Method for preparing palladium-carrying catalyst with nano Pd by suspension polymerization

Abstract

The invention discloses a method for preparing a supported palladium catalyst by suspension polymerization with participation of nanometer palladium. The method comprises the following steps: adding a nanometer palladium suspending liquid into polymerization by a standard suspension polymerization process of macroporous styrene type cation exchange resin; obtaining a polymer microsphere (polystyrene-DVE) of which nanometer palladium is evenly distributed inside a frame after polymerization; making the surface of the nanometer palladium and a polymeric monomer chemically or physically adsorbedso as to be firmly combined together; and sulfonating the polystyrene-DVE to produce the supported palladium resin catalyst after hanging, washing and drying. The method has the advantages of simple process, easy operation, low cost, high reaction activity, small pollution, high product yield, high purity and recyclable resin; and the prepared resin catalyst can be applied to gasoline ether hydrogenation and methylisobutylketone synthesis processes.

Description

technical field [0001] The invention relates to a preparation process of an ion exchange resin, in particular to a preparation process of a palladium-loaded resin catalyst. technical background [0002] There are some publications on the technology of developing ion-exchange resin-loaded palladium catalysts at home and abroad, such as GB1010260, the disclosed palladium / strongly acidic ion-exchange resin catalyst of US3953517 uses palladium nitrate to impregnate strongly acidic ion-exchange resin, and this resin catalyst is a synthetic methyl isobutyl ketone The main catalyzer, but catalytic activity is lower, selectivity is lower; CN1457927 has announced a kind of palladium / strongly acidic ion exchange resin catalyst, adopts the acidic solution containing palladium and strongly acidic ion exchange resin catalyst to carry out ion exchange; CN1883793 has announced a A nano-palladium catalyst and a preparation method thereof are polymer-supported nano-palladium catalysts obtain...

AI Technical Summary

Problems solved by technology

[0003] The above inventions all need to carry out loading processes such as ion exchange or impregnation, which have the disadvantages of long process flow, many organic solvents, and large palladium loss, and there is only physical adsorption between the reduced palladium element and the carrier, and palladium is easy to lose. In the present invention, the nano-palladium is evenly distributed on the skeleton of the resin microsphere through intermolecular force during the polymerization, and the palladium is not easy to be lost. This technology is innovative, and no relevant public reports have been seen.