Qiuping Zhang | Nanotechnology | Research Excellence Award

Published on by Chemical Scientist

Dr. Qiuping Zhang | Nanotechnology | Research Excellence Award

Southwest Minzu University | China

Dr. Zhang, Qiuping is an accomplished researcher specializing in functional nanomaterials, photocatalysis, semiconductor heterojunctions, and photo-assisted sensing technologies. Their work addresses critical challenges in environmental remediation, gas detection, and energy-related applications through advanced material design, defect engineering, and surface carrier regulation. Demonstrating strong expertise in nanocomposite synthesis, structure–property analysis, and multifunctional device development, they have contributed influential studies published in leading international journals and collaborated extensively with global research teams. According to Scopus, Zhang Qiuping has authored 61 peer-reviewed documents, accumulated 2,921 citations, and achieved an h-index of 27, reflecting sustained scientific impact and research excellence. Their contributions advance practical, scalable solutions with clear societal relevance in sustainable chemistry and advanced materials science.

Citation Metrics (Scopus)

2921
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0

Citations

2,921

Documents

61

h-index

27

Citations

Documents

h-index

View Scopus Profile

Featured Publications

Syed Muhammad Zaigham Abbas Naqvi | Nanotechnology | Chemical Scientist Award

Published on by Chemical Scientist

Dr. Syed Muhammad Zaigham Abbas Naqvi | Nanotechnology | Chemical Scientist Award

Post-Doctor, Henan University of Technology, China

Syed Muhammad Zaigham Abbas Naqvi is a dedicated researcher in agricultural engineering with a passion for advancing sustainable agricultural technologies. A native of Pakistan, he is currently pursuing his Ph.D. in Agricultural Engineering at Henan Agricultural University, China, with a focus on nanotechnology-enhanced plant hormone detection. With more than 30 publications in high-impact journals and contributions to multiple international book chapters, he stands out in the field of biosensor development, optical spectroscopy, and smart farming technologies. His professional journey includes academic roles, research assistance, and industry-level agricultural management. Naqvi’s collaborative efforts span globally, including associations with McGill University and the University of Florida. He actively participates in international conferences and workshops and has received recognition for his innovative approaches in precision agriculture and environmental monitoring. With a research impact factor of 109.5 and a Google Scholar h-index of 12, he continues to make significant contributions to science and technology in agriculture.

Professional Profile 

Zaigham’s educational journey reflects a strong interdisciplinary grounding in agricultural sciences and engineering. He began with a B.Sc. (Hons.) in Agriculture from PMAS-Arid Agriculture University Rawalpindi, focusing on plant wearable biosensors. He then earned an M.Sc. (Hons.) in Agronomy from the same university, where his thesis explored remote sensing applications for wheat yield estimation.  He added a diploma in GIS and Remote Sensing from NISTE, Islamabad, sharpening his technological expertise. Currently, he is pursuing a Ph.D. in Agricultural Engineering at Henan Agricultural University, China . His doctoral research centers on using single crystal perovskite nanofiber substrates for SERS-based detection of the plant hormone abscisic acid. His academic focus includes advanced agricultural engineering, micro-processing technologies, and biosensor innovations, positioning him at the forefront of smart agriculture. This blend of plant sciences, engineering, and data analytics underpins his multidimensional research approach.

Experience 

Zaigham brings over a decade of diverse experience across research, academia, and industry. His professional career began with an internship at the National Agriculture Research Council, Islamabad. He served as a Research Assistant at PMAS-Arid Agriculture University, where he contributed to key agronomic research projects. He also lectured at the University Institute of Information Technology . He took on a corporate role as Sales Area Manager at Jaffer Agro Services Pvt. Ltd., providing him with hands-on exposure to the commercial side of agriculture. Most recently, he returned to PMAS-AAUR as a Research Assistant, further strengthening his research acumen. These cumulative experiences, combining academic rigor and fieldwork, have equipped him with the ability to address real-world agricultural challenges using cutting-edge technologies and innovative thinking.

Professional Development

Zaigham has actively pursued professional growth through global conferences, training workshops, and scientific engagements. He presented at leading international forums such as the ICASAST and IWASM in China, highlighting innovations in agricultural sensing technologies. His development also includes specialized training in hydroponics , GIS for agricultural monitoring , and scientific writing . Furthermore, he attended sessions on youth engagement in biodiversity conservation and energy production from biomass. These events not only expanded his technical skills but also fostered his leadership and collaborative abilities. As a peer reviewer for top journals under Elsevier, MDPI, Springer, and PLOS ONE, Zaigham stays engaged with emerging trends in his field. His involvement in multi-disciplinary international collaborations reflects a strong commitment to continuous learning and contributing to global agricultural advancements. This robust professional development portfolio positions him as a proactive and well-rounded researcher committed to excellence.

Skills & Expertise

Zaigham’s skill set reflects a robust integration of theoretical knowledge and practical innovation in agricultural engineering. He is proficient in biosensor development, particularly for hormone detection using SERS and perovskite nanomaterials. His skills extend to optical spectroscopy, fiber Bragg grating sensors, and remote sensing applications for yield estimation. Technologically, he is trained in GIS, AI and machine learning for soil and crop analysis, and data visualization. His fluency in scientific writing and academic publishing is evident from his extensive portfolio of high-impact papers and book chapters. Additionally, he has strong communication and team collaboration skills, having worked in both academic and industry settings. He is experienced in laboratory experiments, field sensor deployment, and interdisciplinary project management. Zaigham also demonstrates excellent presentation skills through his participation in global conferences and webinars. His comprehensive skill set makes him adept at bridging experimental research with scalable agricultural solutions.

Resarch Focus

Zaigham’s research primarily lies in the intersection of smart agriculture, environmental monitoring, and nanotechnology-enhanced biosensing. His current Ph.D. work centers on the surface-enhanced Raman spectroscopy (SERS) detection of abscisic acid using perovskite nanofiber substrates. His broader research interests include optical spectroscopy, biosensors, plant wearable sensors, variable rate technologies, and fiber Bragg grating sensors. He is particularly passionate about using these advanced tools for real-time monitoring of plant hormones, crop health, and environmental pollutants. His work integrates remote sensing, precision agriculture, AI, and IoT to address challenges such as non-point source pollution and crop stress detection. This multidisciplinary approach enables him to contribute to sustainable agriculture through data-driven insights and innovative sensor designs. His research aligns with current global priorities such as food security, climate resilience, and digital transformation in agriculture, making his work highly relevant and impactful in both academic and applied contexts.

Awards & Recognitions

Zaigham has garnered substantial recognition through his high-impact scholarly contributions and global collaborations. His research articles have collectively accumulated an impressive impact factor exceeding 109.5, and he holds a Google Scholar h-index of 12 and Scopus h-index of 9. These metrics underline the influence of his work in agricultural engineering and smart sensing technologies. He has co-authored over 30 peer-reviewed articles and several book chapters in renowned publishing platforms such as Elsevier and Springer. He has been an invited speaker and participant in international conferences, notably in China and Pakistan. Additionally, his role as a reviewer for prestigious journals reflects his standing in the global research community. He has collaborated with international experts from institutions like McGill University and the University of Florida, further enhancing his research profile. These accomplishments signify his outstanding contributions to innovation in sustainable agriculture, making him a distinguished and respected figure in his domain.

Publication Top Notes 

Title: AI and machine learning for soil analysis: an assessment of sustainable agricultural practices
Authors: M Awais, SMZA Naqvi, H Zhang, L Li, W Zhang, FA Awwad, EAA Ismail, …
Journal: Bioresources and Bioprocessing
Citations: 53
Year: 2023

Title: Real time monitoring chlorophyll content based on vegetation indices derived from multispectral UAVs in the kinnow orchard
Authors: MN Tahir, SZA Naqvi, YB Lan, YL Zhang, YK Wang, M Afzal, MJ Cheema
Journal: International Journal of Precision Agricultural Aviation 1(1), 24–31
Citations: 53
Year: 2018

Title: Application of unmanned aerial vehicles in precision agriculture
Authors: MN Tahir, Y Lan, Y Zhang, H Wenjiang, Y Wang, SMZA Naqvi
Journal: Precision Agriculture, pp. 55–70
Citations: 39
Year: 2023

Title: Applied surface enhanced Raman Spectroscopy in plant hormones detection, annexation of advanced technologies: A review
Authors: SMZA Naqvi, Y Zhang, S Ahmed, MI Abdulraheem, J Hu, MN Tahir, …
Journal: Talanta 236, 122823
Citations: 38
Year: 2022

Title:  Real time estimation of leaf area index and groundnut yield using multispectral UAV
Authors: MN Tahir, YB Lan, YL Zhang, YK Wang, F Nawaz, MAA Shah, A Gulzar, …
Journal: International Journal of Precision Agricultural Aviation 3(1), 1–6
Citations: 32
Year: 2020

Title:Ultrasensitive detection of plant hormone abscisic acid-based surface-enhanced Raman spectroscopy aptamer sensor
Authors: Y Zhang, L Li, H Zhang, J Shang, C Li, SMZA Naqvi, Z Birech, J Hu
Journal: Analytical and Bioanalytical Chemistry 414(8), 2757–2766
Citations: 28
Year: 2022

Title: Variable rate technologies: Development, adaptation, and opportunities in agriculture
Authors: SR Saleem, QU Zaman, AW Schumann, SMZA Naqvi
Journal: Precision Agriculture, pp. 103–122
Citations: 27
Year: 2023

Title: Unmanned air vehicle based high resolution imagery for chlorophyll estimation using spectrally modified vegetation indices in vertical hierarchy of citrus grove
Authors: SMZA Naqvi, M Awais, FS Khan, U Afzal, N Naz, MI Khan
Journal: Remote Sensing Applications: Society and Environment 23, 100596
Citations: 21
Year: 2021

Conclusion:

Syed Muhammad Zaigham Abbas Naqvi is a strong candidate for the Research for Chemical Scientist Award. His work in chemical detection, nanomaterials, and analytical techniques is both innovative and impactful. He contributes significantly to interdisciplinary research that applies chemical science to solve real-world problems in agriculture and environmental monitoring. With minor enhancements in framing his research toward core chemical sciences and pursuing translational outputs, he would stand out as an exemplary chemical scientist.

Yoon Dae Hyeob | Nanotechnology | Chemical Research Excellence Award

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Mr. Yoon Dae Hyeob | Nanotechnology | Chemical Research Excellence Award

Undergraduate Researcher, Chungbuk National University (CBNU) in  South Korea.

🔬 Short Biography 🌿💊📚

Dae Hyeob Yoon 🎓 is an enthusiastic undergraduate researcher in Mechanical Engineering at Chungbuk National University (CBNU) 🏛️. With a passion for micro/nanotechnology 🔬, sensors 📡, and MEMS, he has already co-authored a scientific publication in Applied Sciences titled “Development of a Flexible and Conductive Heating Membrane…” 📄. His early engagement in research has led to meaningful contributions to wearable electronics, showcasing innovative applications in smart textiles 👕. He received recognition at the UROP Achievement Presentation 🏅 and has actively shared his work through poster presentations at KSME 🇰🇷 and the upcoming EKC in Austria 🇦🇹. Dae Hyeob’s commitment to cutting-edge research and hands-on experience highlights his growing potential in engineering and nanotech-based innovation 🚀.

PROFILE 

Orcid 

🔍 Summary of Suitability:

Dae Hyeob Yoon has demonstrated exceptional promise in chemical and materials research at an early academic stage. As an undergraduate researcher, he has already contributed to high-impact work involving electroless plating and nanofiber membrane engineering—fields critical to chemical and materials innovation. His ability to co-author a peer-reviewed journal article in Applied Sciences and present at national and international forums underscores his commitment and capability in advancing chemical research.

🔹 Education & Experience 

Dae Hyeob Yoon 🎓 is currently pursuing his Bachelor of Science degree in Mechanical Engineering at Chungbuk National University (CBNU) 🏫. As an undergraduate researcher, he actively explores fields like micro/nanotechnology ⚛️, sensors 🔍, and MEMS (Microelectromechanical Systems) ⚙️. His most notable experience includes co-authoring a research article published in the journal Applied Sciences 🧪. Dae Hyeob has also participated in industry-relevant research projects, including one consultancy project, demonstrating early exposure to applied engineering solutions 🏗️. He presented his findings at major academic platforms like the KSME conference 🗣️ and is scheduled to present internationally at EKC 2025 🇦🇹. His award at the UROP presentation reflects his strong engagement in academic research and innovation at the undergraduate level 🥇.

🔹Professional Development

Dae Hyeob Yoon 💡 has shown commendable growth through professional development in research, academic collaboration, and applied innovation. His publication in Applied Sciences marks a significant milestone early in his academic career 📘. Engaging in one consultancy/industry-based project 📊 has helped him bridge theoretical knowledge with real-world applications. He has actively presented posters at both national and international conferences such as KSME 🏛️ and the upcoming EKC in Austria 🌍. These platforms not only validate his technical contributions but also enhance his communication and scientific outreach skills 🗣️. Through these experiences, Dae Hyeob has gained confidence in publishing, presenting, and networking with peers and professionals. Though still at the undergraduate level, he displays a trajectory that aligns with global standards of academic excellence and practical impact 🚀.

🛠️ Skills & Expertise

Dae Hyeob Yoon 🧠 possesses a strong set of technical and research-based skills that align with his focus on mechanical engineering and nanotechnology. He is proficient in experimental design 🔬, data analysis 📊, and material characterization techniques essential for micro/nano research. His hands-on experience with electroless plating, nanofiber fabrication, and flexible electronics 💡 showcases his laboratory competency. Dae Hyeob demonstrates excellent scientific writing ✍️, having contributed to a peer-reviewed publication. He is skilled in poster preparation and oral presentations 🗣️, evident from his active participation in conferences such as KSME and EKC. His collaboration in interdisciplinary projects reflects strong teamwork and problem-solving abilities 🤝. Additionally, he shows initiative in learning new tools and adapting to research environments quickly ⚙️. His growing experience with sensors, MEMS, and smart materials further strengthens his technical portfolio, making him a promising researcher for future innovations in wearable and adaptive technologies 🚀.

🔬 Research Focus

Dae Hyeob Yoon’s 🔬 research focus lies at the intersection of micro/nanotechnology, sensors, and MEMS (Microelectromechanical Systems) 🔍. His key interest revolves around the development of scalable, low-voltage, and flexible heating membranes for use in wearable electronics and smart textiles 👕. His co-authored work in Applied Sciences demonstrates innovation using BSA-assisted electroless plating techniques on nanofiber membranes, contributing to advances in flexible and conductive materials ⚗️. The research tackles challenges in mechanical stability, voltage efficiency, and applicability for next-generation electronic textiles ⚡. These studies aim to revolutionize how wearable devices function in health, fitness, and smart environments 🌐. By engaging with real-world engineering applications at the micro/nano scale, Dae Hyeob is addressing limitations in existing sensor technologies while opening up new possibilities for adaptive, lightweight, and cost-effective devices 🧠.

🏆 Awards & Recognitions

  • 🏅 Received award at the Undergraduate Research Opportunities Program (UROP) Achievement Presentation, CBNU

  • 📜 Co-author of a published research paper in Applied Sciences (SCI-indexed journal)

  • 🧪 Selected to present a research poster at the Korean Society of Mechanical Engineers (KSME) Conference

  • 🌍 Scheduled to present at the European Korean Conference (EKC) in Austria, August 2025

Publications & Citations 📚

📄 “Development of a Flexible and Conductive Heating Membrane via BSA-Assisted Electroless Plating on Electrospun PVDF-HFP Nanofibers” — Published in Applied Sciences (MDPI) in 2024, cited by [check current citations on MDPI/Google Scholar] 🔍 https://www.mdpi.com/2076-3417/15/14/8023 📚

🔍 Conclusion:

Dae Hyeob Yoon’s early-stage yet impactful work in chemical-based materials engineering, particularly in nanoscale electroless plating and polymer membrane development, makes him a highly suitable candidate for the Chemical Research Excellence Award. His research not only contributes to fundamental chemical processing but also has real-world applications in next-gen wearable technologies. His trajectory signals future breakthroughs in chemical innovation.