- "Making small stuffs do big things"
When the size of materials is reduced to the nanoscale dimemsion, physical and chemical properties can change dramatically. Understanding and utilizing these new properties is important to enable novel applications for our daily lives and future. The goal of our research group is to synthesize advanced nanomaterials with the controlled crystal structures, morphologies, sizes, compositions and surface properties using low-cost and scalable processings. in addition, we are investigating in a broad range of nanoscale properties and developing next generation electronic& optical devices, energy conversion & storage systmes and environmental technologies.
When the size of materials is reduced to the nanoscale dimemsion, physical and chemical properties can change dramatically. Understanding and utilizing these new properties is important to enable novel applications for our daily lives and future. The goal of our research group is to synthesize advanced nanomaterials with the controlled crystal structures, morphologies, sizes, compositions and surface properties using low-cost and scalable processings. in addition, we are investigating in a broad range of nanoscale properties and developing next generation electronic& optical devices, energy conversion & storage systmes and environmental technologies.
l연구분야
Artificial photosynthesis for hydrogen evolution
1. GaN/ZnO solution solution
- Synthesis of GaN/ZnO solid solution nanofibers via an electrospinning process
Photocatalytic degradation for environmental applications
1. Bismuth oxide
- Synthesis of bismuth oxide nanofibers via an electrospinning process
High refractive index materials
1. Zirconium oxide
- Synthesis of zirconium oxide nanoparticles using SA-USP
2. Titanium oxide
- Synthesis of Titanium oxide nanoparticles using SA-USP
Chalcogenide semiconducting materials
1. Copper-based chalcogenide
- Synthesis of copper sulfide nanostructures
Lead-free piezoelectric materials
Printed Electronics (with Hanyang University)
1. Conductive inks for inkjet printing
- Synthesis of copper complex ion inks
Water purification (with Coway)
1. Removal of metal cations
- Development of natural HAP nanomaterials
White light-emitting diodes (with LG Innotek)
1. Color-converting composite materials
Artificial photosynthesis for hydrogen evolution
1. GaN/ZnO solution solution
- Synthesis of GaN/ZnO solid solution nanofibers via an electrospinning process
Photocatalytic degradation for environmental applications
1. Bismuth oxide
- Synthesis of bismuth oxide nanofibers via an electrospinning process
High refractive index materials
1. Zirconium oxide
- Synthesis of zirconium oxide nanoparticles using SA-USP
2. Titanium oxide
- Synthesis of Titanium oxide nanoparticles using SA-USP
Chalcogenide semiconducting materials
1. Copper-based chalcogenide
- Synthesis of copper sulfide nanostructures
Lead-free piezoelectric materials
Printed Electronics (with Hanyang University)
1. Conductive inks for inkjet printing
- Synthesis of copper complex ion inks
Water purification (with Coway)
1. Removal of metal cations
- Development of natural HAP nanomaterials
White light-emitting diodes (with LG Innotek)
1. Color-converting composite materials
국가
대한민국
소속기관
서울과학기술대학교 (학교)
연락처
책임자
이영인