Ms. Sheza Muqaddas - Electrochemical Sensor - Young Scientist Award

Shanghai Jiao Tong University - China

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS 🎓

Sheza Muqaddas began her academic journey with a Bachelor's degree in Physical Chemistry from Bahauddin Zakariya University, Multan, Pakistan, in 2019. With a keen interest in applied chemistry, Sheza pursued an MPhil in Chemistry from the University of Lahore, where she specialized in Physical Chemistry. Her dissertation, titled "Copper Oxide Modified Carbon Nanotube Fibers for Electrochemical Detection of Glucose," laid the foundation for her future research endeavors in nanomaterials and electrochemical sensing.

PROFESSIONAL ENDEAVORS 💼

Sheza is currently working as a Research Assistant at the University of Management and Technology, Lahore, Pakistan. Her career in research has also seen her contribute significantly to the academic community during her previous role as a Research Assistant at the University of Lahore from 2022 to 2023. In this position, she was involved in the development of carbon nanotube fiber-based sensors for glucose detection, collaborating on publications and conference presentations, further solidifying her role in advancing scientific research in chemistry.

CONTRIBUTIONS AND RESEARCH FOCUS 🔬

Sheza's research focuses on the development and enhancement of electrochemical sensing technologies, particularly those that leverage nanomaterials like copper oxide-modified carbon Electrochemical Sensor nanotube fibers. Her work aims to advance the field of sensor technology, specifically for the detection of glucose, which has vast applications in health and environmental monitoring. Sheza's contributions in the field of physical chemistry and nanotechnology are promising, with the potential to drive innovation in electrochemical detection methods.

SUPPLEMENTARY TRAINING AND EXPERTISE 📚

Sheza's academic and professional growth is further supported by specialized training. In 2022, she completed a six-month training program in Electrochemical Sensing at Quaid-e-Azam Electrochemical Sensor University, Islamabad. This training has bolstered her expertise in the area of electrochemical sensors, equipping her with the technical skills required for her current research projects and making her a valuable asset in the field of applied chemistry.

IMPACT AND INFLUENCE 🌟

Although at an early stage in her career, Sheza Muqaddas's work in the field of electrochemical sensing and nanomaterials is already poised to have a significant impact. Her research, Electrochemical Sensor particularly in glucose detection, contributes to the growing body of knowledge in health sciences, offering potential applications in medical diagnostics and monitoring. Sheza’s work not only influences academic discussions but also has the capacity to extend into real-world solutions that can improve healthcare and environmental quality.

LEGACY AND FUTURE CONTRIBUTIONS 🔮

Looking ahead, Sheza's career in chemistry holds the promise of further groundbreaking research in nanotechnology and electrochemical sensing. Her continued exploration of carbon nanotube-based sensors and other nanomaterials positions her to make lasting contributions to both fundamental chemistry and applied science. Sheza's commitment to advancing sensor technologies, particularly for medical and environmental applications, will undoubtedly influence future developments in these fields, leaving a positive legacy for future generations of researchers.

NOTABLE PUBLICATIONS

Title: A flexible carbon nanotubes-based microelectrode for non-enzymatic electrochemical uric acid and ascorbic acid sensing
Authors: Nazir, A., Muqaddas, S., Ali, A., Mahmoud, H.M.A., Ahmed, A.M.E.
Journal: Materials Science and Engineering: B, 2024, 307, 117480
Title: An Ultralight Composite Current Collector Enabling High-Energy-Density and High-Rate Anode-Free Lithium Metal Battery
Authors: Ouyang, Z., Wang, S., Wang, Y., Li, J., Sun, H.
Journal: Advanced Materials, 2024, 36(33), 2407648
Title: Novel structured carbon nanotubes fiber-based microelectrodes for efficient electrochemical water splitting and glucose sensing
Authors: Ali, A., Muqaddas, S., Aldosari, H., Ahmad, A., Ahmad, M.
Journal: Carbon, 2024, 218, 118709
Title: Cobalt Ferrite Surface-Modified Carbon Nanotube Fibers as an Efficient and Flexible Electrode for Overall Electrochemical Water Splitting Reactions
Authors: Fatima, A., Aldosari, H., Al-Buriahi, M.S., Muqaddas, S., Ali, A.
Journal: ACS Omega, 2023, 8(41), pp. 37927–37935
Title: Electrodeposited NiCoO2@CNTs fiber as efficient counter electrode in wire-shaped dye-sensitized solar cells
Authors: Aldosari, H., Ali, A., Muqaddas, S., Shoukat, R., Awad, M.A.
Journal: Journal of Materials Science: Materials in Electronics, 2023, 34(28), 1916

Early academic pursuits 📚

Jinitha c g began her academic journey with a bachelor of science from stella maris college, chennai, where she developed a solid foundation in physics. her undergraduate years were marked by active participation in the national service scheme and the rotaract club, alongside academic excellence. she continued her studies with a master of science in physics at karunya institute of technology and sciences, coimbatore, where she distinguished herself with a high cgpa and multiple certifications of merit for her academic achievements.

Professional endeavors 🏢

currently, jinitha is pursuing her phd at holy cross college (autonomous), nagercoil, focusing on nanomaterials synthesis and characterization. her professional path includes a significant role as a project lead during her master's studies, where she worked on laser-enhanced reduced graphene oxide for supercapacitors. as a research scholar, she is leading cutting-edge research on biomass-derived activated carbon/metal oxide nanomaterials, contributing to advancements in electrochemical performance.

Contributions and research focus 🔬

jinitha's research is centered on the synthesis and characterization of nanomaterials, particularly focusing on applications in electrochemical performance. her work includes the development of novel nano-coatings for fabrics and glass, aimed at enhancing their water, oil, and dust Electrochemical Applications repellency. her current research on biomass-derived activated carbon and metal oxide nanomaterials aims to improve electrochemical performance, showcasing her commitment to advancing material science through innovative methods.

Accolades and recognition 🏅

her dedication to research has been recognized with the best paper presentation award at the national conference on advances in materials science. additionally, she has filed a patent for her innovative nano-coating technology, which underscores her contributions to the field. these Electrochemical Applications achievements highlight her growing influence and her commitment to advancing scientific knowledge and technology.

Impact and influence 🌍

jinitha's research has a substantial impact on the field of nanomaterials and electrochemical applications. her work on nano-coatings and biomass-derived materials addresses real-world challenges, offering solutions that enhance the functionality and sustainability of materials. her Electrochemical Applications contributions are paving the way for new technologies in material science and have the potential to influence future research and development in this area.

Legacy and future contributions 🔮

Jinitha c g is poised to make significant contributions to the field of nanomaterials and material science. her ongoing research and innovative approach promise to advance the understanding and application of nanotechnology. as she continues to explore and develop new materials, her work will likely have a lasting impact on both academic research and industrial applications, cementing her legacy as a pioneering scientist in her field.