Journal
ENERGY & ENVIRONMENTAL SCIENCE
Volume 7, Issue 5, Pages 1700-1707Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c3ee43165g
Keywords
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Funding
- National Natural Science Foundation of China [21176204, 21376199]
- Key Project of Hunan Province Sience and Technology Plan [2013FJ2013]
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As one of the most promising photocatalysts, TiO2 suffers from disadvantages of a wide band gap energy and especially the ultrafast recombination of photoinduced-charges, which limit its practical application for efficient solar water splitting. Here we show a hitherto unreported carbon/TiO2/carbon nanotube (CTCNT) composite featuring a TiO2 nanotube sandwiched between two thin tubes of carbon with graphitic characteristics. The carbon layer is only about 1 nm thick covering the surface of TiO2 nanotubes. The minimum bandgap between the edges of band tails for the CTCNTs can conjecturally be narrowed to 0.88 eV, and the measured apparent quantum efficiency of CTCNT in the ultraviolet light region is even close to 100%, indicating it can greatly enhance the utilization of sunlight and extremely suppress charge recombination. As a consequence, under illumination of one AM 1.5G sunlight, CTCNT can give a superhigh solar-driven hydrogen production rate (37.6 mmol h(-1) g(-1)), which is much greater than the best yields ever reported for TiO2-based photocatalysts. We anticipate this work may open up new insights into the architectural design of nanostructured photocatalysts for effective capture and conversion of sunlight.
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