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Abstract S was successfully doped into carbon via calcination and Pd size was modulated by adjusting the S content. Sulfur species were considered to be anchor sites, contributing to the… Click to show full abstract
Abstract S was successfully doped into carbon via calcination and Pd size was modulated by adjusting the S content. Sulfur species were considered to be anchor sites, contributing to the highly dispersion of Pd nanoparticles. In addition, Pd/CS4 achieved 99.9% sel. With complete conversion in hydrogenation of o-chloronitrobenzene compared to Pd/AC (99.9% con., 61.6% sel.). Interestingly, catalysts with smaller metal size exhibited higher selectivity and lower activity, which was contrary to previous studies. It was suggested that electronic effects between S and Pd played an important role in this reaction, contributing to the excellent performance of the catalysts.
Journal Title: Catalysis Communications
Year Published: 2020
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