Ms. Yue qi – Material Science – Best Researcher Award

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Ms. Yue qi - Material Science - Best Researcher Award

HTW Dresden: Hochschule fĂĽr Technik und Wirtschaft - Germany

Author Profile 

SCOPUS 

Early academic pursuits 🎓

Yue qi embarked on her academic journey with a strong passion for polymer science and materials engineering. her foundational studies in polymer modification laid the groundwork for her future research endeavors. with a keen interest in utilizing ionizing radiation techniques, she pursued advanced studies in polymer surface modification, crystallization behaviors, and structural alterations. her rigorous academic training equipped her with a deep understanding of polymer chemistry, paving the way for innovative research contributions in this domain.

Professional endeavors 🏢

Currently, yue qi is a research associate at technische universität dresden (tud) and hochschule für technik und wirtschaft dresden (htwd). her research focuses on the strategic modification of polymers using gamma-ray and electron beam (eb) irradiation. her work primarily revolves around surface modification, crystallization effects, and antibacterial enhancements of polymer chains. her extensive research into pre-eb-induced grafting reactions has led to notable advancements in polymer functionalization. her professional journey is marked by collaborations with esteemed researchers and contributions to internationally funded projects, including the national key research and development program of china and the m-era.net-funded project on thermoplastic elastomers.

Contributions and research focus 🔍

Yue qi’s research is centered on the application of ionizing radiation in polymer modification to enhance their industrial applications. her expertise in gamma-ray and electron beam irradiation has enabled her to alter polymer chain structures effectively, leading to improved surface properties, crystallization behaviors, and antibacterial functionalities. her publication, “graft Material Science copolymerization of hema on lldpe films activated by low-energy electrons,” has provided valuable insights into pre-irradiation grafting techniques. her work continues to contribute significantly to the development of high-performance, functionalized polymeric materials, opening new possibilities for sustainable and innovative industrial applications.

Accolades and recognition 🏅

Yue qi’s contributions to polymer science have been recognized through her involvement in pioneering research projects and patents. her innovative work led to the development of a pla  Material Science material with antibacterial properties, which was patented under china patent no. 201910833915.3. this patent highlights her role in advancing functional polymer materials for healthcare and industrial applications. her research findings have been published in esteemed scientific journals, further solidifying her reputation as a leading researcher in the field of polymer surface modification and irradiation techniques.

Impact and influence 🌍

Yue qi’s research has had a profound impact on the field of polymer science, particularly in the enhancement of polymer surfaces for diverse applications. her work on electron beam-induced grafting has opened new pathways for developing antibacterial and high-performance polymeric materials. her research not only advances scientific knowledge but also provides industrial Material Science solutions for improving polymer-based products. her collaborations with global researchers and institutions continue to push the boundaries of innovation in polymer modification techniques.

Legacy and future contributions đź”®

Yue qi’s legacy in polymer science is marked by her groundbreaking research in polymer modification and ionizing radiation techniques. her work has paved the way for future advancements in functionalized polymer materials with enhanced properties. she remains committed to exploring new methodologies that further improve polymer structures for sustainable and high-performance applications. as she continues her research endeavors, she aims to bridge the gap between scientific discoveries and practical industrial applications, leaving a lasting impact on the field of polymer engineering and material sciences.

Notable Publications 

Title: Radiation Syntheses of Modified Poly (Lactic Acid) Fabrics with Hydrophilic and Antibacterial Properties
Authors: Y. Qi, Z. Zhang, H. Ma, Y. Sha, X. Zhang
Journal: Progress in Organic Coatings, 2023

Dr. Faisal mukhtar – Materials Science and Physics – Best Researcher Award

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Dr. Faisal mukhtar - Materials Science and Physics - Best Researcher Award

School of Chemical Sciences, Universiti Science Malaysia - Malaysia 

Author Profile 

GOOGLE SCHOLAR

đź“š Early academic pursuits

Faisal mukhtar was born in a small village in district bahawalpur, pakistan, where he completed his early schooling. he later pursued his bachelor's degree from the islamia university of bahawalpur (iub), followed by an msc in physics from bahauddin zakariya university, multan. his academic journey continued with an mphil from the centre of excellence in solid state physics at the university of punjab, lahore. finally, he earned his phd in semiconductors and nanotechnology from the institute of physics, iub. his strong educational foundation laid the groundwork for a remarkable career in materials science and engineering.

🔬 Professional endeavors

with over five years of research experience in materials science, electrochemistry, and advanced energy storage, faisal mukhtar has worked extensively at the institute of physics, iub. he has also gained significant expertise in operating various material characterization tools, including xrd, ftir, raman, pl, uv-vis, iv, sem/tem, xps, and electrochemical workstations. currently, he is part of the school of chemical sciences at universiti sains malaysia, penang, contributing to cutting-edge research and education in nanotechnology and materials science.

🧪 Contributions and research focus

Dr. Faisal mukhtar's research focuses on the synthesis and development of metal oxide nanoparticles, nanocomposite systems, and carbon-based materials like Materials Science and Physics graphene oxide, reduced graphene oxide, and fullerene. these materials have a wide range of applications, including optical, electrical, environmental, biomedical, and energy conversion devices. his hands-on experience in various nanomaterial synthesis techniques such as sol-gel, hydrothermal, and solid-state methods has been crucial in advancing his research, particularly in the development of semiconductors and energy storage systems.

🏆 Accolades and recognition

Faisal mukhtar has authored 60 high-impact articles with a combined impact factor of 350, which have garnered over 1900 citations, reflecting his influence in the Materials Science and Physics field. his h-index of 28 and i10-index of 45 are testaments to his research contributions. additionally, he has been involved in guiding four phd and 35 mphil students, demonstrating his dedication to nurturing the next generation of scientists. he is currently supervising two phd and six mphil students, continuing to expand his impact on academic and research communities.

🌍 Impact and influence

Through his extensive research in materials science, faisal mukhtar has contributed significantly to the understanding and development of nanomaterials for a range of applications. his work on energy storage, biocompatible materials, and advanced energy conversion systems has not only advanced the scientific community but Materials Science and Physics also holds potential for addressing global challenges such as renewable energy and environmental sustainability. his collaborations and publications have enhanced the visibility of pakistani researchers on the global stage.

🏅 Legacy and future contributions

As a seasoned researcher and mentor, faisal mukhtar's legacy is rooted in his significant contributions to nanotechnology and material science. his work in energy storage systems and nanocomposites will continue to influence future developments in these fields. by training and guiding numerous phd and mphil students, he is ensuring the continuation of innovative research in materials science. his dedication to both research and education ensures his lasting impact on the scientific community.

Notable Publications 

  1. Title: Dual S-scheme heterojunction ZnO–V2O5–WO3 nanocomposite with enhanced photocatalytic and antimicrobial activity
    Authors: F Mukhtar, T Munawar, MS Nadeem, MN ur Rehman, M Riaz, F Iqbal
    Journal: Materials Chemistry and Physics, Vol. 263, 124372 (2021)
  2. Title: Zn0.9Ce0.05M0.05O (M= Er, Y, V) nanocrystals: structural and energy bandgap engineering of ZnO for enhancing photocatalytic and antibacterial activity
    Authors: T Munawar, S Yasmeen, F Mukhtar, MS Nadeem, K Mahmood, MS Saif, et al.
    Journal: Ceramics International, Vol. 46 (10), 14369-14383 (2020)
  3. Title: Enhancement in the photocatalytic and antimicrobial properties of ZnO nanoparticles by structural variations and energy bandgap tuning through Fe and Co co-doping
    Authors: MS Nadeem, T Munawar, F Mukhtar, MN Ur Rahman, M Riaz, F Iqbal
    Journal: Ceramics International, Vol. 47 (8), 11109-11121 (2021)
  4. Title: Hydrothermally derived Co, Ni co-doped ZnO nanorods; structural, optical, and morphological study
    Authors: MS Nadeem, T Munawar, F Mukhtar, MN ur Rahman, M Riaz, A Hussain, et al.
    Journal: Optical Materials, Vol. 111, 110606 (2021)
  5. Title: Fabrication of dual Z-scheme TiO2-WO3-CeO2 heterostructured nanocomposite with enhanced photocatalysis, antibacterial, and electrochemical performance
    Authors: T Munawar, F Mukhtar, MS Nadeem, S Manzoor, MN Ashiq, K Mahmood, et al.
    Journal: Journal of Alloys and Compounds, Vol. 898, 162779