Best Researcher Award
Muhammad Mujahid — Nacionalinis Fizinių ir technologijos mokslų centras (NFTMC), Lithuania
| Research Profile |
| Affiliation |
Nacionalinis Fizinių ir technologijos mokslų centras (NFTMC) |
| Country |
Lithuania |
| Scopus ID |
57191832420 |
| Documents |
9 |
| Citations |
1,509 |
| h-index |
7 |
| Subject Area |
Perovskites |
| Event |
World Green Energy Awards |
| ORCID |
0000-0003-4714-9980 |
The Best Researcher Award recognition highlights the scholarly activities and scientific contributions of Muhammad Mujahid in the field of perovskite-based renewable energy materials and advanced energy technologies. Associated with the Nacionalinis Fizinių ir technologijos mokslų centras (NFTMC), Lithuania, the researcher has contributed to academic literature focused on material innovation, photovoltaic performance, and sustainable energy applications.[1] The research profile demonstrates measurable academic visibility through indexed publications, citation impact, and interdisciplinary engagement related to green energy technologies.[2]
Abstract
This academic article presents an overview of the research profile and scholarly recognition associated with Muhammad Mujahid in relation to the Best Researcher Award under the World Green Energy Awards initiative. The research activities emphasize perovskite materials, renewable energy systems, and photovoltaic advancements aimed at improving sustainable energy technologies.[3] The researcher’s publication record, citation metrics, and interdisciplinary engagement indicate a measurable contribution to contemporary materials science and green energy research. The article also evaluates research impact indicators and award suitability based on academic performance, subject relevance, and scientific visibility within indexed databases.[1]
Keywords
Perovskites; Renewable Energy; Photovoltaics; Green Energy Technologies; Sustainable Materials; Solar Cell Research; Materials Science; Academic Recognition; Scopus Indexed Research; Energy Conversion.
Introduction
Perovskite materials have emerged as a significant area of research within renewable energy studies due to their promising optoelectronic properties and efficiency potential in photovoltaic applications. Contemporary scientific investigations increasingly focus on improving device stability, scalability, and energy conversion efficiency to support the transition toward sustainable energy infrastructures.
Research Profile
The research profile of Muhammad Mujahid demonstrates active engagement in renewable energy and materials science research domains, particularly those involving perovskite technologies and advanced photovoltaic systems.[1] Indexed academic contributions indicate publication activity across peer-reviewed journals and collaborative research initiatives related to sustainable energy solutions.
Research Contributions
The researcher’s contributions are associated with the investigation of energy-efficient materials and renewable energy technologies aimed at improving the operational performance of solar energy systems. Research outputs in the area of perovskites often address efficiency enhancement, defect engineering, charge transport mechanisms, and environmental stability considerations.
Publications
The publication profile indexed under the Scopus Author ID demonstrates scholarly engagement in peer-reviewed scientific communication. The available publication metrics indicate growing citation recognition and research visibility within renewable energy and materials science domains.[1]
Research Impact
Research impact indicators provide quantitative insight into academic visibility and scholarly influence. According to the indexed profile, the researcher has accumulated 1,509 citations with an h-index of 7 across 9 documents, indicating measurable engagement within the scientific community.[1] Citation performance reflects the relevance of the published studies to contemporary research themes in renewable energy and materials science.
Award Suitability
The research profile of Muhammad Mujahid aligns with the thematic objectives of the World Green Energy Awards due to the demonstrated focus on perovskite materials, renewable energy technologies, and sustainable scientific innovation. The combination of indexed publications, citation performance, interdisciplinary collaboration, and subject relevance supports the suitability of the researcher for recognition under the Best Researcher Award category.
The academic contributions further indicate participation in scientific efforts aimed at addressing global sustainability challenges through advanced energy research. The researcher’s activities are therefore considered relevant to contemporary discussions on clean energy transition and environmentally responsible technological development.
Conclusion
Muhammad Mujahid’s academic profile reflects measurable contributions to renewable energy and perovskite research within the broader field of sustainable materials science. Through indexed publications, citation visibility, and interdisciplinary research engagement, the researcher demonstrates alignment with internationally relevant scientific priorities related to green energy technologies.[1] The overall research trajectory and thematic relevance support recognition under the Best Researcher Award associated with the World Green Energy Awards initiative.
External Links
References
- Elsevier. (n.d.). Scopus author details: Muhammad Mujahid, Author ID 57191832420. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=57191832420
- ORCID. (n.d.). ORCID profile for Muhammad Mujahid.
https://orcid.org/0000-0003-4714-9980
- World Green Energy Awards. (n.d.). Academic recognition and sustainability initiatives.
https://greenenergyaward.com/
- Mujahid, M., Gradauskas, J., Sužiedėlis, A., Širmulis, E., & Ašmontas, S. (2025). Recent advancements in understanding hot carrier dynamics in perovskite solar cells. Energies, 18(13), 3543.
https://doi.org/10.3390/en18133543
- Mujahid, M., Čerškus, A., Gradauskas, J., Grigucevičienė, A., Giraitis, R., Leinartas, K., Lučun, A., Petrauskas, K., Selskis, A., Sužiedėlis, A., Šilėnas, A., Širmulis, E., & Ašmontas, S. (2025). Unveiling the influence of hot carriers on photovoltage formation in perovskite solar cells. Materials, 18(1), 85.
https://doi.org/10.3390/ma18010085