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and selectivity for, MIPA for up to 100 h on stream. These
catalysts showed good catalytic activity and stability, and
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Various alumina supports, such as h-, d-, g-, c- and
j-Al2O3, influence the physicochemical and catalytic
properties of nickel-based catalysts in the reductive ami-
nation of IPA. Ni/g-Al2O3 had the smallest nickel particle
size and demonstrated the best catalytic performance, due
to a high nickel metal surface area and high dispersion of
nickel particles. The highest number of Lewis acid sites on
the catalyst surface could be correlated with enhancement
in the MIPA selectivity. The Ni/g- and c-Al2O3 catalysts
showed good catalytic performance in the reductive ami-
nation of IPA to MIPA.
Acknowledgments This work was supported by the Energy Effi-
ciency and Resources of the Korea Institute of Energy Technology
Evaluation and Planning (KETEP) granted financial resource from the
Ministry of Trade, Industry and Energy, Republic of Korea (No.
2014021194).
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