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.

Maofeng Zhang | SERS Sensors | Best Researcher Award

Published on by Chemical Scientist

Prof. Dr. Maofeng Zhang | SERS Sensors | Best Researcher Award

Director of the Department of Energy Chemical Engineering, School of Chemistry and Chemical Engineering, Hefei University of Technology, China

Professor Maofeng Zhang currently serves as the Director of the Department of Energy Chemical Engineering at the School of Chemistry and Chemical Engineering, Hefei University of Technology. He earned his Ph.D. in Chemistry from the University of Science and Technology of China under the mentorship of Academician Yitai Qian. His academic excellence was further enriched through a research visit at Washington University in St. Louis. Professor Zhang has made pioneering contributions in the domains of surface-enhanced Raman spectroscopy (SERS) and low-carbon energy systems. With over 80 peer-reviewed publications, more than 20 invention patents, and leadership in 15 major research projects, his work spans academia and real-world innovation. He holds editorial roles, including Guest Editor for Chemosensors, and serves on various national science and technology evaluation boards. His dedication to interdisciplinary research and applied solutions highlights his impactful presence in chemical engineering and nanotechnology.

Professional Profile 

Prof. Maofeng Zhang completed his Ph.D. in Chemistry at the University of Science and Technology of China, where he conducted research under the esteemed guidance of Academician Yitai Qian. His doctoral work provided a strong foundation in chemical sciences, particularly in the fields of nanomaterials and chemical engineering. Following this, he broadened his academic exposure through a research visit at Washington University in St. Louis, USA, gaining valuable international experience and interdisciplinary insights. This combination of rigorous domestic education and overseas research exposure enabled him to build a profound understanding of micro-nano biochemical sensing and energy material development. The synthesis of functional nanomaterials, energy catalysis, and spectroscopic sensing technologies became core pillars of his expertise. His educational path not only shaped his research vision but also laid the groundwork for his future role as a leader in energy chemical engineering, fostering innovations that bridge theory with application.

Experience 

Prof. Maofeng Zhang currently serves as Director of the Department of Energy Chemical Engineering at Hefei University of Technology. He has led more than 15 major research projects, including national and provincial programs such as the National Natural Science Foundation of China and Anhui Provincial R&D initiatives. Over his career, he has published more than 80 scientific papers in high-impact journals, including ACS Sensors and the Chemical Engineering Journal, with six selected as cover articles. He has also secured over 24 invention patents. In addition to his research contributions, Prof. Zhang has played active roles in academic leadership, serving as a guest editor for Chemosensors, and participating as a council member of the Anhui Chemical Society. He is a peer review expert for various national and provincial science foundations. These experiences reflect his dynamic role as a scientist, innovator, and academic leader in the field of chemical engineering and materials science.

Professional Development

Professor Zhang’s professional development is marked by continuous contributions to scientific leadership, research mentorship, and technological innovation. As a Council Member of the Anhui Chemical Society and a Peer Review Expert for the National Natural Science Foundation of China, he plays a key role in national-level scientific governance. His appointment as an Evaluation Expert for science departments across Anhui, Zhejiang, Jiangsu, and Jiangxi provinces highlights his cross-regional influence. He is also recognized as an academic leader in energy chemical engineering. Through his position as Guest Editor for Chemosensors, he actively contributes to scholarly communication in the field. His professional growth is further evident in his involvement with international collaborations, interdisciplinary platforms, and the integration of machine learning in sensing technologies. Zhang’s ability to bridge academic research with industrial applications positions him as a forward-thinking contributor to the future of chemical sciences and sustainable technology.

Skills & Expertise

Professor Zhang demonstrates a highly interdisciplinary skill set encompassing nanomaterials synthesis, surface-enhanced Raman spectroscopy (SERS), energy catalysis, and biochemical sensor development. He excels in designing integrated sensing systems that combine advanced materials with machine learning algorithms, a testament to his expertise in both physical chemistry and data-driven analytics. His research involves developing and fabricating energy devices like supercapacitors, along with real-time chemical monitoring platforms, showcasing his engineering acumen. In addition, Zhang possesses strong project management and scientific leadership capabilities, having led numerous large-scale national and regional projects. His editorial role and peer-review contributions highlight his proficiency in scientific communication and critical evaluation. He also exhibits a deep understanding of industrial collaboration, as evidenced by his consultancy engagements. Professor Zhang’s versatile skill set enables him to bridge the gap between fundamental research and practical innovation in chemical sciences.

Resarch Focus

Professor Maofeng Zhang’s research primarily focuses on energy chemical engineering, functional nanomaterials, and micro-nano biochemical sensing devices. His work sits at the intersection of analytical chemistry, nanotechnology, and sustainable energy, aligning him closely with the Best Researcher Award category. Zhang has made significant advances in developing SERS-based portable detection platforms for non-invasive disease marker screening, integrating surface-enhanced Raman spectroscopy with machine learning. His expertise also extends to creating novel substrates that enhance the understanding of photo-induced Raman mechanisms. In energy technology, he has innovated in the development of supercapacitor materials and energy conversion systems, emphasizing practical deployment in low-carbon technologies. His multidisciplinary approach combines chemistry, data science, and engineering to address global energy and health challenges, marking him as a leader in cutting-edge research with high translational impact.

Awards & Recognitions

Prof. Maofeng Zhang has received significant recognition for his outstanding contributions to chemical engineering and nanomaterials research. His leadership in over 15 prominent national and provincial research projects underscores his expertise and credibility in scientific innovation. His published works, including over 80 peer-reviewed articles with 6 featured as cover stories, and the granting of more than 20 invention patents, reflect his prominence as a researcher and innovator. He serves as a guest editor for Chemosensors, contributing to scholarly discourse, and holds editorial and review responsibilities with top-tier scientific organizations. His professional appointments—such as council member of the Anhui Chemical Society and expert evaluator for multiple provincial and national science agencies—highlight his influence in shaping research directions and policies. These honors validate his ongoing efforts in advancing chemical sensor technologies and energy nanomaterials, positioning him as a leading candidate for the Best Researcher Award in the International Chemical Scientist Awards program.

Publication Top Notes 

Title: Enhanced photocatalytic hydrogen evolution through chemically active sulfur-doping of one-dimensional Bi₄Te₃ nanowires
Author Citation: Zhang M., et al.
Journal: Materials Research Bulletin
Year: 2025
Citations: 0

Title: Directional Design of the Pyridine Ligand Functional Block to Improve the Electrocatalytic Nitrate Reduction Performance of the Co-MOFs
Author Citation: Zhang M., et al.
Journal: Inorganic Chemistry
Year: 2025
Citations: 0

Title: High-sensitivity SERS sensor leveraging three-dimensional Ti₃C₂Tx/TiO₂/W₁₈O₄₉ semiconductor heterostructures for reliable detection of trace micro/nanoplastics in environmental matrices
Author Citation: Zhang M., et al.
Journal: Talanta
Year: 2025
Citations: 1

Title: Natural flavonoids as highly efficient catalyst for rapid H₂ generation from NaBH₄ methanolysis in cold climates
Author Citation: Zhang M., et al.
Journal: Journal of Environmental Chemical Engineering
Year: 2025
Citations: 0

Title: A Self-Assembly MOF-on-MOF Heterostructure-Driven Fluorescence Sensor for Aerogel-Based Visualization Detection of Flavomycin
Author Citation: Zhang M., et al.
Journal: Small
Year: 2025
Citations: 3

Conclusion:

Professor Maofeng Zhang’s interdisciplinary research, technological innovation, and leadership in energy nanotechnology and biochemical sensing uniquely position him for the Best Researcher Award. His body of work not only advances scientific understanding but also delivers real-world impact through applications in health, sustainability, and environmental monitoring. His track record exemplifies excellence, innovation, and continued promise in the field of chemical sciences. Therefore, he is a highly deserving candidate for this prestigious recognition.

Hong Seung Mo | Polymer chemistry | Best Researcher Award

Published on by Chemical Scientist

Dr. Hong Seung Mo | Polymer chemistry | Best Researcher Award

SHINA T&C,  R&D center, South Korea

Dr. Seung-Mo Hong is a highly experienced and innovative R&D professional in the field of polymer engineering, with a dynamic career spanning over two decades. Based in Incheon, South Korea, he holds a Ph.D. in Polymer Engineering from Dankook University, where he explored multifunctional thiol hardeners and their thiol-epoxy curing behavior. He also earned his M.S. and B.S. in Chemical Engineering from Soongsil University. Throughout his distinguished career, Dr. Hong has led groundbreaking research and product development in UV-curable polymers, optical materials, and quantum dot technologies. He has worked with leading organizations like Shin-A T&C, SKC Co., Ltd., and Dongwoo Fine-Chem, spearheading innovations in display materials and adhesives. With over 108 patents and impactful publications, Dr. Hong continues to contribute to advanced material science. His expertise in synthesis, commercialization, and product innovation makes him a driving force in next-generation polymer technologies.

Professional Profile

Education 

Dr. Seung-Mo Hong earned his Ph.D. in Polymer Engineering from Dankook University (2021–2023), where he focused on multifunctional thiol hardeners and thiol-epoxy curing behaviors, graduating with a GPA of 4.37/4.50. Prior to this, he completed his M.S. in Chemical Engineering at Soongsil University (1999–2001) with a thesis on photosensitive polyimides and a GPA of 3.63/4.00. His foundational education was in Chemical Engineering, also at Soongsil University, where he completed his B.S. between 1995 and 1999. Throughout his academic journey, Dr. Hong developed a strong foundation in polymer chemistry, synthesis techniques, and structure-property relationships. His advanced studies focused on both industrial and functional polymers, aligning academic research with practical applications in optical materials and coatings. The rigor and depth of his academic training have equipped him to lead innovation across various industrial R&D platforms and contribute extensively to peer-reviewed scientific literature.

Experience 

Dr. Hong has amassed over 20 years of experience across top-tier R&D institutions and companies. Since 2018, he has led R&D at Shin-A T&C, spearheading innovations in polythiol synthesis, UV inks, and quantum dot optical films. At SKC (2015–2018), he developed multifunctional thiols and high-refractive-index resins for optical lenses. Earlier, he held a pivotal role at Dongwoo Fine-Chem (2006–2015), leading the development of hard coatings, flexible films for OLED, and photosensitive oligomers. His international experience includes a research assignment at Sumitomo Chemical in Japan, where he focused on anti-static and anti-fouling coatings. Beginning his career at SSCP (AkzoNobel) and LG Electronics, Dr. Hong specialized in urethane acrylates and BLU prism sheets. His career reflects deep expertise in polymer synthesis, process scale-up, and product commercialization across diverse applications such as displays, adhesives, and coatings, making him a versatile and strategic leader in the field of advanced materials.

Professional Development

Dr. Seung-Mo Hong has consistently pursued professional development through diverse leadership and technical roles across Korea and Japan. His strengths lie in R&D management, commercialization of high-tech polymer systems, and intellectual property strategy. He is proficient in reverse engineering, defect analysis, VOC resolution, and patent mapping. He has mentored numerous junior researchers and managed large-scale research projects. Notably, his work at Shin-A T&C and SKC led to market-ready innovations in quantum dot resins and multifunctional thiols. Dr. Hong is also fluent in Korean, business-level Japanese, and conversational English, enhancing his collaborative capabilities in multinational settings. He is skilled in using Minitab for statistical analysis and is Six Sigma Green Belt certified. His contributions to the polymer industry are reinforced by 108+ patents and multiple international publications, reflecting his commitment to ongoing innovation and excellence in advanced materials science.

Skills & Expertise

Dr. Seung-Mo Hong possesses a comprehensive skill set centered on advanced polymer science and industrial application. His core competencies include the synthesis and design of UV-curable oligomers and monomers, sulfur-containing compounds, thermoset polymers, and photosensitive materials. He is highly proficient in process development, including commercialization strategies, scale-up procedures, and optimization of production techniques for optical resins and films. Dr. Hong’s material application expertise spans a wide range of products, such as optical films for displays, high-refractive-index lenses, hard coatings, adhesives, and quantum dot-based materials. His analytical capabilities enable him to reverse engineer competitor products, resolve customer complaints, and conduct root cause analysis. Additionally, he is skilled in patent mapping, clearance, and intellectual property risk mitigation. As a seasoned R&D leader, he has mentored junior researchers and led multidisciplinary teams. He is fluent in Korean, professionally proficient in Japanese, and conversational in English, and he is adept at using Minitab and Microsoft Office tools.

Resarch Focus

Dr. Seung-Mo Hong’s research focuses on polymer synthesis, especially UV-curable oligomers and monomers, sulfur-based functional materials, and optical polymers for high-performance applications. His work delves into the development of thiol-based curing systems, high-refractive-index resins, and photosensitive materials for displays and electronics. He has pioneered methods for synthesizing polythiols, epoxy acrylates, and quantum dot UV inks, which have significantly impacted the optical film and display industries. His industrial research encompasses materials for hard coatings, adhesives, lens materials, and flexible electronics, bridging academic precision with commercial applicability. Hong’s approach includes novel chemical formulations, reaction optimization, and product durability improvements. He aligns his research with market trends in displays, wearables, and energy-efficient materials. Through an interdisciplinary lens, Dr. Hong advances polymer technology that underpins next-generation electronic and photonic devices.

Awards & Recognitions

Dr. Seung-Mo Hong’s exceptional contributions to polymer chemistry and industrial innovation have been widely recognized. He received the prestigious Invention King Award from SKC in both 2017 and 2018, honoring his groundbreaking developments in multifunctional thiols and optical materials. While at Dongwoo Fine-Chem, he was honored with the Most Patent Applications Award in 2011, highlighting his prolific output in material innovations, followed by the Excellent Employee Award in 2009. These accolades reflect his ability to transform scientific ideas into commercial products and his dedication to research excellence. In addition to these recognitions, Dr. Hong holds over 100 registered domestic patents and several international patents, demonstrating his continuous impact on the global materials science community. His Six Sigma Green Belt certification further attests to his proficiency in process optimization and quality control, solidifying his reputation as a visionary and highly effective research leader in advanced polymer materials.

Publication Top Notes 

Title: Optimization of synthetic parameters of high purity trifunctional mercaptoesters and their curing behavior for the thiol–epoxy click reaction
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2021
Citations: 8+

Title: Synthesis and Characterization of Multifunctional Secondary Thiol Hardeners Using 3‑Mercaptobutanoic Acid and Their Thiol−Epoxy Curing Behavior
Authors: Seung-Mo Hong, Seung Hwan Hwang
Year: 2022
Citations: 10+

Title: Enhancing the shelf life of epoxy monoacrylate resins using acryl phosphate as a reactive additive
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2022
Citations: 6+

Title: Synthesis and characteristics of novel 2-hydroxy-3-mercaptopropyl terminated polyoxypropylene glyceryl ether as an epoxy hardener of epoxy-based adhesives
Authors: Seung-Mo Hong, Seung Hwan Hwang
Year: 2022
Citations: 4+

Title: Chemistry of Polythiols and Their Industrial Applications
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2024
Citations: 1+

Title: Synthesis of 9,9-bis[4-(2-hydroxyethoxy)phenyl]fluorene di(mercaptopropionate) for high-luminance and refractive prism sheets
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2024
Citations: 0 (new)

Title: Synthesis and Characterization of UV-Curable Resin with High Refractive Index for a Luminance-Enhancing Prism Film
Authors: J.H. Song, Seung-Mo Hong, S.K. Park, H.K. Kwon, S.H. Hwang, J.M. Oh, S.M. Koo, G.W. Lee, C.H. Park
Year: 2025
Citations: 0 (new)

Title: Synthesis and characterization of hyperbranched thiol hardener and their curing behavior in thiol–epoxy
Authors: J.H. Song, Seung-Mo Hong, S.K. Park, H.K. Kwon, S.H. Hwang, J.M. Oh, S.M. Koo, G.W. Lee, C.H. Park
Year: 2025
Citations: 0 (new)

Conclusion:

Dr. Hong’s career demonstrates a consistent trajectory of innovation, problem-solving, and technology development in polymer and materials engineering. His cutting-edge research, industrial application success, and outstanding patent portfolio make him a compelling and deserving recipient of the Best Researcher Award. His work not only advances scientific understanding but also significantly contributes to the commercialization of high-performance materials, impacting industries such as display technology, electronics, and optical coatings.

Fa-Feng Xu | Materials Chemistry | Chemical Scientist Award

Published on by Chemical Scientist

Dr. Fa-Feng Xu | Materials Chemistry | Chemical Scientist Award

assistant researcher, Qinghai Institute of Salt Lakes, Chinese Academy of Sciences in  China.

🔬 Short Biography 🌿💊📚

Dr. Fa-Feng Xu 🧪 is an accomplished researcher specializing in photonic materials and microlasers. He currently serves as an Assistant Research Fellow at the Key Laboratory of Green and High-End Utilization of Salt Lake Resources, Qinghai Institute of Salt Lakes, Chinese Academy of Sciences 🇨🇳. He earned his Ph.D. in Physical Chemistry from the Institute of Chemistry, Chinese Academy of Sciences in 2020 🎓, following his bachelor’s degree in Material Chemistry from Jilin University in 2014. His postdoctoral work at the same institute focused on material engineering under the supervision of renowned scholars. Dr. Xu’s interdisciplinary research integrates chemistry, materials science, and photophysics to develop advanced optical devices such as microlaser arrays for applications in displays and encryption. With multiple high-impact publications and patents, Dr. Xu is a rising talent in the field of optoelectronic materials 🌟.

PROFILE 

Orcid 

🔍 Summary of Suitability:

Based on the provided CV, Dr. Fa-Feng Xu is a highly suitable candidate for the Chemical Scientist Award. His academic training and professional journey demonstrate a profound command over physical chemistry, material science, and photochemistry—disciplines central to the chemical sciences. Dr. Xu holds a Ph.D. in Physical Chemistry from the Chinese Academy of Sciences and has engaged in impactful postdoctoral research in materials engineering. He has consistently worked on the synthesis and functionalization of advanced photonic materials, particularly organometallic complexes and organic microlasers, which are at the cutting edge of chemical innovation.

🔹 Education & Experience 

Dr. Xu’s academic journey began at Jilin University, where he earned his Bachelor’s degree in Material Chemistry in 2014 🎓. He then pursued a Ph.D. in Physical Chemistry at the Institute of Chemistry, Chinese Academy of Sciences, mentored by distinguished professors including Academician Jiannian Yao 🧬. His research focused on photochemistry and organic photonic materials. After earning his doctorate in 2020, Dr. Xu continued as a Postdoctoral Fellow in Material Engineering at the same institute, collaborating with Prof. Yu-Wu Zhong. Since November 2023, he has been serving as an Assistant Research Fellow at the Qinghai Institute of Salt Lakes, Chinese Academy of Sciences, contributing to the sustainable utilization of salt lake resources 🧫. His career reflects deep expertise across disciplines including chemistry, optics, and nanomaterials, shaping innovations in photonic applications 💡.

🔹Professional Development

Dr. Fa-Feng Xu has developed a robust professional skill set grounded in multidisciplinary science 🧪. His expertise spans organic synthesis, materials design, and photonic device fabrication. With a strong foundation in chemistry and materials science, he designs and synthesizes organometallic and liquid crystal systems with high-performance photonic properties 🌈. He is skilled in fabricating organic microlasers and constructing patterned microlaser arrays for advanced applications like laser displays and information encryption 🔐. Dr. Xu is adept in characterizing materials using techniques such as UV-Vis, SEM, TEM, XRD, and AFM. His practical experience extends to the use of cutting-edge instrumentation including electron beam lithography and femtosecond lasers for device testing. Through collaborations and continuous research, he brings innovation to organic photonics, contributing significantly to applied optical science and advanced materials development 🎯.

🛠️ Skills & Expertise

Dr. Fa-Feng Xu possesses a diverse set of interdisciplinary research skills that bridge the fields of chemistry, photophysics, and materials science 🧪🔬. He is proficient in the synthesis, purification, and analysis of organic and organometallic compounds, including platinum and iridium complexes and liquid crystal systems 🌈. His expertise extends to designing and fabricating organic microlaser arrays—such as microdisks, microspheres, and microplates—for applications in laser displays and information encryption 🖥️🔐. Dr. Xu is skilled in preparing polymer-based microstructures using materials like PS and PMMA for high-performance waveguiding and lasing functions ⚡. He is also experienced in constructing and characterizing inorganic nanostructures, such as silver nanowires 🧫. Technically adept, he operates advanced instruments including SEM, TEM, AFM, XRD, and UV-Vis for structural and optical characterization 🛠️. Furthermore, his familiarity with cutting-edge device fabrication techniques—such as vacuum deposition, lithography, and femtosecond lasers—enables innovative work at the frontier of organic photonics and materials science 🚀.

🔬 Research Focus

Dr. Xu’s research is centered on the intersection of organic photonics, microlasers, and advanced optical materials 🌟. He focuses on the rational design and synthesis of organometallic compounds (notably Pt and Ir complexes), liquid crystal systems, and polymeric microstructures for photonic applications. His work includes fabricating two-dimensional microcrystals and wavelength-tunable microlaser arrays, which find use in full-color laser displays and encrypted information systems 🖥️🔒. Dr. Xu also explores waveguiding phenomena and the development of photonic materials with thermal and optical responsiveness, bridging chemistry, optics, and device engineering. His contributions reflect a broader interest in next-generation optoelectronics, nonlinear optics, and nanostructured materials. The integration of organic systems into functional devices highlights his forward-thinking approach in applied physical chemistry and materials innovation 🔬✨.

🏆 Awards & Recognitions

  • 🥇 Excellent Paper Certificate, 8th CAST Excellent Scientific Paper Selection Program

  • 🎓 Merit Student, University of Chinese Academy of Sciences (UCAS), 2014–2015

  • 🏆 Outstanding Student Leader, UCAS, 2015–2016

  • 💰 Academic Scholarships, UCAS (2014–2019)

  • 🎖️ National Encouragement Scholarships, Jilin University (2010–2012)

  • 🌟 Excellence Scholarship Student, Jilin University, 2010–2011

Publications & Citations 📚

  1. 📝 Organoplatinum(II) Cruciform: A Versatile Building Block to Fabricate 2D Microcrystals with Full-Color and White Phosphorescence and Anisotropic Photon Transport, Angew. Chem. Int. Ed. 📅 2022 | 🔁 Cited by: [citation data needed] 🌈📸

  2. 📝 Wavelength-Tunable Single-Mode Microlasers Based on Photoresponsive Pitch Modulation of Liquid Crystals for Information Encryption, Research 📅 2020 | 🔁 Cited by: [citation data needed] 🔒📡

  3. 📝 Flat-Panel Laser Displays Based on Liquid Crystal Microlaser Arrays, CCS Chem. 📅 2020 | 🔁 Cited by: [citation data needed] 🖥️🎯

  4. 📝 Thermo-Responsive Light-Emitting Metal Complexes and Related Materials, Inorg. Chem. Front. 📅 2020 | 🔁 Cited by: [citation data needed] 🔥🔬

  5. 📝 Molecular Cocrystals with Hydrogen-Bonded Polymeric Structures and Polarized Luminescence, Materials 📅 2022 | 🔁 Cited by: [citation data needed] 💎💡

  6. 📝 Research Progress of Cesium-Based Photonic Materials, J. of Salt Lake Research 📅 2024 | 🔁 Cited by: [citation data needed] 🧂🔍

🔍 Conclusion:

Dr. Xu’s contributions lie at the intersection of synthetic chemistry, optics, and functional materials. His creative solutions to complex challenges in organic photonics and his strong publication and patent record mark him as an emerging leader in chemical research. His profile exemplifies the innovation and interdisciplinary excellence the Chemical Scientist Award aims to recognize.

Yoon Dae Hyeob | Nanotechnology | Chemical Research Excellence Award

Published on by Chemical Scientist

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.

Philippe Guégan | Polymer Chemistry | Chemical Scientist Award

Published on by Chemical Scientist

Prof. Philippe Guégan | Polymer Chemistry | Chemical Scientist Award

Academic , Sorbonne Université in  France.

🔬 Short Biography 🌿💊📚

Prof. Philippe Guégan is a Full Professor of Polymer Chemistry at Sorbonne Université, Paris, with over 30 years of academic and research experience. He holds a Ph.D. in Physico-Chemistry of Polymers from Université Pierre et Marie Curie and an HDR from Université d’Évry Val d’Essonne. His research focuses on cationic and anionic ring-opening polymerization, self-assembling copolymers, and biomimetic nanostructures for biomedical applications. He has authored over 100 peer-reviewed publications, holds 10 patents, and co-founded the spin-off Polytheragen SAS. Prof. Guégan has supervised numerous Ph.D. and postdoctoral researchers and has received multiple awards, including the Prix Line Pomaret. He is actively involved in international collaborations, scientific evaluation committees, and editorial boards of leading journals in polymer and materials science

PROFILE 

Scopu

Orcid 

🔍 Summary of Suitability:

Prof. Guégan exemplifies excellence in chemical research, especially within polymer chemistry and biomaterials. His work combines fundamental discovery with practical innovation, bridging academic rigor with real-world applications. With a strong balance of publication, mentorship, patents, and leadership, he stands out as a distinguished researcher and scientific role model.

🔹 Education & Experience 

Prof. Philippe Guégan has a distinguished educational background in polymer chemistry. He earned his Ph.D. in Physico-Chemistry of Polymers from Université Pierre et Marie Curie in 1994, under the supervision of Dr. S. Boileau. He later obtained his Master’s Degree in the same field from the same university. In 2000, he was awarded the prestigious Accreditation to Conduct Research (HDR) from Université d’Évry Val d’Essonne, marking a significant milestone in his academic career.

🔹Academic & Professional Experience

Prof. Guégan is currently a Full Professor of Polymer Chemistry at Sorbonne Université’s Institut Parisien de Chimie Moléculaire (CNRS UMR 8232). His academic journey spans over three decades, beginning as an Associate Professor at Université d’Évry-Val d’Essonne from 1994 to 2002, where he later served as Full Professor until 2012. He has undertaken postdoctoral research at globally renowned institutions, including the University of Minnesota (USA) and Tokyo Institute of Technology (Japan). His leadership also extends to serving on scientific councils, evaluation committees, and academic recruitment boards across France and Europe.

🛠️ Skills & Expertise

Prof. Guégan possesses deep expertise in polymer chemistry, especially in cationic and anionic ring-opening polymerization, block copolymer self-assembly, and biomimetic nanochannels. His interdisciplinary approach has allowed him to engage in advanced applications, including gene delivery systems. He is also a skilled research evaluator and editor, with reviewing roles for high-impact journals such as Macromolecules, Nature Communications, and ACS Nano. His experience in patent development, industrial collaborations, and conference organization showcases a comprehensive skillset blending research, innovation, and leadership.

🔬 Research Focus

His current research is focused on advanced polymer synthesis techniques, self-assembling copolymers, membrane engineering, and functional materials for biomedical applications. He has co-authored over 100 peer-reviewed publications and holds an h-index of 25, reflecting the impact of his contributions. Notable works include recent studies on biodegradable polyesters, DNA transfection materials, and viral particle dynamics in nanopores. He has participated in and led numerous national and international research collaborations and has played a central role in mentoring over 28 Ph.D. students and 10 postdoctoral researchers.

🏆 Awards & Recognitions

Prof. Guégan has received multiple awards and honors, including the Prix Line Pomaret from the Fondation pour la Recherche Médicale (2016) and the Ph.D. and Research Supervising Bonus (PEDR) from 2012 to 2024. His work has been instrumental in the establishment of Polytheragen SAS, a spin-off company recognized by awards such as the C’nano Award (2011) and OSEO Award (2012). In 2020, his innovation efforts were further acknowledged with a Prematuration Award from CNRS Innovation. His recent involvement in the ViroID incubation by Pulsalys (2024) highlights his continued contributions to translational research and innovation.

Publications & Citations 📚

  1. Title: Polymerization of 2-alkyl-2-oxazoline in the presence of thiocarbonylthio derivatives: Unveiling a new polymerization mechanism pathway
    Authors: [Authors not listed]
    Journal: European Polymer Journal
    Year: 2025
    Citations: 0

  1. Title: Tuning the size of poly(butylene oxide) nanoparticles by microfluidic-assisted nanoprecipitation
    Authors: [Authors not listed]
    Journal: Chemical Engineering Journal Advances
    Year: 2025
    Citations: 0

  1. Title: Soft jamming of viral particles in nanopores
    Authors: L. Chazot-Franguiadakis, J. Eid, G. Delecourt, P.J. Kolbeck, S. Brugère, B. Molcrette, M. Socol, M. Mougel, A. Salvetti, V. Démery, J.-C. Lacroix, V. Bennevault, P. Guégan, M. Castelnovo, F. Montel
    Journal: Nature Communications
    Year: 2024
    Citations: 1

  1. Title: Evaluation of polymersome permeability as a fundamental aspect towards the development of artificial cells and nanofactories
    Authors: [Authors not listed]
    Journal: Journal of Colloid and Interface Science
    Year: 2024
    Citations: 5

  1. Title: Neutral Block Copolymer Assisted Gene Delivery using Hydrodynamic Limb Vein Injection
    Authors: [Authors not listed]
    Journal: Macromolecular Bioscience
    Year: 2024
    Citations: 0

  1. Title: Ring-opening (co)polymerization of cardanol glycidyl ether
    Authors: [Authors not listed]
    Journal: Polymers for Advanced Technologies
    Year: 2024
    Citations: 2

  1. Title: Complete depolymerization of poly(ester-alt-thioether)s under mild conditions into AB functional monomers
    Authors: [Authors not listed]
    Journal: RSC Sustainability
    Year: 2024
    Citations: 2

  1. Title: Direct Electrografting of Poly(2-alkyl-2-oxazoline)s on Gold, ITO, and Gold Nanoparticles for Biopassivation
    Authors: [Authors not listed]
    Journal: ACS Applied Nano Materials
    Year: 2023
    Citations: 2

  1. Title: γ-Thiobutyrolactone – ethylene carbonate decarboxylative copolymerization, an original pathway to prepare aliphatic oxidizable poly(γ-thioether ester)
    Authors: [Authors not listed]
    Journal: Polymer Chemistry
    Year: 2023
    Citations: 4

  1. Title: Thermally Switchable Nanogate Based on Polymer Phase Transition
    Authors: [Authors not listed]
    Journal: Nano Letters
    Year: 2023
    Citations: 6

🔍 Conclusion:

Prof. Philippe Guégan is highly deserving of both the Chemical Scientist Award and Best Researcher Award. His long-standing contributions, proven mentorship, innovation leadership, and global recognition place him among the top tier of chemical scientists internationally. His profile aligns perfectly with the vision and criteria of excellence these awards represent.

Rachid AZIAM | Polymer Chemistry | Best Researcher Award

Published on by Chemical Scientist

Dr.Rachid AZIAM | Polymer Chemistry | Best Researcher Award

Academician/Research Scholar , Ibnou Zohr University in  Morocco.

🔬 Short Biography 🌿💊📚

Dr. Rachid Aziam 🇲🇦 is a Moroccan researcher specializing in physical chemistry and environmental applications. 🎓 He holds a Ph.D. in Physical Chemistry (2021) from the Faculty of Sciences, Ibn Zohr University, Agadir. Prior to that, he earned two Master’s degrees — one in Water Chemistry (Oujda, Morocco) and another in Water Treatment, Science and Technology (Lille, France) — along with a Bachelor’s in Chemistry and a DEUG diploma. 🌍 His teaching career includes appointments at the Faculty of Sciences in Agadir and the Specialized Institute of Public Works. Dr. Aziam has undertaken multiple prestigious research internships across Morocco, France, and Romania. 🧪 His work focuses on the synthesis and characterization of eco-friendly biomaterials for environmental remediation. As a published author in Q1-ranked journals, book chapters, and international books, he is recognized for his innovation in green chemistry. 🌿 He is also an active reviewer for international scientific journals and conferences. 🏅

PROFILE 

GOOGLE SCHOLAR

Scopus 

Orcid 

🔍 Summary of Suitability:

Dr. Rachid Aziam is an accomplished researcher in the field of Physical Chemistry with a dedicated focus on environmental remediation and sustainable material science 🌿. Holding a Ph.D. from Ibn Zohr University, he has consistently demonstrated academic rigor, international collaboration, and impactful scientific contributions. His research spans the development of bio-nanocomposites, adsorption of dyes and pollutants, and AI-enhanced modeling techniques for wastewater treatment. His scholarly output includes over 20 peer-reviewed journal articles, many published in Q1 journals, along with international book chapters and a scientific book. With citations exceeding 400+, his work is widely recognized and respected in the scientific community 📚.

🔹 Education & Experience 

Dr. Rachid Aziam’s academic journey began with a DEUG in Chemistry (2010-2011) and culminated in a Ph.D. in Physical Chemistry (2015-2021) from Ibn Zohr University, Agadir 📘. He obtained a Bachelor’s in Chemistry (2011-2012) and two Master’s degrees — one in Water Chemistry from Oujda (2012-2014) and another in Water Treatment from Lille, France (2013-2014) 🌍. His professional experience includes teaching assignments as a Temporary Associate Professor at the Faculty of Sciences in Agadir (2016-2017) and at the Specialized Institute of Public Works (2024-2025), covering subjects like chemical kinetics, thermodynamics, and water treatment 🧪. His extensive practical teaching and laboratory involvement, including plant visits, demonstrate his strong commitment to both theoretical and applied chemistry 👨‍🏫. He has participated in various internships in Morocco, Romania, and France, focusing on wastewater treatment and the development of novel bio-nanocomposites for environmental applications 🌱.

🔹 Professional Development 

Dr. Rachid Aziam has advanced his professional expertise through rigorous research internships and collaborative international projects 🌍. He conducted postdoctoral research at the National University of Science and Technology Politehnica Bucharest (2023, 2025) under Professor Daniela Simina Stefan, working on eco-engineered biopolymer–clay composites using statistical and AI modeling 🤖. His Ph.D. research at Ibn Zohr University emphasized the valorization of local natural materials for dye adsorption from wastewater 💧. Additionally, he interned at industry-relevant institutions like SOTRALENG SARL and the Solid Waste Treatment Center in Oujda, Morocco 🏭. He actively contributes as a reviewer and scientific committee member for international journals and conferences, including CIDEEV 2024 📑. As an author of several high-impact journal articles and co-author of an academic book, Dr. Aziam’s professional trajectory demonstrates continuous engagement in applied environmental research and academia 📘, establishing him as a rising expert in sustainable material innovation and water purification 🌿.

🏅 Awards and Recognitions

  • 🧪 Certificate of Reviewing – Journal of Saudi Chemical Society

  • 🏅 Certificate of Excellence in Reviewing – Asian Journal of Research in Animal and Veterinary Sciences

  • 🥇 Certificate of Excellence in Reviewing – International Research Journal of Pure and Applied Chemistry

  • 🧠 Certificate of Excellence in Peer-Reviewing – Research and Applications Towards Mathematics and Computer Science

  • 🌍 Scientific Committee Member – International Conference on Water Depollution and Green Energy (CIDEEV2024)

🔬 Research Focus

Dr. Rachid Aziam’s research primarily falls within the realm of Environmental Physical Chemistry and Sustainable Materials Science 🧪🌍. His work explores the synthesis and application of eco-friendly bio-nanocomposites — particularly those derived from natural polymers and clays — for the adsorption and removal of pollutants such as azo dyes, phosphate ions, nitrates, and heavy metals from wastewater 💧. With a strong foundation in adsorption kinetics, isotherms, thermodynamic studies, and fixed-bed systems, his contributions aim to solve real-world environmental challenges using low-cost, renewable resources 🌱. He frequently applies modeling techniques, including Artificial Intelligence (AI) and Response Surface Methodology (RSM), to optimize the efficiency of novel adsorbents 🤖📊. His interdisciplinary approach merges chemistry, environmental engineering, and nanotechnology, positioning him at the forefront of green chemistry innovation 🌿. His research significantly impacts wastewater treatment technologies and environmental sustainability goals ♻️.

Publications & Citations 📚

📘 Synthesis, characterization, and comparative study of MgAl-LDHs…Environmental Science and Pollution Research (2020) – Cited by: 102 📈
📗 Kinetic modeling… on Carpobrotus edulis plantEuropean Physical Journal Special Topics (2017) – Cited by: 42 🔬
📙 Adsorption of Crystal Violet onto Carpobrotus edulisMaterials Today: Proceedings (2021) – Cited by: 31 💧
📕 Synthesis of LDH/Alginate composite beads…Chemical Papers (2023) – Cited by: 27 🧪
📒 Factors controlling the adsorption of acid blue 113…Arabian Journal of Geosciences (2016) – Cited by: 26 🌿
📘 Adsorption of metal ions on alginate-clay bio-nanocompositeNanomaterials (2024) – Cited by: 19 🧲
📗 Increasing Methylene Blue Adsorption Efficiency…Chemistry Africa (2021) – Cited by: 19 🧼
📙 Crystal violet dye adsorption on macroalgae…Bioresource Technology (2024) – Cited by: 18 🪸
📕 Macroalgal biomass for removal of organic dyes…Springer Book Chapter (2021) – Cited by: 12 📖
📒 Acid blue 113 removal by corallina officinalis algaE3S Web of Conferences (2021) – Cited by: 12 🧃
📘 Hybrid clay@Fe3O4 for acid blue113 sequestrationInt. J. of Environmental Sci. and Tech. (2024) – Cited by: 10 🧱
📗 Alginate–Moroccan Clay bio-nanocomposite for ion removalPolymers (2023) – Cited by: 8 🧫

🔍 Conclusion:

In conclusion, Dr. Rachid Aziam’s interdisciplinary expertise, proven research excellence, and impactful contributions to environmental chemistry and nanomaterials make him an ideal candidate for the Best Researcher Award 🥇. His work aligns perfectly with global sustainability goals, and his innovations have real-world applicability, positioning him as a leading figure in his domain 🌍.

Rodrigo Luciano | Chemical Engineering | Excellence in Research Award

Published on by Chemical Scientist

Mr.Rodrigo Luciano | Chemical Engineering | Excellence in Research Award

Business/Company , Engineer at Braskem in  Brazil.

🔬 Short Biography 🌿💊📚

Rodrigo Almeida Luciano 👨‍🔬 is a dynamic professional in the field of energy and chemical engineering, with a strong background in project coordination and strategic business management. Born in Brazil 🇧🇷, Rodrigo holds a Bachelor’s degree in Energy Engineering ⚡ and a Master’s in Business Administration 🎓, complemented by postgraduate studies in Strategic Business Management. He is currently pursuing his Master’s in Chemical Engineering 🧪 at the Federal University of Rio de Janeiro (UFRJ). With over 7 years of impactful experience at Braskem S.A., Rodrigo has led innovative projects in recycling, biomass, and decarbonization 🌱. His expertise spans agile project management, procurement analysis, and technological innovation with universities and startups. Earlier in his career, he also managed operations at LowCost, demonstrating strong leadership and operational control 💼. Rodrigo is known for his passion for sustainable technologies, technical tools, and data-driven project execution 🧠.

PROFILE 

GOOGLE SCHOLAR

🔍 Summary of Suitability:

Rodrigo Almeida Luciano exemplifies the qualities of a high-impact researcher committed to innovation, sustainability, and scientific excellence. With a multidisciplinary background in chemical and energy engineering, complemented by strategic business training, Rodrigo has demonstrated outstanding leadership in applied research. He is currently leading pioneering industrial projects at Braskem S.A. that integrate circular economy principles, decarbonization technologies, and biomass recycling—all highly relevant to global climate and sustainability goals 🌱. His pursuit of a Master’s in Chemical Engineering alongside his industry work reflects his dedication to bridging theory and practice 🧪.

🔹 Education & Experience 

Rodrigo Almeida Luciano’s academic journey 🎓 began with a Bachelor’s in Sciences and Technology (2017) and Energy Engineering (2020) from the Federal University of ABC. He further enhanced his managerial skills with a postgraduate diploma in Strategic Business Management 🧾 from Mackenzie University (2021), and an MBA in Project Management 📊 from the University of São Paulo (2023). He is now pursuing a Master’s in Chemical Engineering 🧪 at UFRJ, expected in 2025. Rodrigo’s professional journey is marked by over 7 years at Braskem S.A., where he has served as both a Project Engineer 🛠 and Supply Analyst 📈. His role involves leading technological projects focused on recycling and decarbonization. Previously, he spent 4 years at LowCost, where he started as an Operator and advanced to Operations Supervisor 👨‍💼, managing teams and overseeing customer service operations. His technical toolkit includes SAP, Aspen Plus, AutoCAD, VBA, and MATLAB 🧑‍💻.

🔹 Professional Development 

Rodrigo’s professional development 💼 is driven by a strong integration of engineering principles with project management and innovation. He has cultivated expertise through both academic learning and practical industry roles. At Braskem S.A., Rodrigo leads advanced projects focused on recycling, biomass, and decarbonization 🌍, collaborating with universities, startups, and corporate partners. His use of Agile methodologies enables efficient management and innovation in sustainability-driven technologies ⚙️. He has also led the national purchasing category team, automating procurement processes through VBA programming and SAP reporting 🖥️. Rodrigo’s dedication to continuous learning is evident through his pursuit of a Master’s in Chemical Engineering at UFRJ and his completion of an MBA and a postgraduate course in business strategy 📘. Tools like Aspen Plus, MATLAB, and AutoCAD add to his technical versatility 🧪📐. With a balance of leadership, analytical rigor, and environmental foresight, Rodrigo continues to develop as a cutting-edge engineer and project leader 🚀.

🏅 Awards and Recognitions

  • 🎖️ Promoted to Project Engineer at Braskem S.A. after notable performance in supply analysis and category leadership

  • 🥇 Led national procurement transformation using SAP & VBA automation tools

  • 🧪 Selected to lead cutting-edge decarbonization and recycling projects at Braskem

  • 🌍 Recognized internally for driving sustainability initiatives with external innovation partners

  • 📚 Completed prestigious MBA in Project Management at the University of São Paulo (USP)

  • 🔧 Certified expertise in Aspen Plus, AutoCAD, SAP, and VBA for engineering applications

🔬 Research Focus

Rodrigo’s research focus falls within the categories of Sustainable Chemical Engineering 🌱, Renewable Energy Systems ⚡, and Decarbonization Technologies 🌍. As a Master’s student in Chemical Engineering at UFRJ, his academic path supports his real-world role at Braskem, where he spearheads projects related to circular economy, biomass utilization, and advanced recycling methods 🔁. He works closely with startups, research institutions, and internal teams to pilot long-term environmental technologies aimed at reducing carbon footprints 🏭❌. His interest bridges theoretical modeling with practical execution, utilizing tools such as Aspen Plus, MATLAB, and AutoCAD to simulate processes and optimize resource efficiency 📊🔬. Rodrigo’s professional endeavors reflect a commitment to cleaner industrial processes and innovations in energy conversion and waste recovery 🔋♻️. His integration of business management with engineering acumen positions him at the forefront of eco-engineering solutions designed for real-world impact 🌐.

Publications & Citations 📚

📘 “A Survey on the Chemical Recycling of Polyolefins into Monomers” – L Carvalho, G Mattos, N Sitton, J Barros, D Miranda, R Luciano, JC Pinto – Published in 🔬 Processes, 13(7), 2114, 2025 – 📑 Cited by: 0 (as of now) 🧪♻️

📗 “Probing the Role of Calcium Carbonate on Hydrothermal Liquefaction of Polyethylene in the Presence of Supercritical Water” – K Jan, DL Perez, A Patil, RA Luciano, DMV de Miranda, WT Chen – Published in 🧪 Chemical Engineering Journal, 164266, 2025 – 📑 Cited by: 0 🔥♻️

📙 “Utilization of Waste Cooking Oil as Feedstock for Sustainable Research Applications in Alternate Fuel Production” – A Patil, RA Luciano – Presented at 🧬 46th Symposium on Biomaterials, Fuels, and Chemicals (SBFC), 2024 – 📑 Cited by: 0 🍳🔋

🔍 Conclusion:

Rodrigo Almeida Luciano is a strong candidate for the Excellence in Research Award due to his unique integration of academic research and industrial innovation. His work addresses critical environmental challenges, promotes sustainable development, and offers scalable technological solutions. His scientific output, technical competence, and leadership in advanced research projects make him highly deserving of this prestigious recognition 🏅

Sergey Valeryevich Dezhurov | Materials Chemistry | Best Researcher Award

Published on by Chemical Scientist

Dr.Sergey Valeryevich Dezhurov | Materials Chemistry | Best Researcher Award

Research Scientist at Prokhorov General Physics Institute of the Russian Academy of Sciences in  Russia.

🔬 Short Biography 🌿💊📚

👨‍🔬 Сергей Валерьевич Дежуров is a seasoned Russian chemist . With over 20 years of experience in the field of chemistry and nanotechnology 🧪, he has contributed significantly to scientific innovation. A graduate of Novosibirsk State University, Faculty of Natural Sciences (1996–2001), he specialized in chemistry and later pursued postgraduate studies in bioorganic chemistry 📘. His professional journey spans roles as a chemistry teacher, synthetic chemist, sales and technical manager, and senior research scientist. Currently affiliated with the Institute of General Physics (IOF RAS) and the Research Institute of Applied Acoustics (NIIPA), he focuses on luminescent materials, quantum dots, bioconjugates, and thin-film technologies 🔬. Sergey is the author of 20+ scientific publications and 4 patents, with deep involvement in international and Russian R&D projects. He is passionate about applying scientific knowledge to create real-world solutions, especially in advanced optics and sensor systems 🌍.

PROFILE 

SCOPUS 

🔍 Summary of Suitability:

Sergey V. Dezhurov stands out as an exemplary candidate for the Best Researcher Award due to his over 20 years of dedicated scientific work in chemistry, nanotechnology, and materials science. His deep expertise in quantum dots, polymer composites, bioorganic chemistry, and optical materials has yielded breakthrough innovations with real-world impact. His experience spans both academic and industrial domains, showcasing versatility, technical depth, and strong leadership in high-tech R&D environments.

🔹 Education & Experience 

🎓 Sergey Dежуров completed his undergraduate studies in chemistry at Novosibirsk State University (1996–2001) and advanced his knowledge through postgraduate studies in bioorganic chemistry and management courses 📚. His career began in education and laboratory roles before progressing into industrial research. Between 2003–2005, he worked at the Institute of Chemical Biology and Fundamental Medicine (ICBFM SB RAS) and then as a synthetic chemist at Cambridge LLC. From 2008 onwards, he held research and leadership roles in high-tech centers such as “Nanotech-Dubna” and NIIPA, focusing on quantum dots, polymeric materials, and optical sensors 🧪. He also contributed to technology commercialization and industrial process optimization. Since 2024, he has been working at the Institute of General Physics (IOF RAS) on thin-film technologies for microdisplays and solar cells 🌞. His versatile experience spans R&D, team leadership, and complex instrumentation, establishing him as an accomplished figure in chemical technology and nanomaterials 🌐.

🔹 Professional Development 

🧑‍🔧 Sergey Dежуров’s professional development reflects a commitment to innovation, multidisciplinary collaboration, and continuous learning. He has mastered a variety of specialized software tools such as ChemOffice, OriginLab, and MultiChrom for analytical and synthetic chemistry applications 💻. His hands-on expertise covers organic and colloidal synthesis, design of thixotropic gels, development of bioconjugates, and surface modification of nanoparticles. He has independently acquired knowledge in optical and analytical instrumentation software and is proficient in spoken English 🌍. Sergey has played key roles in developing fluorescent microspheres for cytometry, FRET-based sensor systems, and new-generation luminescent materials. He led process engineering and team management in pilot production setups, demonstrating both technical and leadership skills 🧑‍🏫. His involvement in national and international grant-funded projects has further refined his strategic research and development abilities, keeping him at the cutting edge of applied chemistry, nanotechnology, and material science 🌟.

🏅 Awards and Recognitions

  • 🏆 Co-author of more than 20 scientific publications in peer-reviewed journals

  • 📚 Author of 4 patents in the field of luminescent materials and quantum dots

  • 🎓 Contributor to national and international research projects and grants

  • 🧪 Developer of innovative sensor systems using quantum dot-based FRET

  • 🔬 Recognized for high-impact research in nano-optical materials and bioconjugates

  • 🗣️ Regular participant and presenter at scientific conferences in Russia and abroad

🔬 Research Focus

🧪 Sergey Dежуров’s research is deeply rooted in nanomaterials chemistry, focusing on quantum dots, luminescent compounds, and advanced polymer systems. His work encompasses organic and colloidal synthesis, photoaffinity labeling of biomolecules, and bioconjugation techniques relevant to diagnostics and life sciences 💡. A key part of his research includes thin-film technologies for applications in microdisplays and solar cells, and the development of sensor systems based on FRET principles. Sergey has also designed high-stability semiconductor colloidal quantum dots and customized surface modifications for nanoparticles, tailoring properties like charge, polarity, and dispersibility ⚗️. His innovations support cutting-edge applications in optical sensing, nanobiotechnology, and materials engineering. By bridging chemistry with device-level implementation, his work contributes to the development of real-world technologies in areas like biosensors, optoelectronics, and photonics 🌈. His ongoing efforts ensure the evolution of intelligent, functional nanomaterials that drive future-oriented scientific solutions.

Publications & Citations 📚

📄 “Effect of combustion air humidification on the operation of a biomass boiler – Theoretical analysis”Heliyon, 2025 | 📅 Published: 2025 | 🔁 Cited by: 0 | ✍️ Authors: Dlouhý, T.; Havlík, J.

📄 “Improving the energy effectivity of biomass drying for utilisation in energy systems by combining convective and contact drying”Drying Technology, 2024 | 📅 Published: 2024 | 🔁 Cited by: 0 | ✍️ Authors: Havlík, J.; Dlouhý, T.

🔍 Conclusion:

With a unique blend of scientific creativity, technological innovation, and sustained impact, Sergey V. Dezhurov exemplifies the core values of the Best Researcher Award. His pioneering work in functional nanomaterials and sensor systems has contributed meaningfully to modern chemistry, nanotech-based diagnostics, and advanced materials engineering. His candidacy reflects excellence, leadership, and a forward-looking vision in scientific research .

Tomas Dlouhy | air humidification | Excellence in Innovation Award

Published on by Chemical Scientist

Prof. Tomas Dlouhy | air humidification | Excellence in Innovation Award

professor at CTU Prague in  Czech Republic.

🔬 Short Biography 🌿💊📚

Prof. Tomáš Dlouhý 👨‍🏫 is a renowned Czech academic serving at the Czech Technical University in Prague 🇨🇿, Faculty of Mechanical Engineering. With a strong foundation in engineering, he earned his Dipl.Ing. in 1984 🎓 and went on to complete his Ph.D. in combustion in 1993 🔥. His international academic journey includes a postgraduate diploma from Glasgow Caledonian University in 1998 🌍. Climbing the academic ladder, he became an Associate Professor in 2005 and achieved full Professorship in 2021 🏅. Prof. Dlouhý has made significant strides in industrial combustion, biomass energy, and CCS technologies ♻️. He has led or participated in 9 major research projects, contributed to 25 Scopus-indexed publications 📚, authored books, and co-holds 3 patents 🔬. He’s collaborated with institutions like TU Stuttgart and NTU Trondheim 🤝. A visionary in sustainable energy systems, Prof. Dlouhý’s work bridges academia and industry through 36 consultancy projects 💡.

PROFILE 

GOOGLE SCHOLAR 

SCOPUS 

🔍 Summary of Suitability:

Prof. Tomáš Dlouhý exemplifies the spirit of innovation through his pioneering work in industrial fuel combustion, renewable energy integration, and carbon capture technologies. With a career spanning over four decades at the Czech Technical University in Prague, he has consistently pushed the boundaries of engineering science, developing practical solutions for cleaner and more efficient energy systems. His ability to translate academic research into industrial applications positions him as a highly deserving candidate for the Excellence in Innovation Award.

🔹 Education & Experience 

Prof. Tomáš Dlouhý’s academic career spans decades of dedicated learning and innovation 🎓. He graduated with a Dipl.Ing. degree from CTU Prague in 1984 📐, specializing in mechanical engineering. Driven by a deep interest in combustion, he earned his Ph.D. in 1993 at CTU Prague 🔥. His academic curiosity led him to the UK, where he completed a postgraduate diploma at Glasgow Caledonian University in 1998 🌍. His teaching and research career advanced steadily—he was appointed Associate Professor in 2005 and Full Professor by 2021 🏅. Over the years, he has taken on complex industrial and environmental challenges, mentoring students and contributing actively to Czech and international research scenes. With a mix of theoretical and applied expertise, Prof. Dlouhý has completed 9 research projects, 36 industry collaborations, and contributed to over two dozen high-impact journal publications 📊. His extensive knowledge and hands-on experience make him a distinguished figure in combustion engineering and energy systems ⚙️.

🔹 Professional Development 

Prof. Dlouhý’s professional journey is a testament to continual development and impactful research 🔬. Over four decades, he has transformed from a passionate student into a leading voice in industrial fuel combustion and sustainable energy solutions ♻️. His collaboration with international institutions such as TU Stuttgart 🇩🇪 and NTU Trondheim 🇳🇴 highlights his commitment to cross-border research excellence. He has authored and co-authored several peer-reviewed studies and books 📘, making his mark in the academic publishing world. With three patents under his belt and 36 consultancy projects, he has bridged the gap between academia and real-world industrial needs 🏭. Prof. Dlouhý’s work on innovative drying techniques, CCS feasibility, and boiler condensation methods is helping shape the future of energy technology ⚡. He actively engages in teaching and mentoring, nurturing the next generation of engineers and scientists 👨‍🔬. His ability to integrate theory with practice defines his professional growth and ongoing contributions 🚀.

🏅 Awards and Recognitions

  • 🏅 Full Professorship at Czech Technical University in Prague (2021)

  • 🎓 Ph.D. in Combustion from CTU Prague (1993)

  • 🌍 Postgraduate Diploma, Glasgow Caledonian University (1998)

  • 📚 Published 25+ peer-reviewed journal articles (Scopus-indexed)

  • 📕 Author of 2 books (including a chapter contribution)

  • 🧪 Holder of 3 patents related to energy and combustion

  • 🔬 Completed 9 major academic research projects

  • 🏭 Led 36 industrial consultancy and innovation projects

  • 🤝 Collaborated with international research institutions TU Stuttgart & NTU Trondheim

  • 🏆 Nominee for Best Innovation Award – International Chemical Scientist Awards

🔬 Research Focus

Prof. Tomáš Dlouhý’s research is deeply rooted in sustainable energy engineering, focusing on industrial fuel combustion 🔥, biomass utilization 🌿, and renewable energy integration ☀️. His work addresses critical global concerns such as optimizing combustion systems, improving energy efficiency, and reducing environmental impact. He specializes in advanced drying techniques for biomass fuels, condensing technologies for boilers 💧, and carbon capture and storage (CCS) for coal power plants 🌫️. With a strong emphasis on thermodynamic efficiency and cleaner energy alternatives, his contributions help reduce carbon emissions and promote renewable sources 💡. His collaborative research with European institutions aims to develop scalable, energy-efficient methodologies for future power systems 🌍. His recent publications explore biomass drying innovations and combustion air humidification effects, showcasing his focus on theoretical and practical advancements 🔬. Prof. Dlouhý’s research is crucial for transitioning toward cleaner energy technologies and optimizing industrial fuel applications across sectors ♻️.

Publications & Citations 📚

📄 “Effect of combustion air humidification on the operation of a biomass boiler – Theoretical analysis”Heliyon, 2025 | 📅 Published: 2025 | 🔁 Cited by: 0 | ✍️ Authors: Dlouhý, T.; Havlík, J.

📄 “Improving the energy effectivity of biomass drying for utilisation in energy systems by combining convective and contact drying”Drying Technology, 2024 | 📅 Published: 2024 | 🔁 Cited by: 0 | ✍️ Authors: Havlík, J.; Dlouhý, T.

🔍 Conclusion:

Prof. Dlouhý’s work is not only academically rigorous but also practically transformative. His innovations in sustainable energy engineering directly contribute to reducing carbon footprints and optimizing industrial systems globally. His passion for solving real-world energy problems through novel technologies and collaborative research makes him an ideal recipient of the Excellence in Innovation Award.