Hybrid materials with more than two components allow us to merge the advantage of each one into one composite material. Controllable design and integration of different kinds of materials lead to the generation of multifunctional hybrids which show new properties superior to those of the individual elements via the collective behavior of the functional building blocks. The goals of our research are to exploit the science of new class of solution-processed nanostructured hybrid materials that have promise for various applications encompassing energy and environment–1) Carbon Nanostructured Composite for Energy Storage and Conversion; 2) Nanoarchitectured Hybrid Materials for Water Remediation; 3) Hybrid Metal–Organic Framework Based Functional Materials for Energy Storage and Separation. The main motivation of our research lies in expanding the possible range of material characteristics with a major focus on outlining a comprehensive approach for materials synthesis as well as various forms of characterization and understanding structure−property relationship. Based on our expertise in various kinds of synthesis and characterization encompassing organic and inorganic materials, our future research will have leverage for establishing state-of-the-art research to understand, design, and exploit the benefits of novel multifunctional hybrid nanomaterials with high performance that will potentially lead to major advances in a variety of applications.
Eun Seon Cho(조은선)Assistant Professor
Tel : +82-42-350-3912
Fax : +82-42-350-3910
E-mail : email@example.com
Homepage : https://fhnl.kaist.ac.kr