Muhammad Azam | Perovskite Optoelectronics | Best Researcher Award

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Assist. Prof. Dr. Muhammad Azam | Perovskite optoelectronics | Best Researcher Award

Assistant professor at University of electronic science and technology, China

Dr. Muhammad Azam is a Research Assistant Professor at the University of Electronic Science and Technology of China. His research focuses on the development of high-efficiency, thermally stable perovskite solar cells, particularly under solar thermal cycling. He specializes in defect passivation, hole transport layer engineering, and self-assembled monolayers for enhanced device performance. Dr. Azam earned his Ph.D. in Materials Physics and Chemistry from the University of Chinese Academy of Sciences and has authored numerous publications in top-tier journals including Science and Nature Communications. He is the Principal Investigator of a National Natural Science Foundation of China (NSFC) project and a recipient of several academic honors, including the Outstanding Faculty Member Award (2024).

Publication Profile 

Orcid

Educational Background 

  • Ph.D. in Materials Physics and Chemistry
    Institute of Semiconductors, University of Chinese Academy of Sciences, Beijing, China
    Duration: September 2015 – June 2019

  • M.Sc. in Nanotechnology
    Center for Excellence in Solid State Physics, University of the Punjab, Lahore, Pakistan
    Duration: September 2012 – August 2014

  • B.Sc. in Computational Physics
    Center for High Energy Physics, University of the Punjab, Lahore, Pakistan
    Duration: September 2009 – August 2011

Professional Experience 

  • Research Assistant Professor
    School of Integrated Circuit Science and Engineering, University of Electronic Science and Technology of China, Chengdu, China
    Duration: September 2023 – Present

  • Assistant Professor
    Department of Physics, FOST, University of Central Punjab, Lahore, Pakistan
    Duration: October 2021 – August 2023

  • Postdoctoral Research Fellow
    College of Physics & Optoelectronic Engineering, Shenzhen University, Shenzhen, China
    Duration: October 2019 – September 2021

Research Interests 

Dr. Azam’s research is centered on:

  • Perovskite Solar Cells (PSCs): Designing thermally stable and highly efficient devices.

  • Deep-Level Defect Passivation: Using novel Lewis base molecules and self-assembled monolayers (SAMs).

  • Hole Transport Layer (HTL) Engineering: Integration into P-i-N device architectures.

  • Buried Interface Passivation and Hole Extraction: Development of SAMs with dual functions.

  • Advanced Materials and Nanotechnology: Including polymer solar cells, Sb₂(S,Se)₃ thin films, nanowire lasers, and photo detectors.

  • Characterization Techniques: SEM, AFM, XRD, Raman, PL, IPCE, TRPL, and more.

Awards and Honors 

  • Outstanding Faculty Member, 2024
    University of Electronic Science and Technology of China

  • Excellent International Graduate, 2019
    University of Chinese Academy of Sciences

  • Excellent International Student, 2018
    University of Chinese Academy of Sciences

Teaching & Supervisory Experience

  • Completed “Teaching Excellence Program”, University of Central Punjab (2021).

  • Taught undergraduate and graduate physics courses: Modern Physics, LASERS, Mechanics, Nuclear Physics.

  • Supervised Master’s Theses:

    • Cesium-based Perovskite Solar Cells (2023)

    • Empirical Analysis of Organic-Inorganic Perovskites (2023)

  • Mentored undergraduate final-year projects.

  • Active in organizing academic seminars and research meetings.

Research Tools & Technical Expertise

  • Thin Film Fabrication: Spin Coating, Sol-Gel, Hydrothermal

  • Device Fabrication: Cleanroom processing, metal evaporation, wet etching

  • Characterization Tools: SEM, AFM, XRD, PL, UV-Vis, TRPL, IPCE

  • Device Testing: I-V measurement, impedance spectroscopy

  • Lab Facilities: N₂ glove box, RTA ovens

Conclusion 

Dr. Muhammad Azam is an accomplished materials scientist and solar cell researcher with significant contributions to the field of next-generation photovoltaics. His research has addressed critical challenges in thermal stability, interface engineering, and defect passivation in perovskite solar cells. With a growing portfolio of high-impact publications—including work published in Science, Nature Communications, and Energy & Environmental Science—and a proven record of funded research and academic excellence, Dr. Azam stands out as a leading expert in emerging solar technologies.

Publications 

  • Azam, M., Ma, Y., Zhang, B., Wan, Z., Shao, X., Malik, H. A., Yang, X., Luo, J., & Jia, C.
    Isomeric Selenasumanene-pyridine-based Hole-transporting Materials for Inverted Perovskite Solar Cells,
    Energy & Environmental Science, Advance Article. https://doi.org/10.1039/D4TC05482B

  • Wan, Z., Wei, R., Jiang, S., Wang, Y., Yin, H., Zeng, H., Azam, M., Luo, J., & Jia, C.
    Increasing the Li-TFSI doping concentration in Spiro-OMeTAD enables efficient and stable perovskite solar cells,
    Journal of Materials Chemistry C, 13, 10690–10699.

  • Azam, M., Ma, Y., Zhang, B., Wan, Z., Shao, X., Malik, H. A., Yang, X., Luo, J., & Jia, C.
    Tailoring Pyridine Bridged Chalcogen-concave Molecules for Defects Passivation Enables Efficient and Stable Perovskite Solar Cells,
    Nature Communications, 16, 602.

  • Hassan, A., Ke, Z., Lin, W., Jin, Y., Cao, Y., Azam, M.*, & Xue, W.
    Synergistic effect of additive engineering and ultrafast laser crystallization enabled efficient and stable air-processed perovskite solar cells,
    Solar Energy Materials & Solar Cells, 287, 113614.

  • Wan, Z., Wang, Y., Ma, Y., Azam, M., Zhang, B., Shao, X., Wei, R., Yin, H., Zeng, H., Luo, J., & Jia, C.
    Bipyridine-Thiosumanene Isomeric Lewis Bases for Synergistic Defect Passivation and Hole Extraction Enables over 26% Efficient Perovskite Solar Cells,
    Angewandte Chemie International Edition.

  • Luo, J., Zhang, N., Lin, W., Zhang, B., Zhu, J., Xu, X., Yu, W., Malik, H. A., Azam, M.*, Wan, Z., & Jia, C.
    Star-Shaped Boroxine-Linked Fluorinated Dopant for Spiro-OMeTAD Enables High Performance Perovskite Solar Cells,
    Journal of Materials Chemistry A.

  • Wan, Z., Wei, R., Wang, Y., Zeng, H., Yin, H., Azam, M., Luo, J., & Jia, C.
    Multifunctional MXene for thermal management in perovskite solar cells,
    Nano-Micro Letters.

  • Zhang, B., Luo, J., Yin, H., Li, Q., Sun, S., Zhang, N., Gan, N., Azam, M., Park, T. W., Wan, Z., Jia, C., Wei, M., & Park, S. M.
    A cross-linked molecular contact for stable operation of perovskite/silicon tandem solar cells,
    Science.

  • Azam, M., Du, T., Wan, Z., Zhao, H., Zeng, H., Wei, R., Brabec, C. J., Luo, J., & Jia, C.
    Dual functionality of charge extraction and interface passivation by self-assembled monolayers in perovskite solar cells,
    Energy & Environmental Science, 17, 6974–7016.

  • Azam, M.*, Ke, Z., Luo, J., Wan, Z., Hassan, A., & Jia, C.
    Additive engineering enabled non-radiative defect passivation with improved moisture-resistance in efficient and stable perovskite solar cells,
    Chemical Engineering Journal, 483, 149424.

 

 

 

 

 

Shonak Bansal | Photonics | Best Researcher Award

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Dr. Shonak Bansal | Photonics | Best Researcher Award

Associate Professor at Chandigarh University, India

Dr. Shonak Bansal is an Associate Professor in the Electronics and Communication Engineering Department at Chandigarh University, Gharuan (Mohali), India. With extensive academic and research experience, his expertise lies in nanophotonics, photodetectors, graphene-based technologies, and solar cells. He has received multiple awards for his research contributions, peer-reviewing activities, and excellence in education.

Publication Profile 

Scopus

Orcid

Google Scholar

Educational Background 🎓

  • Ph.D. (2021) – Punjab Engineering College (Deemed to be University), Chandigarh
    • Thesis: Design and Simulation of Graphene-based Photodetectors
    • CGPA: 9.5
  • M.Tech. (2010) – Maharishi Markandeshwar Engineering College, Mullana
    • Thesis: Golomb Ruler Sequences Optimization: Soft Computing Approaches
    • CGPA: 9.22
  • B.Tech. (2006) – Haryana Engineering College, Jagadhri, Kurukshetra University
    • Percentage: 76.57% (First Division with Honours)
  • Senior Secondary (2002) – S.D. Senior Secondary School, Jagadhri (75.20%)
  • Matriculation (2000) – D.D. Aggarwal Senior Secondary School, Jagadhri (76.33%)

Professional Experience 💼

  • Chandigarh University, Gharuan (Mohali)
    • Associate Professor (March 2024 – Present)
    • Assistant Professor (October 2020 – March 2024)
  • Punjab Engineering College (Deemed to be University), Chandigarh
    • Assistant Professor (August 2018 – December 2019)
    • Guest Faculty (August 2017 – May 2018)
  • Institute of Science and Technology, Klawad
    • Head of Department (October 2013 – January 2015)
    • Assistant Professor (July 2008 – October 2013)
  • Ganpati Institute of Technology and Management, Bilaspur
    • Lecturer (July 2007 – June 2008)
  • Haryana Engineering College, Jagadhri
    • Lecturer (August 2006 – July 2007)

Research Interests 🔬

  • Nanophotonics
  • Graphene-based photodetectors
  • Mercury-cadmium telluride-based infrared photodetectors
  • ZnO nanowires
  • Solar cells
  • Nature-inspired optimization algorithms

Awards and Honors🏆✨

  • Judge at National Science Day 2025 (Chandigarh Group of Colleges, Mohali)
  • Best Researcher Award (2023) in Quantum Physics and Quantum Technologies
  • India Top Cited Award (2022) in Materials (Top 1% most-cited papers in IoP journals)
  • Outstanding Reviewer Awards (IoP Nanotechnology – 2020, 2022, 2024)
  • Elsevier Reviewer Recognitions (Multiple journals, 2016–2024)
  • IEEE Conference Reviewer (ICCCIS-2023, WPMC-2024, TEMSCON Asia-Pacific 2024)
  • NSS Program Officer Awards (2023–2025) for leadership in national integration and environmental sustainability
  • Coursera Faculty Excellence Award (2022)

Conclusion🌟

Dr. Shonak Bansal is an accomplished researcher and educator specializing in photodetectors, nanophotonics, and optimization algorithms. His career spans over 18 years, with experience in academic leadership, research, and peer reviewing. Recognized for his contributions to education and research, he continues to inspire students and researchers in the field of electronics and communication engineering.

Publications 📚

1️⃣ Design of an Integrated Model with Temporal Graph Attention and Transformer-Augmented RNNs for Enhanced Anomaly Detection

  • 🖋 Authors: S.B. Veesam, Sai Babu; A.R. Satish, Aravapalli Rama; S. Tupakula, Sreenivasulu; … S.K. Bansal, Shonak K.; M.R. Iqbal Faruque, Mohammad Rashed
  • 📚 Journal: Scientific Reports, 2025
  • 🔗 Full text: 🔒 (Access restricted)
  • 🔢 Citations: 1️⃣

2️⃣ DSIA U-Net: Deep Shallow Interaction with Attention Mechanism U-Net for Remote Sensing Satellite Images

  • 🖋 Authors: N.S. Jonnala, Naga Surekha; R.C. Bheemana, Renuka Chowdary; K. Prakash, Krishna; … M.R. Iqbal Faruque, Mohammad Rashed; K.S. Al-Mugren, Khouloud Saad
  • 📚 Journal: Scientific Reports, 2025
  • 🔗 Full text: 🔒 (Access restricted)
  • 🔢 Citations: 0️⃣

3️⃣ Optimizing Dielectric Rod Antenna Performance with Spoof Surface Plasmon Polariton-Based Feeding Method

  • 🖋 Authors: R. Chaparala, Rishitej; S. Imamvali, Shaik; S. Tupakula, Sreenivasulu; … K. Prakash, Krishna; A.F. Alkoradees, Ali Fayez
  • 📚 Journal: Sensors (Switzerland), 2024
  • 🔗 Full text: 🔒 (Access restricted)
  • 🔢 Citations: 0️⃣

4️⃣ Design Analysis and Performance Enhancement of a 2-Element MIMO Skin-Implantable Antenna for IoT-Based Health Monitoring Devices

  • 🖋 Authors: A. Gupta, Anupma; M. Aljaidi, Mohammad; S.K. Bansal, Shonak K.; … S. Aljohani, Saad; M.K. Singla, Manish Kumar
  • 📚 Journal: PLoS ONE, 2024
  • 🔗 Full text: 🔒 (Access restricted)
  • 🔢 Citations: 0️⃣

5️⃣ A Simulation Study of Optoelectronic Characteristics of Bilayer Graphene/ZnO Nanowires Heterojunction-Based Photodetector in UV Spectral Region

  • 🖋 Authors: S.K. Bansal, Shonak K.; A. Gupta, Anupma; M.K. Singla, Manish Kumar; … S. Rathee, Sarita; P.G. Kumar, Parveen G.
  • 📍 Conference: [No source information available]
  • 🔗 Full text: 🔒 (Access restricted)
  • 🔢 Citations: 0️⃣

6️⃣ Photo Detection Through Bilayer Graphene/ZnO/Si Dual Heterojunctions Covering the Spectrum from Ultraviolet to Near Infrared

  • 🖋 Authors: S.K. Bansal, Shonak K.; A. Gupta, Anupma; R. Kumar, Ramesh; … P. Saxena, Pranav; J. Sharma, Jyotsna
  • 📍 Conference: [No source information available]
  • 🔗 Full text: 🔒 (Access restricted)
  • 🔢 Citations: 0️⃣

 

 

 

 

 

Yuncai Feng | Optical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Yuncai Feng | Optical Engineering | Best Researcher Award

Associate Professor at Qingdao University of Technology, China

Dr. Yuncai Feng is an Associate Professor at Qingdao University of Technology, specializing in surface plasmon, metasurfaces, 2D materials, and perfect absorbers. He earned his Ph.D. from Nanjing University of Aeronautics and Astronautics in 2019 and has published over 20 papers in prestigious journals like Optics Express and Solar Energy. His research focuses on enhancing light-matter interactions for applications in optical sensing, energy harvesting, and photonic devices. With a strong background in nanophotonics and materials science, Dr. Feng’s innovative contributions are shaping next-generation optical technologies.

Publication Profile : 

Scopus

Education 🎓

🎓 Dr. Yuncai Feng earned a Ph.D. in 2019 from Nanjing University of Aeronautics and Astronautics, focusing on advanced topics in optical materials and nanophotonics.

Professional Experience💼

👨‍🏫 Dr. Feng is an associate professor at Qingdao University of Technology, where they continue to explore cutting-edge research in the fields of surface plasmon, metasurfaces, 2D materials, and perfect absorbers. Over the years, Dr. Feng has published more than 20 papers in top-tier journals like Optics Express, Solar Energy, and Optics Communications, contributing significantly to the advancement of optical technologies. With their interdisciplinary approach, Dr. Feng’s work spans across both fundamental research and practical applications in nanophotonics and materials science.

Research Interests 🔬

🔬 Dr. Feng’s research delves into nanostructures, light-matter interactions, and photonic devices. Their innovative designs have led to groundbreaking advancements in optical sensing, energy harvesting, and solar technologies. Notably, their work on atomically thin MoS2 integrated with gradient unit cell structures for antireflection (AR) in solar cells is paving the way for next-generation photovoltaic technologies. Their ongoing research continues to explore spin wave coupling and microwave interactions.

Publications Top Notes 📚

  1. Feng, Y., Huang, Z., Zhang, X., Qiu, T. Broadband and wide-angle antireflection in silicon solar cells using atomically thin MoS2 with a gradient unit cell structure. Solar Energy, 2024, 284, 113088.
  2. Huang, Z., Feng, Y. Tunable Plasmonic Filter Based on Improved Quasiperiodic Structure. Plasmonics, 2024, 19(3), 1649–1657.
  3. Feng, Y., Huang, Z., Zhang, X., Qiu, T. Tunable ultra-wideband graphene-based filter with a staggered structure. Optics Express, 2023, 31(26), 42785–42794. (Open Access)
  4. Feng, Y., Zhao, Y., Liu, Y., Qiu, T. Reconfigurable ultra-compact graphene-based plasmonic devices. Results in Physics, 2022, 34, 105331. (Open Access)
  5. Qiu, T., Ma, H., Xin, P., Feng, Y., Yu, Z. Image adder and subtractor based on light storage. European Physical Journal Plus, 2022, 137(1), 126.
  6. Meng, D., Liu, M., Liu, Y., Feng, Y., Qiu, T. Electromagnetically Induced Polarization Grating in a Quasi-M-Type Atomic System. International Journal of Theoretical Physics, 2021, 60(9), 3387–3395.
  7. Qiu, T., Li, H., Xie, M., Xin, P., Zhao, X. Efficient polarization beam splitter based on the optimized stationary light pulse. Quantum Information Processing, 2021, 20(3), 115.
  8. Feng, Y., Wu, Q.Y.S., Wang, B., Liu, Y., Teng, J. Design of narrowband perfect absorber for enhancing photoluminescence in atomically thin WSe2. Optics Communications, 2020, 454, 124443.
  9. Dong, D., Liu, Y., Fei, Y., Feng, Y., Fu, Y. Designing a nearly perfect infrared absorber in monolayer black phosphorus. Applied Optics, 2019, 58(14), 3862–3869.
  10. Feng, Y., Liu, Y., Teng, J. Design of an ultrasensitive SPR biosensor based on a graphene-MoS2 hybrid structure with a MgF2 prism. Applied Optics, 2018, 57(14), 3639–3644.