Abstract
In this issue of Chem Catalysis , Wang et al. proposed a new approach by incorporating CdO quantum dots (QDs) to CdS surface by partial oxidation of CdS surface. The catalyst demonstrates efficient biomass reforming to CO by the promotion of separation of electrons and holes at the CdO-QDs/CdS intimate heterojunction. In this issue of Chem Catalysis , Wang et al. proposed a new approach by incorporating CdO quantum dots (QDs) to CdS surface by partial oxidation of CdS surface. The catalyst demonstrates efficient biomass reforming to CO by the promotion of separation of electrons and holes at the CdO-QDs/CdS intimate heterojunction.
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