Active
{001} Facet Exposed TiO2 Nanotubes
Photocatalyst Filter for Volatile Organic Compounds Removal: From
Material Development to Commercial
Indoor Air Cleaner Application
posted on 2018-07-12, 00:00authored bySeunghyun Weon, Eunji Choi, Hyejin Kim, Jee Yeon Kim, Hee-Jin Park, Sae-mi Kim, Wooyul Kim, Wonyong Choi
TiO2 nanotubes (TNT) have a highly ordered open structure
that promotes the diffusion of dioxygen and substrates onto active
sites and exhibit high durability against deactivation during the
photocatalytic air purification. Herein, we synthesized {001} facet-exposed
TiO2 nanotubes (001-TNT) using a new and simple method
that can be easily scaled up, and tested them for the photocatalytic
removal of volatile organic compounds (VOCs) in both a laboratory
reactor and a commercial air cleaner. While the surface of TNT is
mainly composed of {101} facet anatase, 001-TNT’s outer surface
was preferentially aligned with {001} facet anatase. The photocatalytic
degradation activity of toluene on 001-TNT was at least twice as high
as that of TNT. While the TNT experienced a gradual deactivation during
successive cycles of photocatalytic degradation of toluene, the 001-TNT
did not exhibit any sign of catalyst deactivation under the same test
conditions. Under visible light irradiation, the 001-TNT showed degradation
activity for acetaldehyde and formaldehyde, while the TNT did not
exhibit any degradation activity for them. The 001-TNT filter was
successfully scaled up and installed on a commercial air cleaner.
The air cleaner equipped with the 001-TNT filters achieved an average
VOCs removal efficiency of 72% (in 30 min of operation) in a 8-m3 test chamber, which satisfied the air cleaner standards protocol
(Korea) to be the first photocatalytic air cleaner that passed this
protocol.