Kai-Li Wang | Physics and Astronomy | Young Scientist Award

Published on by Physicist Particle

Mr. Kai-Li Wang | Physics and Astronomy | Young Scientist Award

Postdoctoral Researcher | Soochow University | China

Mr. Kai-Li Wang is a leading researcher whose contributions in Physics and Astronomy have positioned him at the forefront of advanced semiconductor and perovskite device innovation. His work demonstrates a strong command of Physics and Astronomy, especially in areas related to organic and perovskite semiconductor mechanisms, device engineering, and photophysical behavior crucial to next-generation energy technologies. Across more than eighty publications, his research in Physics and Astronomy consistently advances fundamental understanding while delivering high-impact practical outcomes for photovoltaic and optoelectronic systems. His publications in major journals such as Science, JACS, Advanced Materials, Advanced Energy Materials, and Nano Letters reflect exceptional influence within global Physics and Astronomy communities. Mr. Kai-Li Wang’s expertise integrates material design, vacuum-based fabrication strategies, tandem and indoor photovoltaics, and defect passivation concepts technical areas rooted deeply in Physics and Astronomy. Through multidisciplinary collaborations bridging chemistry, nanotechnology, and device engineering, he elevates the role of Physics and Astronomy in solving large-scale energy and sustainability challenges. His work has reshaped modern understanding of perovskite crystallization, interface engineering, charge-transfer pathways, and stability mechanisms, making him a consistent contributor to international advancements in Physics and Astronomy. As a co-inventor on multiple patents and a frequent collaborator with highly cited research groups, Mr. Kai-Li Wang exemplifies the societal value of Physics and Astronomy through innovations aimed at high-efficiency, low-cost, and environmentally responsible energy conversion. His research continues to influence experimental design and industrial translation across the expanding global fields of photovoltaics, semiconductor materials, and applied Physics and Astronomy, reinforcing the discipline’s vital impact on technological progress. Google Scholar profile of 6389 Citations, 39 h-index, 94 i10-index.

Profiles: Google Scholar | ORCID

Featured Publications

1. Wang, R., Xue, J., Wang, K. L., Wang, Z. K., Luo, Y., Fenning, D., Xu, G., Nuryyeva, S., … (2019). Constructive molecular configurations for surface-defect passivation of perovskite photovoltaics. Science, 366(6472), 1509–1513.

2. Igbari, F., Wang, R., Wang, Z. K., Ma, X. J., Wang, Q., Wang, K. L., Zhang, Y., Liao, L. S., … (2019). Composition stoichiometry of Cs₂AgBiBr₆ films for highly efficient lead-free perovskite solar cells. Nano Letters, 19(3), 2066–2073.

3. Xue, J., Wang, R., Chen, X., Yao, C., Jin, X., Wang, K. L., Huang, W., Huang, T., … (2021). Reconfiguring the band-edge states of photovoltaic perovskites by conjugated organic cations. Science, 371(6529), 636–640.

4. Xue, J., Wang, R., Wang, K. L., Wang, Z. K., Yavuz, I., Wang, Y., Yang, Y., Gao, X., … (2019). Crystalline liquid-like behavior: surface-induced secondary grain growth of photovoltaic perovskite thin film. Journal of the American Chemical Society, 141(35), 13948–13953.

5. Phung, N., Félix, R., Meggiolaro, D., Al-Ashouri, A., Sousa e Silva, G., … (2020). The doping mechanism of halide perovskite unveiled by alkaline earth metals. Journal of the American Chemical Society, 142(5), 2364–2374.

Muhammad Mustafa Dastageer | Physics and Astronomy | Best Researcher Award

Published on by Physicist Particle

Mr. Muhammad Mustafa Dastageer | Physics and Astronomy | Best Researcher Award

Research Assistant | University of Engineering and Technology | Pakistan

Mr. Muhammad Mustafa Dastageer is a dedicated researcher whose work is deeply rooted in the advancing frontiers of Physics and Astronomy. His scientific contributions focus on laser spectroscopy, plasma diagnostics, and machine-learning-assisted analytical techniques, forming a strong foundation for impactful research within the broader domains of Physics and Astronomy. Through his involvement in collaborative projects spanning national and international institutions, he has strengthened the integration of experimental methods with computational intelligence, demonstrating how Physics and Astronomy can bridge fundamental inquiry and applied innovation. Mr. Dastageer has contributed to significant publications addressing biomedical sensing, laser–matter interaction, and materials characterization, with his research appearing in reputable scientific journals. His role in major collaborative efforts, including studies on laser-induced breakdown spectroscopy for medical applications, underscores his commitment to expanding the practical relevance of Physics and Astronomy. His publications highlight rigorous experimental methodology, interdisciplinary coordination, and a clear dedication to scientific advancement. In addition to research excellence, he has actively contributed to scholarly events, conferences, and scientific communities, further reinforcing the global impact of Physics and Astronomy. His participation in academic symposiums and specialized workshops reflects his ongoing effort to promote knowledge exchange and foster innovation. Through these engagements, he contributes to shaping the evolving landscape of Physics and Astronomy, ensuring that theoretical understanding and technical application continue to progress side by side. With a professional trajectory centered on academic rigor, scientific integrity, and international collaboration, Mr. Dastageer remains committed to pushing forward the boundaries of Physics and Astronomy. His work exemplifies how modern research in Physics and Astronomy can meaningfully contribute to society, healthcare, materials science, and technological development. Scopus profile of 2 Citations, 3 Documents, 1 h-index.

Profiles: Google Scholar | ORCID | Scopus

Featured Publications

1. Mustafa, M., Latif, A., Jehangir, M., & Siraj, K. (2022). Nd: YAG laser irradiation consequences on calcium and magnesium in human dental tissues. Lasers in Dental Science, 6(2), 107–115.

2. Mustafa, M., Latif, A., & Jehangir, M. (2022). Laser-induced breakdown spectroscopy and microscopy study of human dental tissues. Electron Microscopy, 1–14.

3. Dastageer, M. M., Siraj, K., Pedarnig, J. D., Zhang, D., Qasim, M., Rahim, M. S. A., ... (2025). From fundamentals of laser-induced breakdown spectroscopy to recent advancements in cancer detection and calcified tissues analysis: An overview (2015–2025). Molecules, 30(21), 4176.

4. Mushtaq, S., Siraj, K., Rahim, M. S. A., Younas, Q., Hussain, B. M., Qasim, M., ... (2025). Analysis of edible silver foils under steady magnetic field by calibration free laser induced breakdown spectroscopy (CF-LIBS). Iranian Journal of Science, 49(3), 889–899.

5. Younas, Q., Siraj, K., Osipowicz, T., Naeem, S., Zhao, Y., Tan, C. C., Bashir, S., ... (2025). Impact of gold ions on nanohardness and various characteristics of G-metal alloy surface. Metals and Materials International, 1–17.

Assist. Prof. Dr. Vladimir A. Pakhotin | Physics and Astronomy | Best Researcher Award

Published on by Physicist Particle

Assist. Prof. Dr. Vladimir A. Pakhotin | Physics and Astronomy | Best Researcher Award

Senior Research Scientist | Ioffe Institute | Russia

Assist. Prof. Dr. Vladimir A. Pakhotin has made significant contributions to the interdisciplinary field of Physics and Astronomy, advancing research in electron emission and the electro-physical properties of polymers. His extensive background in Physics and Astronomy from the Saint-Petersburg State Polytechnic University and the Ioffe Institute laid the foundation for his innovative studies in the emission of charged particles and electrical breakdown phenomena. Throughout his professional journey as a Senior Researcher at the Strength Physics Laboratory, he has exemplified excellence in experimental Physics and Astronomy, merging theoretical insight with practical investigation. His research interest in Physics and Astronomy focuses on understanding the structural behavior of materials under varying electromagnetic conditions, contributing valuable data to polymer physics and electronic material design. Recognized for his prolific scholarly output, with over 150 publications, he stands as a respected figure in Physics and Astronomy. His awards and honors highlight his dedication to advancing material science and Physics and Astronomy innovation. His research skills encompass advanced instrumentation, emission analysis, and material characterization techniques that enhance discoveries in Physics and Astronomy. In conclusion, Assist. Prof. Dr. Vladimir A. Pakhotin’s lifelong pursuit of knowledge continues to inspire new generations of scientists, reinforcing the global impact of Physics and Astronomy research. His Scopus profile of 125 Citations, 28 Documents, 7 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Pakhotin, V. A., Semenov, S. E., & Sudar, N. T. (2025). Increasing the lifetime of polymer dielectrics in an AC field by using phosphorescent dopants: Theoretical justifications and numerical simulation. Journal of Applied Physics.

2. Pakhotin, V. A., & Semenov, S. E. (2024). Redistribution of electric field strength in insulation using electrets. IEEE Transactions on Dielectrics and Electrical Insulation.

3. Semenov, S. E., Sudar, N. T., & Pakhotin, V. A. (2024, October 17). Pulse electrical strength of polymer dielectric films. 2024 International Conference on Electrical Engineering and Photonics (EExPolytech).

4. Pakhotin, V. A., & Semenov, S. E. (2024, September 28). Charge stabilization in corona electrets made of HDPE film due to the formation of deep electron traps during its orientational stretching. Journal of Applied Physics.

5. Tipikin, A. A., Pakhotin, V. A., & Potapov, D. S. (2024, July 3). Technique for automatic profiling of underlying surface electric parameters on the very low frequencies radio path. Proceedings of Telecommunication Universities.

Dr. Kammogne Djoum Nana Anicet | Physics and Astronomy | Best Researcher Award

Published on by Physicist Particle

Dr. Kammogne Djoum Nana Anicet | Physics and Astronomy | Best Researcher Award

Assistant Lecturer | African Institute of Mathematical Sciences | Cameroon

Dr. Kammogne Djoum Nana Anicet is a distinguished scholar in Physics and Astronomy whose academic and research journey reflects deep expertise in theoretical condensed matter physics. Having earned his Ph.D. with highest distinction from the University of Dschang, his work in Physics and Astronomy encompasses teaching, research, and numerous publications in top journals such as Physics Letters A and Chinese Journal of Physics. His professional experience includes roles as a teaching assistant at AIMS Cameroon and lecturer at the University of Dschang, where he taught electromagnetism, electrostatics, quantum physics, and solid-state physics—core pillars of Physics and Astronomy. Dr. Kammogne’s research explores quantum transitions, level-crossing phenomena, and spontaneous emission models, all vital areas in modern Physics and Astronomy. His outstanding performance has earned him multiple awards, including Best Researcher recognitions from ScienceFather, Scifat, and WorldTopScientists, along with a Presidential Award for Excellence. His skills in Mathematica, Python, LaTeX, and computational tools like Qutip enhance his research capabilities in Physics and Astronomy. With active participation in international conferences and collaborations, Dr. Kammogne continues to contribute innovative insights to the global Physics and Astronomy community. His dedication, technical proficiency, and analytical acumen define him as a leading researcher advancing frontiers in Physics and Astronomy, where his commitment to knowledge and excellence embodies the essence of scientific achievement and innovation in this dynamic field.

Profiles: Google Scholar | ORCID

Featured Publications

1. Kammogne, A. D., Kenmoe, M. B., & Fai, L. C. (2022). Statistics of interferograms in three-level systems. Physics Letters A, 425, 127872.

2. Kammogne, A. D., Issofa, N., & Fai, L. C. (2024). Non-resonant exponential Nikitin models with decay. Chinese Journal of Physics.

3. Kammogne, A. D., & Fai, L. C. (2025). Spontaneous emission in an exponential model. Chinese Journal of Physics.

4. Tchapda, A. B., Kenmoe, M. B., & Fai, L. C. (2017). Landau-Zener transitions in a qubit/qutrit periodically driven in both longitudinal and transverse directions. arXiv preprint arXiv:1708.04184.

5. Kammogne, A. D. (2025). Effect of spontaneous emission on a tanh model. Chinese Journal of Physics.

Dr. Naveena Gadwala | Physics and Astronomy | Best Researcher Award

Published on by Physicist Particle

Dr. Naveena Gadwala | Physics and Astronomy | Best Researcher Award

Assistant Professor | Aurora Deemed University | Iran

Dr. Naveena Gadwala is an accomplished researcher in Physics and Astronomy with expertise in material science, spintronic devices, and nanomaterials, having completed her Ph.D. in Physics with a focus on multifunctional materials for spintronics and sensor applications. Her educational background spans physics and condensed matter physics, supported by a solid foundation in mathematics and computer science. Professionally, she has served as an Assistant Professor of Physics and worked as a Research Assistant on a prestigious DST-SERB project, where she advanced the development of rare-earth doped multifunctional materials. Her research interests in Physics and Astronomy include condensed matter physics, spintronics, nanoferrites, structural and electrical properties of advanced materials, and applications in sensors and energy storage, with multiple international publications in reputed journals such as Journal of Materials Science, Brazilian Journal of Physics, and Physics Status Solidi B. Dr. Gadwala has also participated in several national and international conferences, presenting her research on Physics and Astronomy themes like nanomaterials, applied physics, and material science. She has cleared the Telangana State Eligibility Test, demonstrating strong academic and research skill sets in Physics and Astronomy, and her work emphasizes synthesis, structural analysis, and magnetic property enhancement of advanced materials. Her honors include recognition through high-quality publications and conference presentations that significantly contribute to Physics and Astronomy. With her strong research skills, including experimental synthesis, material characterization, and applied nanoscience, Dr. Gadwala continues to advance Physics and Astronomy by addressing emerging challenges in spintronic devices and sensor technology. In conclusion, her dedication, innovative contributions, and professional achievements highlight her as a dynamic scholar shaping future directions in Physics and Astronomy. 10 Citations, 5 Documents, 1 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Boddolla, S., Gantepogu, C. S., Gadwala, N., Shetty, P. B., Bantikatla, H., & Yadav, S. N. S. (2025, July). Enhancing the magnetic properties of CoFe₂O₄ ceramics through neodymium doping. Next Materials, 100802.

2. Gadwala, N. (2025, February). Effect of trivalent Ho³⁺ ion doping on structural, magnetic, optical, and electrical properties of BiFeO₃ nanoparticles. Physica Status Solidi (b), 202400304.

Mr. Fima Ardianto Putra | Einstein Field Equation | Visionary Research Impact Award

Published on by Physicist Particle

Mr. Fima Ardianto Putra | Einstein Field Equation | Visionary Research Impact Award

Mr. Fima Ardianto Putra, Institut Teknologi Sains Nahdlatul Ulama Pekalongan, Indonesia

Mr. Fima Ardianto Putra is affiliated with Institut Teknologi Sains Nahdlatul Ulama Pekalongan in Indonesia. As a dedicated academic and professional, he contributes significantly to the institution’s mission of advancing science and technology education. His role at the university emphasizes his commitment to fostering innovation and excellence in higher education. Mr. Putra is actively involved in various academic initiatives, contributing to the development and dissemination of knowledge within his field.

PROFILE

Orcid

Scopus

Educational Details

Fima Ardianto Putra is an Indonesian physicist born on May 20, 1989, in Tegal, Central Java. He holds a Bachelor’s degree in Theoretical Physics from University Jenderal Soedirman (2012) and a Master’s degree in Particle Physics and Cosmology from University Indonesia (2016). Currently, he is a Non-Tenure Lecturer at Institute Teknologi Sains Nahdlatul Ulama Pekalongan and works as a Freelance Tutor. His research primarily focuses on unifying Quantum Mechanics and Gravitation, with published works on topics such as Heisenberg Uncertainty, mass-action equivalence, and Dark Matter.

Research and Innovations

Fima Ardianto Putra has demonstrated significant progress in his research endeavors, having successfully published three papers in reputable scientific journals. Additionally, he has one paper draft published as a preprint, and four more papers currently under review. His dedication to advancing the field is further evidenced by three ongoing research projects that he is actively working on. His work reflects a deep commitment to exploring complex topics in physics and contributing valuable insights to the scientific community.

Contributions

Fima Ardianto Putra has made significant contributions to theoretical physics by proposing innovative concepts and frameworks. He introduced the theory of mass-action equivalence M=γ2ℏc2τM = \frac{\gamma^2 \hbar}{c^2 \tau}, extending beyond the traditional Einsteinian energy symmetry through the Relativistic Heisenberg Uncertainty principle. His work on Explicit Symmetry Breaking within the Particle Standard Model due to mass-action equivalence offers a new perspective on particle physics. Additionally, he proposed a 7-dimensional Lorentz Symmetry and introduced a novel mathematical object, the “curvaton,” as a quantized spatial curvature from the Ehrenfest paradox in the Bohr atomic model. Furthermore, he identified a new constant 16α2a0−2=3.0348×1017m−216\alpha^2 a_0^{-2} = 3.0348 \times 10^{17} \text{m}^{-2}, linking electromagnetic fine structure with atomic space curvature.

Top Notable Publications

Curvature Quantization based on the Ehrenfest Paradox in the Bohr Atomic Model

Journal: Astroparticle Physics

Date: July 2024

DOI: 10.1016/j.astropartphys.2024.102950

Source: Crossref

Mass–action equivalence with respect to Explicit Symmetry Breaking

Journal: Indian Journal of Physics

Date: March 2022

DOI: 10.1007/s12648-021-02041-0

Source: Crossref

On the relativistic Heisenberg uncertainty with respect to the mass-action equivalence

Journal: Results in Physics

Date: 2019

DOI: 10.1016/j.rinp.2019.01.022

EID: 2-s2.0-85060957451

Source: Scopus – Elsevier