Most　of　volatile　organic　compounds　(VOCs)　pollute　the　atmosphere　environment　and　are　harmful　to　human　health,　hence　it　is　urgent　to　strictly　control　the　emission　of　VOCs.　Catalytic　oxidation　is　an　effective　pathway　for　the　removal　of　VOCs,　in　which　the　key　issue　is　the　development　of　novel　and　high-performance　catalysts.　In　this　review,　we　briefly　summarize　the　preparation　and　catalytic　performance　of　regularly　morphological　transition　metal　oxide,　mesoporous　metal　oxide,　macroporous　metal　oxide,　macroporous　mixed　metal　oxide,　and　their　supported　transition　metal　oxide　and　noble　metal　nanocatalysts　that　have　been　investigated　by　our　research　group.　It　was　found　that　catalytic　performance　was　associated　with　the　factors,　such　as　specific　surface　area,　pore　structure,　particle　dispersion,　particle　size,　adsorbed　oxygen　species　concentration,　low-temperature　reducibility,　reactant　activation　ability　or　interaction　between　metal　oxide　or　noble　metal　(alloy)　and　support.　In　addition,　the　development　trend　in　future　work　on　such　a　topic　has　been　envisioned.　©　2019,　Editorial　Department　of　Journal　of　Beijing　University　of　Technology.　All　right　reserved.