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Copolymer of styrene-divinylbenzene in bead form (with DVB 8%, average pore radius 3.0×10~2, specific surface area 25m~2/g, particle size 0.2—0.4mm) was made by the suspension polymerization. After chloromethylation, the beads were then reacted with lithium diphenyl phosphine and various amines separately. Two types of polymeric ligands, i.e. polyvinylbenzyl diphenyl phosphine and eight kinds of polyvinylbenzyl amines were thus obtained. In order to prepare the polymer-bound rhodium complexes, the ligands were then reacted with [Rh(CO)_2CI]_2. The initial composition and structure of the polymeric complexes were verified by IR spectra. The complexes synthesized above were used to catalyze the hydroformylation of diisobutylene under conditions of 110℃, 100(120) kg/cm~2 and H_2/CO=1:1. The effects of the donor atoms (N, P) on the activity of the two types of catalysts and the N-substituted groups on the activity ’of polymeric amine-rhodium complexes were examined.
Copolymer of styrene-divinylbenzene in bead form (with DVB 8%, average pore radius 3.0x10-2, specific surface area 25m ~ 2 / g, particle size 0.2-0.4mm) was made by the suspension polymerization. After chloromethylation, the Both types of polymeric ligands, ie polyvinylbenzyl diphenyl phosphine and eight kinds of polyvinylbenzyl amines were obtained. In order to prepare the polymer-bound rhodium complexes, the ligands were then reacted with [Rh (CO) _2CI] _2. The initial composition and structure of the polymeric complexes were verified by IR spectra. The complexes synthesized above were used to catalyze the hydroformylation of diisobutylene under conditions of 110 ° C, 100 (120) kg / cm ~ 2 and H 2 / CO = 1: 1. The effects of the donor atoms (N, P) on the activity of the two types of catalysts and the N-substituted groups on the activity ’of polymeric amine-rhodium complexes were examined.