Functional Nanostructured Materials Research Lab. (Professor Yong Ho Choa)
Homepage: http://fnmr.hanyang.ac.kr/
FNMR(Functional Nanostructured Materials Research Lab.) is
researching the printed electronics and investigating the multi-functional
harmonized ceramic/metal/polymer and composite mateirlas via NT. We
aim to develop the low cost electronic device and high performance
flexible electronic device via printed electronics, and to apply in variety
Fields
Research Topics
 Synthesis of metal nanoparticle ink such
as copper, gold, silver and etc.
 Improvement of adhesion between the
substrate and ink by using the adhesion
promoter and surface treatment
Printed
 Formation of fine pattern by controlling
Electronics
the cartridge nozzle size, surface
treatment and so on
 Development of low temperature
sintering process to apply flexible
substrate
 Synthesis of metal nanowire/fiber by
template based electrodeposition and
electrospinning methods and apply to
Electronic transparent electrode
and
 Fabrication of eco-friendly quantum dot
Optical  Improve the optical property and
Materials
stability of core/shell structured quantum
dot by polymer coating
 Synthesis of quantum dot using the
Micro-reactor
Energy
Materials
 Synthesis of thermoelectric device via
photolithography process and template
based electrodeposition
 Fabrication of chalcogenide 3-D
hierarchical nanostructures using
chemical transformataion methods
 Fabrication of solid oxide fuel cell and
compound semiconductor solar cell
using nanoparticle
 Fabrication of lithium ion battery, dyesensitized solar cell and photocatalysts
using nanowire
 Synthesis of magnetite nanoparticle and
nanowires using ultrasonic spray
Electropyrolysis and electrospinning.
magnetics  Fabrication of magnetite nanofiber for
Materials
electromagnetic wave absorber
 Fabrication of magnetite nanoparticle for
hyperthermia
Sensor
Materials
and
Devices
 Fabrication of conducting polymer
nanowire based biosensor via
electrospinning method
 Fabrication of metal oxide
nanowire/tube based gas sensor using a
electrodeposition and electrospning
method
 Synthesis of macro-mesoporous
catalysts to improve the catalytic activity
Thermal
Related
Materials
 Fabrication of boron nitride, carbon
nanotube, graphene based polymer
composite with to maximize percolation
networks
technology fields of BT, IT and ET, such as biomedical materials (Drug
Delivery System, Protein Separation & Purification, Localized
Hyperthermia Treatment, etc.), catalysts, magnetic materials, SOFC
(Solid Oxide Fuel Cell), carbon nanotube and sensors.
Recent research results