Dr. Ihtisham Ulhaq is an emerging physicist and sustainability innovator π±π¬, currently advancing his Ph.D. at the University of Science and Technology of China π¨π³. With a robust foundation in materials science and renewable energy, his pioneering research on lead-free perovskite solar cells β‘ and spectrally split agrivoltaic systems ππΎ is shaping eco-friendly energy solutions with global relevance. Dr. Ulhaq has authored 12 peer-reviewed publications πβfive as the lead authorβacross high-impact Q1/Q2 journals, showcasing his scientific rigor and thought leadership. His multidisciplinary collaborations across China, Saudi Arabia, and Pakistan foster cutting-edge innovation in nanomaterials, photovoltaics, and sustainable agriculture π€π. With hands-on expertise in MOCVD, thin-film deposition, and doping strategies, he is bridging theoretical insights with scalable applications. Passionate, visionary, and globally connected, Dr. Ulhaq is driving transformative change in the fields of clean energy and agritech, embodying the spirit of next-generation research excellence ππ.
Professional Profile
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ORCID Profile
Education ππ
Dr. Ihtisham Ulhaqβs academic journey reflects a deep commitment to the frontiers of physics and sustainable technologies. He earned his M.Phil. in Physics from the University of Lahore π΅π°, where he laid the groundwork for his specialization in energy materials. Currently pursuing his Ph.D. at the prestigious University of Science and Technology of China π¨π³, Dr. Ulhaq focuses on renewable energy and advanced materials research. His educational background is anchored in strong theoretical physics, coupled with a practical mastery of experimental tools such as thin-film deposition, nanostructuring, and semiconductor engineering π¬. With a curriculum steeped in interdisciplinary learning and international exposure, he has cultivated the analytical and innovative skill set required to solve global energy and environmental challenges π. His academic excellence has been consistently demonstrated through scholarly achievements, publication output, and research-led learning, laying a solid foundation for a promising career in advanced scientific innovation π.
Professional Experience π§ͺπ’
Though still early in his career, Dr. Ihtisham Ulhaq has amassed significant professional experience through intensive academic research and collaborative projects. As a doctoral researcher at the University of Science and Technology of China, he has spearheaded studies in photovoltaics, nanomaterials, and solar cell optimization βοΈ. He has independently led and co-led three major research initiatives, including the design of a spectrally split agrivoltaic system combined with container farming πΏποΈβa novel concept integrating agriculture and energy efficiency. His work environment emphasizes international collaboration, where he has actively engaged with research partners across China, Saudi Arabia, and Pakistan π€. His hands-on experience in laboratory techniques such as MOCVD, doping analysis, and electron transport layer enhancement equips him with a comprehensive skill set ideal for next-gen green technologies π‘. Dr. Ulhaq’s professional path is defined by rigorous experimentation, innovation-oriented thinking, and a mission to translate science into sustainable global solutions π.
Research Interest πβ‘
Dr. Ihtisham Ulhaqβs research passion lies at the intersection of clean energy, nanotechnology, and sustainable agriculture. He specializes in developing lead-free perovskite solar cells, aiming to improve their stability, efficiency, and environmental safety πβ»οΈ. His interest extends to agrivoltaics, where he designs hybrid systems combining renewable energy generation with agricultural productivityβan area where he proposed a unique spectrally split system for container farming πΎπ§. His scientific curiosity drives explorations in bandgap engineering, doping strategies, and interface tailoring to enhance energy material performance at the nanoscale. He is equally intrigued by the optical and magnetic properties of functional thin films, especially ferrite-based materials with communication applications π‘. With a vision to create integrated, eco-friendly technologies, Dr. Ulhaqβs research is highly interdisciplinary and aligned with sustainable development goals π§. He is deeply committed to transforming lab-scale discoveries into scalable, real-world solutions that contribute to a greener and more resilient future ππ.
Awards and Honors πποΈ
While still in the formative years of his research career, Dr. Ihtisham Ulhaqβs accomplishments have earned him increasing recognition in academic circles π. His 12 peer-reviewed journal publications, five of which he authored as the primary investigator, have appeared in reputable Q1/Q2 scientific journalsβa significant feat in competitive research domains ππ§ . His work on lead-free perovskite solar cells and agrivoltaic systems has garnered attention for its originality and relevance to sustainable innovation π±π¬. While he is actively being considered for prominent awards such as the Best Researcher Award, his contributions are already making ripples within the scientific community through impactful research and global collaboration π. As a rising researcher, he is paving the way for future distinctions, honors, and fellowships tied to innovation, green energy, and interdisciplinary science. These early milestones reflect a trajectory of excellence, driven by purpose, persistence, and a profound scientific vision π§.
Conclusion β¨π
Dr. Ihtisham Ulhaq exemplifies the spirit of the modern researcher: globally engaged, scientifically rigorous, and deeply committed to sustainability. Through his pioneering work in clean energyβparticularly in lead-free perovskite solar cells and agrivoltaic system integrationβhe is addressing some of the most urgent challenges of our time πβ‘. His multidisciplinary expertise, spanning materials science, physics, nanotechnology, and agriculture, positions him as a key innovator in eco-technology and renewable solutions ππΏ. With a growing publication record, dynamic collaborations, and a proactive approach to scientific inquiry, Dr. Ulhaq is not only building a distinguished academic profile but also laying the groundwork for real-world impact ποΈπ. As he continues to expand his research, leadership, and outreach, his trajectory promises contributions that will resonate globally. In every dimensionβacademic, practical, and visionaryβDr. Ulhaq embodies the values deserving of recognition through the Best Researcher Award π
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Publications Top Notes
π¬ Title: Impact of molybdenum doping on the optoelectronic and structural properties of CsPbIBrβ perovskite solar cell
π¨βπ¬ Authors: MI Khan, A Mujtaba, S Hussain, M Atif, AI Qureshi, W Shahid, A Ali
π
Year: 2024
π Citations: 29
π Source: Physica B: Condensed Matter, Volume 678, Article 415758
π¬ Title: Bandgap reduction and efficiency enhancement in CsβAgBiBrβ double perovskite solar cells through gallium substitution
π¨βπ¬ Authors: MI Khan, A Ullah, A Mujtaba, BS Almutairi, W Shahid, A Ali, JR Choi
π
Year: 2024
π Citations: 24
π Source: RSC Advances, Volume 14 (8), Pages 5440β5448
π¬ Title: Influence of gallium on structural, optical and magnetic properties of Bi-YIG thin films
π¨βπ¬ Authors: MS Hasan, MI Khan, SS Ali, A Brahmia
π
Year: 2024
π Citations: 10
π Source: Materials Science and Engineering: B, Volume 301, Article 117180
π¬ Title: Bandgap Engineering and Enhancing Optoelectronic Performance of a Lead-Free Double Perovskite CsβAgBiBrβ Solar Cell via Al Doping
π¨βπ¬ Authors: A Ullah, M Iftikhar Khan, Ihtisham-ul-haq, BS Almutairi, DB N. AlResheedi, et al.
π
Year: 2024
π Citations: 9
π Source: ACS Omega, Volume 9 (16), Pages 18202β18211
π¬ Title: Trans-polyacetylene doped CsβAgBiBrβ: Band gap reduction for high-efficiency lead-free double perovskite solar cells
π¨βπ¬ Authors: A Ullah, MI Khan, BS Almutairi, A Laref, A Dahshan
π
Year: 2024
π Citations: 4
π Source: Results in Physics, Volume 60, Article 107654
π¬ Title: A novel heterostructure of Cr-doped TiOβ for reducing the recombination rate of dye sensitized solar cells
π¨βπ¬ Authors: MI Yasin, MI Khan, S Kanwal, DBN ALResheedi, M Fatima, N Alwadai, et al.
π
Year: 2024
π Citations: 3
π Source: Journal of the Korean Ceramic Society, Volume 61 (4), Pages 569β580
π¬ Title: Improving CsβAgBiBrβ double perovskite solar cells through graphdiyne doping: A Stride towards enhanced performance
π¨βπ¬ Authors: S Umer, MI Khan, A Ullah, M Asad, W Mnif, Z Algarni, MI Saleem
π
Year: 2024
π Citations: 2
π Source: Optical Materials, Volume 156, Article 115896
π¬ Title: Roadmap to 2D Graphene Nanomaterials-Based Biosensors for Early Cancer Detection
π¨βπ¬ Authors: JWLHIUHMA Khan
π
Year: 2025
π Citations: 1
π Source: Plasmonics
π¬ Title: Enhancing efficiency in double perovskite solar cells through bandgap reduction via organic polymer doping
π¨βπ¬ Authors: MI Khan, A Mujtaba, A Ullah, B Ali, M Atif, MS Hasan
π
Year: 2025
π Citations: 1
π Source: Results in Chemistry, Volume 13, Article 101999
π¬ Title: Enhancing the Efficiency and Stability of CsβAgBiBrβ Solar Cells via MAPbBrβ Decoration
π¨βπ¬ Authors: MI Khan, M Li, OAA Ali, SF Mahmoud
π
Year: 2025
π Source: Materials Research Bulletin, Article 113501
π¬ Title: Enhancing efficiency of CsβAgBiBrβ double perovskite solar cells through bandgap reduction by molybdenum doping
π¨βπ¬ Authors: IMIKLBFHERP Patil
π
Year: 2025
π Source: Journal of the Korean Ceramic Society
π¬ Title: Enhancing solar cell efficiency: lead-free double perovskite solar cells CsβAgBiBrβ with magnesium-doped and ZnβSnOβ electron transport layer
π¨βπ¬ Authors: MI Khan, Lamia Ben Farhat
π
Year: 2024
π Source: Journal of Sol-Gel Science and Technology, Volume 112 (2), Pages 468β479