Constructing Black Titania with Unique Nanocage Structure for Solar Desalination

Solar desalination driven by solar radiation as heat source is freely available, however, hindered by low efficiency. Herein, we first design and synthesize black titania with a unique nanocage structure simultaneously with light trapping effect to enhance light harvesting, well-crystallized interconnected nanograins to accelerate the heat transfer from titania to water and with opening mesopores (4–10 nm) to facilitate the permeation of water vapor. Furthermore, the coated self-floating black titania nanocages film localizes the temperature increase at the water–air interface rather than uniformly heating the bulk of the water, which ultimately results in a solar–thermal conversion efficiency as high as 70.9% under a simulated solar light with an intensity of 1 kW m–2 (1 sun). This finding should inspire new black materials with rationally designed structure for superior solar desalination performance.