Mrs. Katsiaryna Khainskaya | Polymer Chemistry | Best Researcher Award

Published on by Chemistry Awards

Mrs. Katsiaryna Khainskaya | Polymer Chemistry | Best Researcher Award

Mrs. Katsiaryna Khainskaya , Polymer Chemistry , Junior researcher at Institute of Chemistry of New Materials of the National Academy of Sciences of Belarus, Belarus

Katsiaryna Khainskaya šŸ‡§šŸ‡¾ is a dynamic Junior Researcher at the Institute of Chemistry of New Materials, National Academy of Sciences of Belarus. With a strong foundation in chemistry and nanotechnology, she specializes in synthesizing polysaccharide derivatives with phenolic acids for advanced biomedical applications. Fluent in Russian and Belarusian, and proficient in English, she brings interdisciplinary expertise to the development of functional materials for drug delivery. She is skilled in atomic force microscopy, dynamic light scattering, spectrophotometry, and colloidal chemistry. Her active participation in international conferences and collaborative research projects highlights her global scientific engagement. A member of the Council of Young Scientists, she contributes to innovations in biopolymer-based materials and encapsulation techniques. Her recent work includes the development of multifunctional wound-healing agents and nanocomposites with synergistic antibacterial effects. Passionate, analytical, and dedicated, Katsiaryna is emerging as a promising scientist in the fields of nanobiomaterials and nanochemistry.

Professional Profile :Ā  Ā  Ā  Ā  Ā 

OrcidĀ 

Summary of Suitability for Award:

Katsiaryna Khainskaya, a promising junior researcher at the Institute of Chemistry of New Materials of the National Academy of Sciences of Belarus, has demonstrated a deep commitment to advancing nanobiomaterials and polysaccharide-based functional systems. Her research combines interdisciplinary expertise in nanotechnology, colloidal chemistry, radiation chemistry, and biomedicine. She has contributed to several innovative projects involving chitosan derivatives, silver nanoparticles, and mucoadhesive systems for drug delivery and wound healing. . She has actively participated in international conferences, received a research diploma, and is involved in multiple ongoing projects aimed at developing smart, sustainable biomedical materials. Her technical skills span AFM, DLS, lyophilization, and spectroscopy, evidencing strong laboratory proficiency. Katsiaryna Khainskaya is a highly suitable candidate for the “Best Researcher Awards”. Despite being early in her career, her research demonstrates innovation, interdisciplinarity, and societal relevance. Her contributions to nanobiomaterials and biomedical polymers are not only academically sound but hold translational potential for healthcare applications. She exemplifies the qualities of a rising scientific leader and merits recognition for her impactful and forward-thinking research.

šŸŽ“Education:

Katsiaryna earned her degree in Chemistry from Belarusian State University (2018ā€“2023), with a specialization in radiation chemistry and environmental sciences. Ā Her academic training covered a comprehensive range of subjects including inorganic, organic, analytical, and physical chemistry, alongside advanced topics such as nanochemistry, dosimetry, colloidal chemistry, and radiation safety. Her thesis focused on the ā€œPreparation and properties of complexes based on alginate-Ag nanocomposites with enrofloxacin,ā€ combining nanotechnology and pharmacology. She also undertook specialized professional development, including a certificate program on radioactive waste processing (Rosatom Technical Academy, 2021) and a 2024 seminar on mucoadhesive chitosan nanoparticles at the Institute of High Molecular Compounds, St. Petersburg. Ā Her interdisciplinary education has equipped her with the necessary theoretical and technical skills to contribute to the development of innovative drug delivery systems and advanced materials for biomedical and environmental applications.

šŸ¢Work Experience:

Katsiaryna Khainskaya began her research career as a Trainee Junior Researcher at the Institute of Chemistry of New Materials of the NAS of Belarus in April 2023, quickly progressing to Junior Researcher by August 2023.Her core responsibilities include the synthesis of polysaccharide derivatives and their functional characterization using techniques such as AFM, optical microscopy, and electrophoretic mobility. She has hands-on experience in developing colloidal systems with silver nanoparticles for drug delivery and encapsulation of biologically active substances. As a member of the Council of Young Scientists, she also engages in research planning and youth science promotion. Her projects span antibiotic nanocomposites for aquaculture, antioxidant-rich biopolymer carriers, and mucoadhesive biomedical coatings. She has presented her work at international conferences in Spain, Russia, and across Belarus and Tajikistan. Her dedication and rapid growth reflect a strong commitment to scientific excellence and interdisciplinary collaboration.

šŸ…Awards:Ā 

Katsiaryna has received multiple recognitions for her scientific contributions Ā In January 2025, she secured 3rd place in the “Young Scientist of the IChNM of NAS of Belarus” competition. She earned a professional development certificate from Rosatom Technical Academy in radioactive waste treatment (2021) Ā and has participated in several prestigious conferences and training events. Notable among them are her presentation at the 13th International Colloids Conference in Spain (2024)Ā  and her active participation in youth science forums, such as ā€œYouth in Scienceā€ (2023, 2024) and the School of Chemists of the CIS in Dushanbe (2023).She also took part in Belarus State Technological Universityā€™s 89th faculty conference (2025), showcasing smart multilayer biomedical coatings. Each recognition reflects her active engagement with contemporary chemical research and her growing reputation in the field of functional nanobiomaterials and nanotechnology.

šŸ”¬Research Focus:

Katsiarynaā€™s research is centered on the synthesis and application of polysaccharide-based nanomaterials, particularly chitosan and alginate derivatives.Ā Her work focuses on combining these biopolymers with phenolic acids and silver nanoparticles to create functional materials with enhanced antioxidant, antimicrobial, and drug delivery capabilities. She has developed systems for encapsulating biologically active compounds to improve their stability and targeted delivery, contributing to innovative wound healing and antibacterial treatments. Ā Her current projects include multilayer mucoadhesive patches for oral diseases, encapsulated chlorophyll systems, and antimicrobial nanocomposites for aquaculture. Sheā€™s also involved in industrial collaborations, such as the development of holographic foil materials. Ā Her interdisciplinary approach integrates chemistry, nanotechnology, and biology, aiming to create next-generation biofunctional materials for environmental, medical, and pharmaceutical applications. Her contributions are paving the way for biopolymer innovations in healthcare and sustainable material science.

Publication Top Notes:

1. Chitosan-Gallic Acid Conjugate with Enhanced Functional Properties and Synergistic Wound Healing Effectā€‹

2. Study of the Interaction Between Biogenic Alginate-Ag Nanoparticles and Enrofloxacin: Combinatory Antibacterial Effect and Nanocomposite Formation

 

Prof. Qinghui Zeng | Materials Chemistry | Medical Chemistry Award

Published on by Chemistry Awards

Prof. Qinghui Zeng | Materials Chemistry | Medical Chemistry Award

Prof. Qinghui Zeng | Materials Chemistry | professor at Changchun University of Chinese Medicine ,China

Prof. Qinghui Zeng is a distinguished researcher in fluorescent nanomaterials, biomarkers, and medical immunodetection. He has pioneered advancements in fluorescence resonance energy transfer (FRET), quantum dots, and gold nanorods for biomedical applications. His groundbreaking work includes using fluorescent carbon dots for targeted drug delivery and fluorescence tracing, as well as developing spinal endoscopes and other medical instruments. With over 75 SCI-indexed publications and 23 national and international patents, he has made significant contributions to nanomedicine and optoelectronic devices. His work has been recognized with multiple awards, including the Jilin Provincial Natural Science Academic Achievement Award.

Professional Profile :Ā  Ā  Ā  Ā  Ā 

Orcid

ScopusĀ 

Summary of Suitability for Award:

Prof. Qinghui Zeng is highly suitable for the “Medical Chemistry Award” due to his groundbreaking contributions to nanomaterials, optoelectronic biosensors, and biomedical applications. His research in fluorescent nanomaterials, fluorescence resonance energy transfer (FRET), and targeted drug delivery has had a profound impact on medical diagnostics and therapeutics. His pioneering work on quantum dots, gold nanorods, and carbon dots has led to significant advancements in biosensing, molecular imaging, and cancer treatment. Additionally, his expertise in nanotechnology-driven drug delivery systems has enabled real-time fluorescence tracking of therapeutic agents, improving precision medicine. Prof. Qinghui Zengā€™s extensive contributions to medical chemistry and nanomedicine make him an outstanding candidate for the “Medical Chemistry Award”. His work has pushed the boundaries of biomedical research, leading to practical applications in diagnostics, targeted therapy, and medical instrumentation. His innovations in fluorescent nanomaterials, optoelectronic biosensors, and drug delivery systems have significantly enhanced the precision and efficiency of medical treatments. Given his exceptional academic and professional achievements, Prof. Zeng is highly deserving of this recognition.

šŸŽ“Education:

Prof. Qinghui Zeng holds a strong academic background in chemistry and materials science, specializing in biomedical nanotechnology. He earned his undergraduate and masterā€™s degrees in chemistry, followed by a Ph.D. in materials for biomedical applications. His academic journey has been marked by innovative research on nanomaterials, bioimaging, and targeted drug delivery. His doctoral research focused on fluorescence enhancement using metal plasma fields, laying the foundation for his groundbreaking work in FRET-based biosensing and nanomedicine. He has furthered his expertise through postdoctoral research in nanobiotechnology, collaborating with leading institutions in China.

šŸ¢Work Experience:

Prof. Zeng has an extensive academic and research career at Changchun University of Chinese Medicine and the Northeast Asia Institute of Chinese Medicine. With over 15 years of experience, he has led multiple national and provincial research projects, including two from the National Natural Science Foundation of China. His expertise spans fluorescent nanomaterials, optoelectronic devices, and medical immunodetection. As a principal investigator, he has supervised numerous Ph.D. and masterā€™s students, contributing significantly to biomedical research. He is also involved in industry collaborations, bringing innovative nanotechnology-based solutions to healthcare.

šŸ…Awards:Ā 

Prof. Qinghui Zeng has been widely recognized for his outstanding contributions to nanomaterials, optoelectronics, and biomedical research. He has received the Second Prize of Jilin Provincial Natural Science Academic Achievement Award, acknowledging his pioneering work in fluorescent nanomaterials and medical immunodetection. Additionally, he was honored with the Eighth Changbai Youth Science and Technology Prize for his innovative research in fluorescence resonance energy transfer (FRET) and quantum dot-based biosensors. Over the years, he has won a total of four prestigious scientific research awards, recognizing his excellence in biomedical applications of nanotechnology. His leadership in research has led to his role as the principal investigator for multiple national and provincial-level projects, including two funded by the National Natural Science Foundation of China. His groundbreaking work in targeted drug delivery and advanced medical instrumentation has significantly advanced the field of nanomedicine and bioimaging.

šŸ”¬Research Focus:

Prof. Zengā€™s research primarily focuses on fluorescent nanomaterials, optoelectronic devices, and biomedical applications. His work on fluorescence resonance energy transfer (FRET) has enhanced the efficiency of biosensing and molecular imaging, leading to significant advancements in medical diagnostics. He has extensively worked with quantum dots and gold nanorods, developing multi-marker immunoassays for rapid and sensitive disease detection. His pioneering studies on fluorescent carbon dots have led to groundbreaking applications in targeted drug delivery and fluorescence-based cancer therapy, enabling real-time tracking of drug release within cancer cells. Furthermore, he has contributed to the development of spinal endoscopes and other advanced medical instruments, integrating nanotechnology with minimally invasive medical procedures. His innovative approach to optoelectronic biosensors and nanomaterial-based drug carriers has positioned him as a leading researcher in biomedical nanotechnology, bridging the gap between materials science and clinical medicine.

Publication Top Notes:

Title: A general synthesis method for small-size and water-soluble NaYF4:Yb, Ln upconversion nanoparticles at high temperature

Title: Highly Stable Core/Shell AgIn5S8/ZnS Quantum Dots for Pure White Light-Emitting Diodes

Citations: 2

Title: Ultra-small-size, highly efficient and stable CsPbBr3 quantum dots synthesized by using a cesium-dodecyl benzene sulfonic acid solution

Citations: 13

Title: Spectrally Stable Blue Light-Emitting Diodes Based on All-Inorganic Halide Perovskite Films

Citations: 6

Title: Flexible Quantum-Dot Color-Conversion Layer Based on Microfluidics for Full-Color Micro-LEDs

Citations: 13

Title: Synthesis of carbon dots with strong luminescence in both dispersed and aggregated states by tailoring sulfur doping

Citations: 42

Title: Research on the influence of polar solvents on CsPbBr3 perovskite QDs

Citations: 42

Dr. Mohammad Reza Samadi | Polymer Chemistry Award | Best Researcher Award

Published on by Chemistry Awards

Dr. Mohammad Reza Samadi | Polymer Chemistry Award | Best Researcher Award

Dr. Mohammad Reza Samadi, National University of Skill , Iran

Mohammad Reza Samadi, born in Borujerd, Iran, is an accomplished mechanical engineer specializing in manufacturing, production, and non-destructive testing (NDT). With a Ph.D. in Mechanical Engineering from Malek Ashtar University of Technology, Tehran, he has garnered international recognition for his contributions to welding and materials engineering. His extensive expertise spans welding inspection, business model creation, and technological innovation, further solidified by his certifications from prestigious institutions. Samadiā€™s diverse skill set includes proficiency in software like AutoCAD, Ansys, and Abaqus, complemented by practical knowledge of industrial machinery. A prolific author and researcher, he has published several books and articles, contributing significantly to his field. He currently serves as a faculty member at Iranā€™s Technical and Vocational University and has earned numerous awards for his research excellence and innovations in engineering and materials science.

Professional Profile:

Google ScholarĀ Ā 

Summary of Suitability for Award:

Mohammad Reza Samadi’s extensive research background and achievements, he appears to be a highly suitable candidate for the “Best Researcher Award.” Dr. Samadi, with a Ph.D. in Mechanical Engineering from Malek Ashtar University of Technology, specializes in manufacturing, production, and welding technologies. His expertise spans various critical areas such as friction stir welding (FSW) of aluminum alloys, casting technologies, and advanced industrial inspection techniques. His broad skill set in non-destructive testing (NDT), quality control, and his proficiency with various industry-standard certifications further highlight his technical depth and commitment to research excellence.

šŸŽ“Education:

Dr. Mohammad Reza Samadi holds a Ph.D. in Mechanical Engineering with a focus on Manufacturing and Production from Malek Ashtar University of Technology, Tehran. In addition to his formal education, he has earned various national and international certifications. These include ASNT Level I-II certificates in non-destructive testing (PT, RT, UT), and certifications in welding inspection, biotechnology, and industrial standards. His comprehensive education also includes specialized courses in piping theory, casting technologies, business model development, and industrial inspection skills. Samadi has enhanced his knowledge through a diverse array of professional courses from institutions across Iran, including Malek Ashtar University, Arak Method Research Institute, and Iran’s Technical and Vocational University, building a strong academic foundation for his mechanical engineering and inspection expertise.

šŸ¢Work Experience:

With a robust career in mechanical engineering and technical inspection, Dr. Mohammad Reza Samadi has extensive experience in non-destructive testing, welding inspection, and advanced manufacturing technologies. He has served as a faculty member at the Technical and Vocational University of Iran, where he also judges research projects. In addition, Samadi has participated in evaluating and refereeing projects for industry and academic institutions, including events like Iran’s National Conference on Modern Business. He has authored several books on welding and materials science, as well as research papers in reputable journals. His technical expertise includes familiarity with a range of software for mechanical design and simulation, such as AutoCAD, Abaqus, and Ansys, underscoring his contributions to both academia and industry.

šŸ…Awards:

Dr. Mohammad Reza Samadi has received numerous awards for his research, including a silver medal from the Silicon Valley International Festival of Inventions and New Technologies . He has also been recognized as the best provincial researcher by the Lorestan Province universities and received top honors from the Technical and Vocational University over several years. His research in welding and materials science has garnered him special awards, such as the Khayyam Festival’s Special Award, and he has consistently been awarded in the Technical and Vocational Universityā€™s annual research festivals. Samadi’s contributions to engineering and technical education have earned him numerous commendations, solidifying his status as a leader in his field.

šŸ”¬Research Focus:

Dr. Mohammad Reza Samadiā€™s research primarily focuses on enhancing mechanical properties through welding and nanotechnology applications in materials science. His expertise includes friction stir welding, laser welding, and non-destructive testing methods aimed at improving strength, hardness, and durability of composite materials, particularly in the automotive and aerospace sectors. Additionally, he explores the use of advanced casting techniques, industrial valve technology, and welding inspection standards. Samadiā€™s research contributes to innovations in sustainable engineering and industrial quality control, where he seeks to optimize material performance through experimental and computational methods. His interdisciplinary work combines practical manufacturing skills with extensive academic research, advancing materials engineering in Iran and globally.

Publication Top Notes:

  1. Optimizing the mechanical properties of TiO2/PA12 nanoā€composites fabricated by SLS 3D printing
    • Citations: 20
  2. Enhancing the tensile properties of PA6/CNT nanocomposite in selective laser sintering process
    • Citations: 10
  3. Optimizing the mechanical properties of weld joint in laser welding of GTD-111 superalloy and AISI 4340 steel
    • Citations: 9
  4. An investigation on the friction stir welding of PP/TiO2 nanocomposites for improving the tensile strength and hardness of the weld joint
    • Citations: 6
  5. Studying the effects of FDM process parameters on the mechanical properties of parts produced from PLA using response surface methodology
    • Citations: 4