Minggang Zhao | Materials Science | Best Researcher Award

Posted on by Physicist Particle

Prof. Minggang Zhao | Materials Science | Best Researcher Award

Professor at Ocean University of China

Prof. Minggang Zhao πŸ‘¨β€πŸ« is a distinguished professor and doctoral supervisor at the School of Materials Science and Engineering, Ocean University of China 🌊. He specializes in semiconductor materials and devices πŸ”¬, with over 70 SCI-indexed papers published in top journals like Advanced Functional Materials πŸ“š. A prolific inventor, he holds more than 10 national patents 🧾. His work has attracted national attention, featured in media such as Qilu Evening News πŸ“°. As a dedicated educator, he has been recognized as an excellent teacher and class mentor πŸ†. He also leads numerous national research projects 🎯.

Professional Profile:

Scopus

πŸŽ“ Education & Experience

  • πŸŽ“ Graduated from Zhejiang University, Department of Materials Science and Engineering

  • πŸ§ͺ Trained at the State Key Laboratory of Silicon Materials – Semiconductor Institute

  • 🏫 Currently Professor & Doctoral Supervisor at Ocean University of China

  • πŸ“ˆ Leads over 10 research projects including National Natural Science Foundation projects

  • 🧾 Holds more than 10 authorized national invention patents

  • ✍️ Published 70+ SCI papers in high-impact journals like Adv. Funct. Mater.

πŸ“š Professional DevelopmentΒ 

Prof. Zhao’s career reflects dynamic growth and multidisciplinary expertise πŸš€. With a strong foundation in materials science, he has advanced into cutting-edge research in semiconductors, sensors, and nanomaterials βš™οΈ. Through sustained publication in leading journals and collaboration on national-level projects πŸ”, he has built a reputation for innovation and leadership πŸ§‘β€πŸ”¬. He mentors Ph.D. students, shapes curricula, and contributes to the academic community with his insights and inventions 🌱. Actively engaged in both fundamental research and real-world applications, his work bridges science and society 🌐, earning media recognition and institutional accolades πŸŽ“πŸ“’.

πŸ”¬ Research FocusΒ 

Prof. Zhao’s research is deeply rooted in semiconductor materials and functional nanostructures 🌟. His focus spans porous materials, membrane technology, and nanoprobes used in sensing and photoelectric devices πŸ§«πŸ’‘. He is particularly committed to addressing challenges in environmental and medical detection 🌍🩺. His interdisciplinary work contributes to sustainable innovation, enabling efficient sensing systems and cleaner technology 🌱. With expertise bridging materials chemistry, nanotechnology, and electronics, Prof. Zhao leads research that impacts fields from green tech to smart healthcare 🧠⚑. His contributions push the boundaries of materials science in both academic and applied contexts πŸ”§πŸ“Š.

πŸ… Awards and HonorsΒ 

  • πŸ† Recognized as an Excellent Teacher at Ocean University of China

  • πŸŽ–οΈ Honored as an Excellent Class Teacher

  • πŸ“° Featured in Qilu Evening News, Qingdao Daily, and other national media outlets

  • πŸ§ͺ Principal Investigator on over 10 nationally funded research projects

  • πŸ“œ Holder of 10+ authorized national invention patents

Publication Top Notes

1. Fabrication of CQDs/MoSβ‚‚/Mo foil for the improved electrochemical detection

  • Authors: Jinghua Shang, Minggang Zhao, Huiyan Qu, Hui Li, Shougang Chen

  • Journal: Analytica Chimica Acta

  • Citation Count: 15

  • Highlights:

    • A novel composite of carbon quantum dots (CQDs), molybdenum disulfide (MoSβ‚‚), and molybdenum (Mo) foil was developed.

    • Demonstrated enhanced electrochemical performance, suitable for sensitive detection tasks.

2. Simultaneous electrochemical determination of catechol and hydroquinone in seawater using Co₃Oβ‚„/MWCNTs/GCE

  • Authors: Yawen Song, Minggang Zhao, Xingtao Wang, Ying Liu, Shougang Chen

  • Journal: Materials Chemistry and Physics

  • Citation Count: 66

  • Highlights:

    • Developed a cobalt oxide/multi-walled carbon nanotube modified glassy carbon electrode (Co₃Oβ‚„/MWCNTs/GCE).

    • Successfully applied for the detection of catechol and hydroquinone in seawater with high sensitivity and selectivity.

3. Fabrication of p-n junction foam for detection of methyl parathion in seawater

  • Authors: Minggang Zhao, Huiyan Qu, Jinghua Shang, Yue Zhang, Shougang Chen

  • Journal: Sensors and Actuators B: Chemical

  • Citation Count: 3

  • Highlights:

    • Focused on p-n junction foam sensors for pesticide detection (methyl parathion).

    • Emphasized use in environmental water monitoring.

4. Synthesis of ZnFeβ‚‚Oβ‚„/ZnO heterostructures decorated three-dimensional graphene foam as peroxidase mimetics for colorimetric assay of hydroquinone

  • Authors: Xingtao Wang, Minggang Zhao, Yawen Song, Yunpeng Zhuang, Shougang Chen

  • Journal: Sensors and Actuators B: Chemical

  • Citation Count: 55

  • Highlights:

    • Developed 3D graphene foam decorated with ZnFeβ‚‚Oβ‚„/ZnO heterostructures.

    • Used as artificial peroxidases for colorimetric detection of hydroquinone.

Conclusion:

Prof. Minggang Zhao is an outstanding candidate for a Best Researcher Award. His high-impact publications, innovative patents, and consistent research leadership across nationally funded projects position him as a leader in the field of materials science. His contributions not only advance academic knowledge but also have practical implications in health and environmental technologies, meeting the core criteria for excellence in research.

Jing Zhang | Materials Science | Best Researcher Award

Posted on by Physicist Particle

Ms. Jing Zhang | Materials Science | Best Researcher Award

Lecturer at Shanxi Normal University, China

Jing Zhang is a dedicated researcher and lecturer at Shanxi Normal University, specializing in organic electronics and molecular materials. She earned her Ph.D. in Physical Chemistry from the Institute of Chemistry, Chinese Academy of Sciences (2018-2022) under the mentorship of Prof. Lang Jiang. She previously completed her Master’s in Physics at Hunan University (2015-2018) and her Bachelor’s in Physics. Her research focuses on organic semiconductor materials, neuromorphic devices, and molecular doping. She has led multiple funded research projects and published extensively in high-impact journals, contributing significantly to advanced materials science and device engineering.

Professional Profile:

Orcid

Scopus

Education & Experience πŸ“šπŸ”¬

  • Ph.D. in Physical Chemistry (2018-2022) πŸ›οΈ
    Institute of Chemistry, Chinese Academy of Sciences

    • Focus: Organic semiconductors and neuromorphic devices

    • Advisor: Prof. Lang Jiang πŸŽ–οΈ

  • Master’s in Physics (2015-2018) πŸ›οΈ
    Hunan University

    • Specialization: Semiconductor physics and nanomaterials

    • Advisor: Prof. Guifang Huang πŸ“‘

  • Lecturer (2022-Present) πŸŽ“
    Shanxi Normal University, College of Chemistry and Materials Science

    • Research on organic electrochemical transistors & bioelectronics

    • Development of 2D molecular crystals & neuromorphic computing devices 🧠

  • Researcher (2016-2022) πŸ”¬
    Institute of Chemistry, Chinese Academy of Sciences

    • Investigated porphyrin-based organic transistors & nanomaterials

    • Advanced graphene-like nanostructures for functional devices

Professional Development πŸ“ˆπŸ’‘

Jing Zhang has actively contributed to organic semiconductor research, pioneering advancements in molecular doping, neuromorphic devices, and biosensors. As the principal investigator of multiple projects funded by Shanxi Province and National Research Foundations, she has led breakthrough studies in organic single-crystal transistors and 2D molecular materials. Her expertise spans device fabrication, charge transport mechanisms, and nanomaterials for energy applications. Her research has been published in top journals like Advanced Materials, JACS, and ACS Materials Letters, reflecting her influence in next-generation electronics and bio-integrated systems. She also mentors students, fostering innovation in organic optoelectronics and flexible electronics.

Research Focus πŸ§ͺβš›οΈ

Jing Zhang’s research is centered on organic electronics, particularly semiconductor devices and molecular materials. She explores:

  • Organic Electrochemical Transistors (OECTs) for bioelectronic sensing πŸ₯

  • Porphyrin-Based Organic Semiconductors for neuromorphic computing πŸ§ πŸ’‘

  • Molecular Doping Techniques for high-performance organic transistors βš™οΈ

  • Two-Dimensional (2D) Molecular Crystals for next-gen optoelectronic applications 🌟

  • Functional Nanomaterials for sustainable energy conversion and storage βš‘πŸ”‹

Her innovative work bridges chemistry, materials science, and applied physics, pushing the limits of organic and molecular electronics for real-world applications.

Awards & Honors πŸ†πŸŽ–οΈ

  • Chinese Academy of Sciences Youth Science Award – Excellence Prize (2020-2021) πŸ…
    Recognized for outstanding contributions to organic semiconductor research

  • University of Chinese Academy of Sciences β€œThree-Good” Student Award (2020) πŸŽ“
    Honored for academic excellence and research achievements

  • Marie Curie Seal of Excellence – Aalborg University (2024) 🌍✨
    Awarded for outstanding research contributions in materials science and electronics

Publication Top Notes

  1. “Adhered-3D Paper Microfluidic Analytical Device Based on Oxidase-Mimicking Activity of Co-Doped Carbon Dots Nanozyme for Point-of-Care Testing of Alkaline Phosphatase”

    • Journal: Analytica Chimica Acta​

    • Publication Date: December 2024​

    • DOI: 10.1016/j.aca.2024.343378​

    • Summary: This study introduces a three-dimensional paper-based microfluidic analytical device (3D-ΞΌPAD) leveraging the oxidase-mimicking activity of cobalt-doped carbon dots (Co-CDs) nanozyme. The device is designed for point-of-care testing of alkaline phosphatase (ALP), an important biomarker. The Co-CDs nanozyme catalyzes the oxidation of colorimetric substrates, enabling the visual detection of ALP levels. The 3D-ΞΌPAD offers a simple, cost-effective, and efficient method for ALP detection, suitable for clinical diagnostics.​

  2. “Solution-Processed Monolayer Molecular Crystals: From Precise Preparation to Advanced Applications”

    • Journal: Precision Chemistry​

    • Publication Date: August 26, 2024​

    • DOI: 10.1021/prechem.3c00124​

    • Summary: This article reviews the advancements in the preparation and application of solution-processed monolayer molecular crystals. It discusses precise fabrication techniques and explores their potential in various advanced applications, including electronics and optoelectronics. The study emphasizes the significance of molecular orientation and crystallinity in determining the performance of these materials.​

  3. “Low Contact Resistance Organic Single‐Crystal Transistors with Band‐Like Transport Based on 2,6‐Bis‐Phenylethynyl‐Anthracene”

    • Journal: Advanced Science​JingΒ 

    • Publication Date: March 18, 2024​

    • DOI: 10.1002/advs.202400112​

    • Summary: This research presents the development of organic single-crystal transistors utilizing 2,6-bis-phenylethynyl-anthracene. The study focuses on achieving low contact resistance and demonstrates band-like transport behavior, which is crucial for high-performance organic electronic devices. The findings contribute to the understanding and improvement of charge transport in organic semiconductors.​

  4. “Cation Etching-Induced Deep Self-Reconstruction to Form a Polycrystalline Structure for Efficient Electrochemical Water Oxidation”

    • Journal: Chemical Communications​

    • Publication Date: 2024​

    • DOI: 10.1039/d4cc02009j​

    • Summary: This study explores a cation etching-induced self-reconstruction process that leads to the formation of a polycrystalline structure, enhancing the efficiency of electrochemical water oxidation. The research provides insights into material design strategies for developing high-performance catalysts in water-splitting applications.​

  5. “Diazulenorubicene as a Non‐Benzenoid Isomer of Peri‐Tetracene with Two Sets of 5/7/5 Membered Rings Showing Good Semiconducting Properties”

    • Journal: Angewandte Chemie International Edition​

    • Publication Date: September 25, 2023​

    • DOI: 10.1002/anie.202304632​

    • Summary: This research introduces diazulenorubicene, a non-benzenoid isomer of peri-tetracene featuring two sets of 5/7/5 membered rings. The study highlights its good semiconducting properties, suggesting potential applications in organic electronics. The unique structural attributes of diazulenorubicene contribute to its electronic characteristics.

Conclusion

Jing Zhang’s track record in high-impact research, leadership in project execution, and innovative contributions to organic electronics and energy materials make her a strong candidate for the Best Researcher Award. Her work has not only advanced fundamental understanding but also has potential applications in next-generation electronic and energy devices.

Sijo A K | Materials Science | Best Researcher Award

Posted on by Physicist Particle

Dr. Sijo A K | Materials Science | Best Researcher Award

Assistant Professor at Mary Matha Arts and Science College Wayanad, India

Dr. sijo a. k. is a dedicated researcher and academician affiliated with Mary Matha Arts and Science College, Wayanad. With a strong background in materials science, he has contributed significantly to nanomaterials, ferrites, and thin-film research. His expertise spans structural, optical, magnetic, and electrical properties of advanced materials. With an H-index of 9 and 170 citations, his work is widely recognized in reputed journals like Physica Scripta, Applied Nanoscience, and Journal of Magnetism and Magnetic Materials. Passionate about solar energy, nanotechnology, and spinel materials, he continues to drive innovation in materials research. πŸ”¬πŸ“š

Professional Profile:

Orcid

Education & Experience

πŸŽ“ Education:

  • Ph.D. in Materials Science πŸ…

  • Master’s Degree in Physics πŸ§‘β€πŸ«

  • Bachelor’s Degree in Physics πŸ“–

πŸ‘¨β€πŸ« Experience:

  • Assistant Professor, Mary Matha Arts and Science College, Wayanad πŸ“š

  • Published 24+ research papers in high-impact journals πŸ“‘

  • Expertise in nanotechnology, ferrites, thin films, and solar energy materials πŸŒžπŸ”¬

  • Active reviewer for leading scientific journals πŸ“

Professional Development

πŸš€ Dr. sijo a. k. has continuously advanced his expertise through collaborative research, academic mentoring, and scientific publishing. His work focuses on advanced nanomaterials, thin films, and energy-efficient materials, pushing the boundaries of applied physics and material science. He has reviewed research for multiple high-impact journals and remains actively engaged in scientific conferences, workshops, and symposiums. Through international collaborations, he has co-authored papers with researchers from Ukraine, India, and Europe, contributing to cutting-edge material innovations. His commitment to academic excellence and interdisciplinary research makes him a key figure in modern material science. πŸ”¬πŸŒ

Research Focus

πŸ§ͺ Dr. sijo a. k.’s research centers on advanced nanomaterials and thin films, with a particular interest in ferrites, spinel materials, and semiconductor applications. His studies explore magnetic, structural, and optical properties to enhance photocatalysis, energy storage, and solar cell efficiency. His contributions to copper tin sulfide (CTS) thin films and ferrite-based nanomaterials aim to develop sustainable, efficient materials for future energy applications. With an interdisciplinary approach, he integrates computational modeling, synthesis techniques, and experimental validation to unlock new possibilities in materials science. 🌍⚑

Awards & Honors

πŸ… United Group Research Award for outstanding research contributions πŸ†
πŸ”¬ Best Paper Awards in international conferences πŸ“œ
🌍 Recognized as a leading reviewer for top-tier journals πŸ“
πŸ“š Highly Cited Researcher in materials science and nanotechnology πŸŽ–
πŸŽ“ Ph.D. Fellowship for research in nanomaterials and thin films πŸ”

Publication Top Notes

  1. “Impact of Cation Distribution in Shaping the Structural and Magnetic Characteristics of Ni-Cu Ferrite”

    Authors: J. Mazurenko, Sijo A. K., L. Kaykan, J. M. Michalik, Ł. Gondek, E. Szostak, and A. Zywczak​X-MOL

    Journal: Physica Scripta​Eureka Mag+6ScienceDirect+6ScienceDirect+6

    Publication Date: March 1, 2025​

    DOI: 10.1088/1402-4896/adb2c3​

    Summary: This study presents the synthesis, characterization, and magnetic properties of Cu₁₋ₓNiβ‚“Feβ‚‚Oβ‚„ nanocrystalline ferrites (0.0 ≀ x ≀ 1.0) prepared using the sol–gel autocombustion method at neutral pH. The research focuses on how varying the cation distribution between copper and nickel influences the structural and magnetic characteristics of the resulting ferrites. ​

  2. “Post-Annealing-Induced Enhancement of Structural, Optical and Electrical Properties in Copper Tin Sulphide (CTS) Thin Films”

    Authors: Sijo A. K. and P. Sapna​

    Journal: Physica Scripta​

    Publication Date: March 1, 2025​

    DOI: 10.1088/1402-4896/adb2c5​

    Summary: This research investigates the impact of post-annealing on the structural, optical, and electrical properties of Copper Tin Sulfide (CTS) thin films. The CTS thin films were synthesized using the Successive Ionic Layer Adsorption and Reaction (SILAR) method and then annealed at temperatures of 100β€―Β°C, 200β€―Β°C, and 300β€―Β°C. Characterization techniques such as XRD, SEM, FTIR, UV–vis-NIR, and EDAX revealed that increasing the annealing temperature improved crystallinity, optical transmittance, and electrical conductivity. The films exhibited high bandgap energies (3.68–3.90β€―eV) and strong UV absorption, suggesting potential applications in high-performance optoelectronic devices.

  3. “Copper Precursor-Driven Variations in Structural, Optical and Electrical Properties of SILAR-Deposited CTS Thin Films”

    Authors: Information not available​

    Journal: Physica Scripta​

    Publication Date: January 1, 2025​

    DOI: 10.1088/1402-4896/ada079​

    Summary: Specific details about this paper are not available in the provided information.​

  4. “Synthesis and Characterization of Copper Ferrite Nanoparticles for Efficient Photocatalytic Degradation of Organic Dyes”

    Authors: Information not available​

    Journal: Journal of Nanotechnology​

    Publication Date: January 2025​

    DOI: 10.1155/jnt/8899491​

    Summary: Specific details about this paper are not available in the provided information.​

  5. “Enhancing Copper-Tin Sulfide Thin Films with Triethanolamine as a Complexing Agent”

    Authors: Information not available​

    Journal: Journal of Molecular Structure​ScienceDirect+4ScienceDirect+4ScienceDirect+4

    Publication Date: 2025​X-MOL+1SpringerLink+1

    DOI: 10.1016/J.MOLSTRUC.2025.141812​

    Summary: Specific details about this paper are not available in the provided information.

Conclusion

Dr. Sijo A. K. is an emerging researcher with notable contributions to magnetic materials, nanotechnology, and renewable energy applications. While his H-index and citation count are moderate compared to top-tier researchers, his consistent publishing in high-quality journals and focus on sustainable energy solutions makes him a strong contender for young or mid-career researcher awards. If the award criteria focus on impact, innovation, and sustained contributions, he is a suitable candidate, particularly in material sciences. However, for top-tier international “Best Researcher” awards, a higher H-index and citation impact might be needed.