Relapse following chemeric antigen receptor (CAR) T-cell therapy can arise from progressive loss of the CAR T cells or from loss of the target antigen by tumor cells. Wang et al report that using a mix of CAR T cells targeting CD19 and CD22 reduces relapse with antigen-negative tumor cells. However, a lack of CAR T-cell persistence leads to increased relapse with antigen-positive cells.
Constructing monodispersed metal sites in heterocatalysis is an efficient strategy to boost their catalytic performance. Herein, a new strategy using monodispersed metal sites to tailor Pt-based nanocatalysts is addressed by engineering unconventional p-d orbital hybridization. Thus, monodispersed Ga on Pt 3 Mn nanocrystals (Ga-O-Pt 3 Mn) with high-indexed facets was constructed for the first time to drive ethanol electrooxidation reaction (EOR). Strikingly, the Ga-O-Pt 3 Mn nanocatalyst shows an enhanced EOR performance with achieving 8.41 times of specific activity than that of Pt/C. The electrochemical in situ Fourier transform infrared spectroscopy results and theoretical calculations disclose that the Ga-O-Pt 3 Mn nanocatalyst featuring an unconventional pd orbital hybridization not only promote the CÀ C bondbreaking and rapid oxidation of -OH of ethanol, but also inhibit the generation of poisonous CO intermediate species. This work discloses a promising strategy to construct a novel nanocatalysts tailored by monodispersed metal site as efficient fuel cell catalysts.
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