Ms. Yun Ding | Composites with High Electrical Conductivity | Best Researcher Award
Shanghai University, China
👨‍🎓Profiles
🎓 Early Academic Pursuits
Ms. Yun Ding began her academic journey at Jiangsu University, where she pursued a Bachelor’s degree in Chemical Engineering and Technology. Her commitment to academic excellence was reflected in her impressive. Driven by a passion for advancing in the field, she continued at Jiangsu University for her Master’s in Chemical Engineering and Technology . She is currently deepening her expertise in Condensed Matter Physics as a Doctoral candidate at Shanghai University.
đź’Ľ Professional Endeavors
She has gained valuable industry insights through her internships, which helped her understand the production processes and practical applications of chemical engineering concepts. Her experiences include: Production Practice at Yangzi Petrochemical Co., Ltd. (June - July 2018): She observed the polypropylene resin production process, enhancing her understanding of real-world chemical manufacturing, Cognition Practice (January 2017): Ms. Ding visited various facilities, including Jiangnan Chemical Plant, Sopchloride Factory, Zhenjiang Soli Work, and Jindong Paper, which provided hands-on exposure to industrial practices.
🔬 Contributions and Research Focus
Her research journey reflects her commitment to exploring advanced materials and conductive properties: Electrical Conductivity of Graphene/Copper Composites: She focused on synthesizing graphene on copper foil surfaces via APCVD and LPCVD methods, carefully controlling variables to assess their impact on conductivity. Her work involved advanced characterization techniques, including XRD, EBSD, Raman mapping, SEM, and TEM, to understand the influence of graphene layers on copper’s conductive properties, Development of Two-Dimensional Graphite Nanosheets: In this project, Ms. Ding prepared graphite nanosheets using sand milling, followed by comprehensive analysis using XRD, SEM, N2 adsorption/desorption, and HRTEM, Preparation of Expansive Graphite : This study investigated the effects of various oxidants on the production of expanded graphite, broadening her knowledge of material synthesis and characterization.
🌟 Impact and Influence
Her research on graphene/copper composites and graphite nanosheets holds the potential for significant advancements in material conductivity and electronic applications. By addressing the microstructural details of conductive materials, her work contributes to enhancing the performance and efficiency of electronic components, which can impact various industries, including electronics, energy, and materials science.
đź“š Academic Cites and Publications
While her specific publications aren’t listed, Ms. Ding’s ongoing doctoral research and previous studies suggest that she may contribute valuable findings to scholarly literature, likely earning citations and recognition within the fields of condensed matter physics and chemical engineering.
🛠️ Technical Skills
She has developed a solid technical skill set that enhances her research capabilities: Characterization Techniques: Proficient in XRD, SEM, TEM, HRTEM, and Raman mapping, enabling her to conduct detailed analyses of material properties, Software Proficiency: Familiar with Office tools, CAD (Basics), ORIGIN (Familiar), and XMind, which aid in data analysis and presentation.
👩‍🏫 Teaching Experience
While her background does not mention specific teaching roles, her involvement in research projects and technical expertise would position her well to contribute to academia as a mentor or instructor for topics related to chemical engineering and material sciences.
🌍 Legacy and Future Contributions
She is poised to make significant contributions in the fields of advanced materials and electronic applications. Her dedication to understanding and enhancing the conductivity of composite materials could lead to innovative breakthroughs in material science. With her expanding expertise, Ms. Ding has the potential to influence the development of sustainable and high-performance materials, leaving a lasting impact on technology and environmental efficiency.
đź“–Notable Publications
Journal: Carbon
Year: 2024