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Korean Journal of Chemical Engineering, Vol.25, No.2, 231-235, 2008
Immobilization of H3PMo12O40 catalyst on the nitrogen-containing mesoporous carbon and its application to the vapor-phase 2-propanol conversion reaction
Nitrogen-containing mesoporous carbon (N-MC) with high surface area (=1,115 m2/g) and large pore volume (=1.18 cm3/g) was synthesized by a templating method. The surface of N-MC was then modified to form a positive charge, and thus, to provide sites for the immobilization of [PMo12O40]3.. By taking advantage of the overall negative charge of [PMo12O40]3., H3PMo12O40 (PMo12) was chemically immobilized on the N-MC support as a charge matching component. It was found that the PMo12/N-MC still retained relatively high surface area (=687 m2/g) and large pore volume (=0.67 cm3/g) even after the immobilization of PMo12. It was also revealed that PMo12 species were finely and molecularly dispersed on the N-MC support via chemical immobilization. In the vapor-phase 2-propanol conversion reaction, the PMo12/N-MC showed a higher conversion than the unsupported PMo12. Furthermore, the PMo12/N-MC showed an enhanced oxidation catalytic activity and a suppressed acid catalytic activity compared to the unsupported PMo12. This catalytic behavior of PMo12/N-MC was due to the molecular dispersion of PMo12 on the N-MC support formed via chemical immobilization by sacrificing the proton.
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[Cited By]
- Song SH, Lee SH, Park DR, Kim HS, Woo SY, Song WS, Kwon MS, Song IK, Korean Journal of Chemical Engineering, 26(2), 382, 2009
- Kim HS, Park DR, Park SY, Jung JC, Lee SB, Song IK, Korean Journal of Chemical Engineering, 26(3), 660, 2009
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- Song SH, Lee SH, Park DR, Kim H, Woo SY, Song WS, Kwon MS, Song IK, Korean Journal of Chemical Engineering, 26(6), 1539, 2009
- Park DR, Hong UG, Song SH, Seo JG, Baeck SH, Chung JS, Song IK, Korean Journal of Chemical Engineering, 27(2), 465, 2010
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