posted on 2016-05-17, 00:00authored byJuanjuan Shang, Beibei Xie, Ya Li, Xin Wei, Na Du, Haiping Li, Wanguo Hou, Renjie Zhang
Ultrathin MnO2 hollow
nanoballoons (UMHNBs) have a large
ratio of interfacial to total atoms, corresponding to expected improved
performance. However, their synthesis is a challenge due to difficulty
in controlling the concentration of the unit cells. Herein, we describe
a strategy to synthesize dry intact UMHNBs through a one-step synthesis
by inflating MnO2 (reduced from KMnO4) with
CO2 (oxidized from single-layer graphene oxide nanosheets)
followed by instant freeze-drying. UMHNBs are 30–500 nm in
diameter with a shell thickness of 3.7 nm, packing with laminar [MnO6] unit cells in the form of δ-MnO2. UMHNBs
show efficient catalytic activity for decomposing the organic dye
methylene blue (MB), 15 times the biggest reported value, and have
long-term catalytic efficacy and durability. The described strategy
in this paper makes use of graphene nanosheets to assemble durable
ultrathin hollow nanoballoons.