Mr. Amit Verma | Ion Beam Irradiation | Best Researcher Award 

University of Lucknow | India 

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Mr. Amit Verma's academic journey is marked by consistent excellence and a deep commitment to the sciences. He began his education with a strong foundation in science, earning a Gold Medal in his High School (HSC) exams from the U.P. State Board in 2012, where he achieved an impressive 85% in the Science stream. He continued his academic success in the Intermediate (10+2) exams, also under the U.P. State Board, with a First Division score of 76.8% in 2014. Mr. Verma pursued his higher education at the University of Allahabad, where he earned a B.Sc. in Mathematics and Physics in 2017, specializing in Physics with a major, securing a Second Division with 55.04%. His academic prowess was further highlighted in his M.Sc. in Physics, with a specialization in Electronics, at the same university, where he graduated in 2019 with an outstanding First Division score of 81.8%, placing him 4th in his class.

PROFESSIONAL ENDEAVORS

Mr. Verma is currently engaged in a Ph.D. program at the University of Lucknow, U.P., India, where he is working under the supervision of Prof. N. K. Pandey. His research is being conducted at the Sensors and Materials Research Lab, Department of Physics, with a focus on the synthesis and characterization of metal oxide(s) for applications in humidity and gas sensing. He began his Ph.D. in October 2021 and is expected to complete it by August 2026. Mr. Verma has also gained significant professional training and experience through workshops and internships at prestigious institutions. These include a workshop on Ion Beams in Energy Materials at the Inter-University Accelerator Center, New Delhi, and an internship at the Indian Institute of Technology, Jodhpur, where he worked on hydrogen generation and metal oxides-based H2 gas sensors.

CONTRIBUTIONS AND RESEARCH FOCUS

Mr. Verma’s research focus lies primarily in Material Science, with a particular emphasis on Ion Beam Irradiation and its applications in materials characterization and sensor development. His Ph.D. research involves the synthesis and characterization of metal oxide(s) for humidity and gas sensing applications, which is critical for advancing sensor technology in various industries. Mr. Verma’s contributions also extend to his professional training, where he has worked on projects related to material characterization using advanced techniques such as structure, spectroscopy, and microscopy. His involvement in Ion Beam Irradiation research during his training at the Inter-University Accelerator Center is particularly noteworthy, as it aligns with his broader research interests in materials science and sensor technology.

CITATIONS

• Citations  11
• h-index    02
• i10-index 00

IMPACT AND INFLUENCE

Mr. Verma's work in Material Science and Ion Beam Irradiation has the potential to make significant contributions to the field of sensor technology. His research on metal oxides for humidity and gas sensing is particularly relevant in the context of developing more efficient and accurate sensors for industrial and environmental monitoring. The impact of his research is also evident in his professional training experiences, where he has worked on cutting-edge projects related to hydrogen generation and material characterization. His work is expected to influence future research in these areas, providing a foundation for further advancements in sensor technology and materials science.

ACADEMIC CITATIONS

As Mr. Verma continues his research in Material Science and Ion Beam Irradiation, his work is likely to be cited by other researchers in the field, particularly those working on sensor technology and material characterization. His contributions to the understanding of metal oxides and their applications in gas sensing are expected to be of particular interest to researchers and professionals in the field of materials science.

LEGACY AND FUTURE CONTRIBUTIONS

Mr. Verma’s ongoing Ph.D. research and professional training experiences position him to make significant contributions to the field of Material Science and Ion Beam Irradiation. His work on the synthesis and characterization of metal oxides for sensing applications is likely to lead to the development of more advanced and efficient sensors. As he continues his research and professional development, Mr. Verma is expected to leave a lasting legacy in the field, contributing to the advancement of materials science and sensor technology. His future contributions will likely focus on expanding the applications of Ion Beam Irradiation in material characterization and sensor development, further cementing his influence in the field.

MATERIAL SCIENCE/ION BEAM IRRADIATION 

Throughout his academic and professional journey, Mr. Verma has consistently focused on material science, particularly in the synthesis, characterization, and application of metal oxides. His work with ion beam irradiation techniques during his professional training has further enriched his research capabilities, allowing him to explore new methods of material modification and enhancement. As he continues to develop his expertise, his contributions to material science will undoubtedly influence the future of sensor technology and other related fields.

NOTABLE PUBLICATION

• Development of highly sensitive SnO₂@ZnO based chemiresistor for Ammonia sensing

  Citation: 05      Year: 2024

• Fabrication of Highly Sensitive YCeO Chemo-resistive Gas Sensor for Selective Detection of CO₂

  Citation: 05      Year: 2024

• Analysis of the optical, chemical, surface, and humidity sensing characteristics of nanostructured Bi₂O₃-doped MoO₃ materials

  Citation: 03      Year: 2023

• Internal nitridation of Alloy 690 during creep deformation at 1100 °C

  Citation: 02      Year: 2023