Prof. Xueliang Shi| Non-covalent interactions Award | Best Researcher Award

Prof. Xueliang Shi| Non-covalent interactions Award | Best Researcher Award

Prof. Xueliang Shi , East China Normal University , China

Xueliang Shi (史学亮) 🧬 is a distinguished chemist hailing from the People’s Republic of China, currently serving as a Professor at the School of Chemistry and Molecular Engineering, East China Normal University. With a rich academic journey that includes a PhD from the National University of Singapore under the guidance of Professors Chunyan Chi and Jishan Wu, his expertise spans multi-step organic synthesis, semiconductor materials, and advanced spectroscopic techniques like UV-vis, cyclic voltammetry, NMR, and EPR spectroscopy. His research interests converge on pioneering fronts: exploring the design and synthesis of organic radicals, integrating radical chemistry with supramolecular chemistry to innovate new molecular architectures, and advancing π-conjugated materials for organic semiconductors, particularly in applications such as field-effect transistors and solar cells. Xueliang Shi’s multidisciplinary approach underscores his commitment to pushing the boundaries of molecular science, aiming to unlock new possibilities at the intersection of chemistry and materials engineering.

Profile :

Scopus

Google scholar

Orcid

Education

  • 2018.10 – now: Professor, School of Chemistry and Molecular Engineering, East China Normal University
  • 2016.9 – 2018.10: Research Associate, Materials Science and Engineering, University of Washington
    • Supervisor: Professor Alex K-Y. Jen
  • 2015.9 – 2016.8: Research Assistant, Department of Chemistry, National University of Singapore
    • Supervisor: Professor Chunyan Chi
    • Co-Supervisor: Professor Jishan Wu
  • 2011.8 – 2015.8: PhD, Department of Chemistry, National University of Singapore
    • Supervisor: Professor Chunyan Chi
    • Co-Supervisor: Professor Jishan Wu
    • Thesis: Quinoidal Compounds: Synthesis, Structures, Properties and Their Applications for Field Effect Transistors

Expertise and Skills

  • Multi-step organic synthesis
  • Semiconductors
  • UV-vis spectroscopy
  • Cyclic voltammetry
  • NMR spectroscopy
  • EPR spectroscopy
  • Single crystal growth and analysis

Research Interests

  1. Organic radicals: Design and synthesis of novel organic radicals; investigating structure-property-application relationships.
  2. Supramolecular chemistry: Integration of traditional supramolecular chemistry with radical chemistry to create new molecules and materials.
  3. Organic semiconductors: Development of new π-conjugated (supramolecular radical) materials for applications in organic semiconductors, including field-effect transistors and solar cells.

Publications Top Notes 📄