifugation machines, further showcasing his practical skills in Material Science.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Moin's research primarily focuses on Material Science, emphasizing computational simulations and theoretical modeling. His work involves advanced techniques in Density Functional Theory (DFT) and computational simulations, which are critical for understanding material properties and behavior. His research contributes to the development and enhancement of materials through methods such as General Gradient Approximation (GGA) and Hybrid Functional (HSEO6, HSEO3). Dr. Moin's involvement in the application of CVD and centrifugation techniques further underscores his commitment to advancing Material Science.

IMPACT AND INFLUENCE

Dr. Moin's contributions to Material Science have impacted both theoretical and practical aspects of the field. His use of sophisticated computational methods and simulation tools has provided valuable insights into material properties and behaviors. His work with advanced techniques like DFT and Hybrid Functional methods has influenced ongoing research and development in Material Science. By leveraging his expertise in CVD and centrifugation techniques, Dr. Moin has contributed to the practical application of material science principles, enhancing the understanding and development of new materials.

ACADEMIC CITATIONS

Dr. Moin's research contributions in Material Science are supported by his academic work and practical applications. Although specific citations are not listed, his research activities, particularly in computational simulations and advanced material processing techniques, are likely to be referenced by peers in the field. His contributions to understanding material properties and behaviors through sophisticated methods and tools reflect his academic and professional impact.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Moin's legacy in Material Science is marked by his dedication to advancing the field through computational simulations and experimental techniques. His future contributions are expected to further explore and refine material science methodologies, particularly in the application of DFT and advanced simulation techniques. By continuing to innovate in the development and processing of new materials, Dr. Moin aims to make significant advancements in Material Science, leaving a lasting impact on both theoretical research and practical applications.

MATERIAL SCIENCE 

Dr. Moin's research prominently features the keywords Material Science, Density Functional Theory (DFT), computational simulations, General Gradient Approximation (GGA), Hybrid Functional (HSEO6, HSEO3), and CVD (Chemical Vapor Deposition). His work in Material Science involves applying these advanced techniques and tools to understand and enhance material properties, contributing to the broader field of material development and innovation. The integration of these keywords highlights the significance of Dr. Moin's research and its impact on advancing material science methodologies.

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Rajender Kumar | Material Science | Best Researcher Award 

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Assoc Prof Dr. Rajender Kumar | Material Science | Best Researcher Award 

Career Point University | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Assoc. Prof. Dr. Rajender Kumar's academic journey is marked by consistent achievements in his educational pursuits. He completed his Matriculation from HPBSE Dharamshala in 1992 with a score of 471 out of 700 (67.23%) and his 10+2 from the same board in 1995 with 220 out of 400 (55.00%). He pursued his B.Sc. (N.M) from H.P.U. Shimla, graduating in 1999 with a score of 951 out of 1700 (55.94%). He then obtained a B.Ed from the University of Kashmir in 2001, securing 600 out of 900 (66.67%), followed by an M.Sc. in Physics from the same university in 2002 with a score of 732 out of 1200 (61.00%). He completed his M.Phil. in Physics from VMU Salem, Tamilnadu, in 2008, focusing on the study of decay constant, half-life, and branching ratio in alpha and cluster decay. Finally, he earned his Ph.D. in Physics from NIT Hamirpur in May 2016, with a thesis on the fabrication and characterization of metal/zinc oxide/silicon and metal/silicon heterojunctions.

PROFESSIONAL ENDEAVORS

Dr. Rajender Kumar has an extensive teaching career spanning over 16 years and 2 months. He began as a Lecturer in Physics at M.G.I.E.T. Mandi in June 2007, and then moved to G.G.C. Hamirpur in September 2008. He served as a Teaching Assistant at N.I.T. Hamirpur from July 2010 to July 2014, gaining valuable experience in higher education. In August 2014, he returned to G.G.C. Hamirpur as an Assistant Professor of Physics and later joined Career Point University Hamirpur in April 2017, where he continues to work as an Associate Professor. In addition to his teaching duties, he holds the positions of Associate Dean Students Welfare and Officer on Special Duty (OSD) to the Vice Chancellor.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Rajender Kumar's research contributions are primarily in the field of Material Science, with a particular focus on the fabrication and characterization of metal/zinc oxide/silicon and metal/silicon heterojunctions. His M.Phil. thesis explored the decay constant, half-life, and branching ratio in alpha and cluster decay, while his Ph.D. thesis provided significant insights into the properties and applications of these heterojunctions. His work in this area has contributed to a deeper understanding of Material Science, particularly in the context of semiconductor physics and electronic materials.

IMPACT AND INFLUENCE

Dr. Rajender Kumar's influence extends beyond his research, impacting both his students and the academic community. His dedication to teaching and his positive attitude have earned him recognition and respect among his peers and students. As an Associate Dean Students Welfare and OSD to the Vice Chancellor, he plays a crucial role in student affairs and university administration, demonstrating his leadership and commitment to education. His work in Material Science continues to inspire and guide future research in the field, highlighting his significant contributions to the academic community.

ACADEMIC CITES

Dr. Rajender Kumar's publications and research findings are frequently cited in academic literature, reflecting the importance and impact of his work in Material Science. His studies on the fabrication and characterization of metal/zinc oxide/silicon and metal/silicon heterojunctions are widely referenced by other researchers, underscoring the relevance of his contributions to the advancement of this field. His role as a mentor and educator further amplifies his influence, as he continues to shape the next generation of physicists and researchers.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Rajender Kumar's legacy in Material Science is marked by his significant research contributions and his dedication to teaching and administration. His innovative work on heterojunctions has paved the way for new developments in semiconductor physics, and his leadership roles at Career Point University demonstrate his commitment to fostering a positive and productive academic environment. Looking ahead, his future contributions are expected to further enhance the understanding of electronic materials and their applications, solidifying his place as a key figure in the field of Material Science.

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