1 Correction to: Topics in Catalysis (2020) 63:944–953 https://doi.org/10.1007/s11244-020-01352-6

The original version of this article unfortunately contained an error. The authors would like to correct the error with this erratum.

The authors regret neglecting to cite one relevant published article due to insufficient reference investigation. The authors would like to apologies for any inconvenience caused. The article was initially published as a preprint but has subsequently been published as a full paper. Here, we supply the related article in the Introduction Section to complete the literature investigation. This does not affect any conclusions presented in our original paper. The corrected part is shown below.

Here, we selected three small-pore zeolites with different framework structures (AEI, CHA and RTH) to investigate the effect of the small-pore structure on Pd dispersion. In fact, Cu-based small-pore zeolites are widely used as NH3-SCR catalysts. We previously found that Cu-SSZ-39 with the AEI structure showed superior HTS to Cu-SSZ-13 with the CHA structure, due to the more tortuous three-dimensional 8 member-ring channels [15]. As PNA material as well as methane combustion catalyst, Khivantsev found that Pd/SSZ-39 showed excellent HTS and survived hydrothermal aging up to 815 °C without a significant loss of activity of PNA performance [16, 17].