CN1670040A - Process for preparing composite catalyst containing nickel chloride - Google Patents

Abstract

The invention discloses a process for preparing composite catalyst containing nickel chloride, wherein the nickel chloride-containing composite catalyst comprises nickel chloride supported catalyst and micromolecular deactivator, which is prepared by using high specific surface ion exchange resin powder as the loading carrier of the catalyst, forming nickel chloride supported catalyst through coordination complexing with waterless nickel chloride, and appending a small amount of micromolecular deactivator simultaneously. The composite catalyst can form solid-liquid reaction system along with initiating agent, monomer and dissolvent, and carry out controlled atom shift free radical aggregation. After the reaction finishes, the outcome yields can be separated in a simple manner, and the catalyst can be circulated for later use after being activated. The nickel chloride-containing composite catalyst can be employed for preparing designated molecular weight, designated chain structure, narrowly distributed homopolymer and copolymer, and has the advantages of easy isolation of supported catalyst after reaction and low residual.

Description

The preparation method of composite catalyst containing nickel chloride

Technical field:

The present invention relates to a kind of Preparation of catalysts method, particularly a kind of preparation method of the composite catalyst of forming by nickelous chloride supported catalyst and small molecules passivator and in the application aspect the controlled atom transfer radical polymerization.

Background technology:

Controllable polymerization is because the reaction conditions gentleness, and it is extensive to adapt to monomer, can make molecular weight distribution very narrow (disperseing near single), specify the polymkeric substance of molecular weight, can prepare the clear and definite segmented copolymer of structure and receives much attention.Compare with traditional active cloudy (sun) ionic polymerization in the controllable polymerization, the monomer of atom transfer radical polymerization newly developed (ATRP) need not harsh pre-treatment, easy to operate easily.U.S. Pat 5763548 has adopted cuprous halide/bipyridine to make catalyzer in atom transfer radical polymerization, its disadvantage is the separation difficulty of reaction after product and catalyzer, normally reaction solution is diluted, by aluminum oxide (alumina) post, make cuprous halide/bipyridine catalyzer be adsorbed on it again.This catalyst removal mode treatment capacity is little, and power consumption is big, can't realize the industrialization operation.Because cuprous halide and coordinate complex compound thereof all have bigger toxicity, will cause serious harm to environment, so the atom transfer radical polymerization product are to restrict one of its industrialized major obstacle in recent years with separating of catalyzer.

For improving separating of catalyzer and reaction solution, people load on the effective constituent of catalyzer on the solid phase carrier, carry out the out-phase reaction, and reaction can direct filtration can separate solid-phase catalyst after finishing.Hong SC, Matyjaszewski K Macromolecules 35 (20): 7592-7605 Sep 24 2002, the silica gel load cuprous bromide of employing functionalization; The crosslinked polystyrene particle load cuprous bromide of functionalization etc.But such catalyst preparation process complexity, some operation is difficult to mass-producing, so cost is higher.

Summary of the invention:

The objective of the invention is to exist at existing ATRP catalyzer the problem of separation difficulty, propose the composite catalyst that a kind of nickelous chloride supported catalyst and small molecules passivator are formed, its specific surface area is greater than 1000m ²/ g, use this catalyzer energy controlled polymerization, the homopolymer and the multipolymer of molecular weight, narrow distribution specified in preparation, molecular weight distribution (PDI) is 1.2～1.3, the maximum characteristics of this catalyzer are after its catalytic polymerization finishes, can be with its whole separation by simple filtering, and the catalyst residue amount is low, below 40ppm, residual small molecules passivator is very little to the influence of product.

For realizing such purpose, the present invention forms the nickelous chloride supported catalyst with the load carriers of high-ratio surface ion exchange resin powder as catalyzer with the nickelous chloride ligand complex, adds a small amount of small molecules passivator simultaneously and forms composite catalyst containing nickel chloride.Composite catalyst containing nickel chloride and initiator, monomer, solvent are formed the solid-liquid reaction system by a certain percentage, can the catalysis controllable free-radical polymerisation.Reaction can be simply with product and catalyst separating after finishing, and the transition metal residual volume in the product is low; Can recycle after supported catalyst is activated, avoided the catalyst separating difficulty, can't reclaim and environment caused shortcomings such as serious harm; Use a small amount of anhydrous CuCl ₂Perhaps anhydrous FeCl ₃And part three-(N, N-dimethyl aminoethyl) amine (Me ₆TREN) title complex of Xing Chenging plays the effect of bridge as small molecules passivator in reaction process, and the molecular weight of product is more controlled.

The concrete preparation method of a kind of composite catalyst containing nickel chloride of the present invention is as follows:

(1) pre-treatment of carrier: make the carrier of spent ion exchange resin as catalyzer, with 1-5wt% sodium hydroxide or potassium hydroxide aqueous solution washing, change ion exchange resin into sodium or potassium type from Hydrogen, be washed till pH=9 with deionized water again, obtain the pre-treatment carrier in 80 ℃ of vacuum-dryings;

(2) preparation nickelous chloride supported catalyst: anhydrous Nickel Chloride and pre-treatment carrier 1: 50 in molar ratio～150 are mixed, the mole number of carrier is according to the cubage of the COO group that it comprised, be dissolved in the methyl alcohol of the deoxygenation that is five times in the pre-treatment carrier bulk, then to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, in 70 ℃ of stirring and refluxing 1 hour, the nitrogen protection decompression steamed methyl alcohol and obtains the nickelous chloride supported catalyst;

(3) preparation small molecules passivator: get anhydrous iron(ic) chloride or anhydrous cupric chloride, three-(N, the N-dimethyl aminoethyl) amine 1: 0.9 in molar ratio～1.1 is dissolved in the dimethyl formamide of 500～1000 times of moles, mixes, and obtains small molecules passivator;

(4) preparation composite catalyst containing nickel chloride: get nickelous chloride supported catalyst and small molecules passivator and mix at 1～3: 0.01～0.08 in molar ratio, obtain composite catalyst containing nickel chloride.

Wherein ion exchange resin has polyacrylic resin, the multipolymer of polymethacrylate resin or vinylformic acid and methacrylic acid, and its resin particle degree is 40～60 orders, contained COO group is 0.008～0.012molCOO ^-/ g resin, specific surface area should be greater than 1000m ²/ g.

The regeneration of nickelous chloride supported catalyst: the toluene wash of used composite catalyst containing nickel chloride drying deoxidation is removed polymkeric substance, dry back adds anhydrous methanol, handled in 3～5 hours through methanol eddy in 60 ℃, can use as the nickelous chloride supported catalyst once more after the drying again.

It is as follows that composite catalyst containing nickel chloride of the present invention is applied to the concrete grammar of controllable polymerization:

Get initiator, composite catalyst containing nickel chloride and monomer and mix and add 2～4 times of solvents to the monomer volume by 1: 1～3: 200 moles of proportionings, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, stir and 70-110 ℃ of reaction.When desire prepares multipolymer, can after transform substantially, first kind of monomer add 200 times of monomers of mol ratio again and continue reaction to the another kind of deoxygenation of initiator.After reaction finishes, with solvent cut and with the reaction solution cooling that reaction solution is centrifugal, separate clear liquid, can remove the nickelous chloride supported catalyst.Obtain polymkeric substance after solvent steamed.

Used methyl acrylic ester monomer can also be an esters of acrylic acid when composite catalyst containing nickel chloride of the present invention's preparation was applied to prepare homopolymer and multipolymer, styrenic.

The composite catalyst containing nickel chloride of the present invention preparation can catalyzed polymerization, makes predetermined chain end, the polymkeric substance that predetermined molecular weight and molecular weight distribution are narrower.The composite catalyst containing nickel chloride that utilizes the present invention to prepare can be easy to prepare the clear and definite AB type of multiple structure or ABA type or the more complicated segmented copolymer of structure, and these polymkeric substance are widely used in polymer blending, modification and coatings industry; After polymerization finishes, can remove the nickelous chloride supported catalyst by centrifugal or filtration at an easy rate, the small molecules passivator residual volume in the polymkeric substance satisfies the requirement to foreign matter content in the polymkeric substance fully less than 10ppm; Composite catalyst containing nickel chloride load carriers of the present invention---poly-(methyl) acrylic resin has no to poison, and the purification that is widely used in bio-pharmaceuticals separates, and is sophisticated industrialization product, and the source is abundant, and is cheap and easy to get, has excellent industrial application foreground.Utilize the approaching monodispersed various multipolymers that composite catalyst containing nickel chloride that the present invention prepares not only can the processability excellence, but also developed new purposes, have high economic benefit and social benefit for existing Industrial products; The composite catalyst containing nickel chloride of the present invention preparation is through simple solvent wash, and drying can obtain the nickelous chloride supported catalyst after the deoxidation again, has avoided the catalyst separating difficulty, and power consumption is big, and catalyzer can't reclaim and environment caused shortcoming such as serious harm.

Embodiment:

Below in conjunction with specific embodiment technical scheme of the present invention is further described.

Embodiment 1

(1) pre-treatment of carrier: with high-ratio surface polyacrylic acid ion exchange resin (specific surface area＞=1000m ²/ g) through the sodium hydroxide solution washing of 1-5wt%, be washed till pH=9 with deionized water again, after 80 ℃ of vacuum-drying, obtain pretreated polyacrylic acid ion exchange resin carrier (PAA);

(2) preparation nickelous chloride supported catalyst: get 13 milligrams of anhydrous chlorides of rase nickel (NiCl ₂) be dissolved in the methyl alcohol of 4 milliliters of deoxygenations after; add 0.45 gram previous step pre-treatment resin carrier according to 1: 50 mol ratio; to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing; circulate after 5 times; after 1 hour, the nitrogen protection decompression gets nickelous chloride supported catalyst (PAA/NiCl after steaming methyl alcohol in 70 ℃ of stirring and refluxing ²);

(3) preparation small molecules passivator CuCl ₂/ Me ₆TREN: get the anhydrous cupric chloride (CuCl of 0.54mg at 1: 1 according to mol ratio ₂), 0.9mg three-(N, N-dimethyl aminoethyl) amine (Me ₆TREN) be dissolved in the dimethyl formamide of 0.5ml, mix, obtain small molecules passivator;

(4) preparation composite catalyst containing nickel chloride: get above-mentioned nickelous chloride supported catalyst PAA/NiCl ₂And small molecules passivator CuCl ₂/ Me ₆The TREN uniform mixing obtains composite catalyst containing nickel chloride;

Get initiator Tosyl chloride (TsCl), composite catalyst containing nickel chloride and monomer methyl acrylate and press initiator: NiCl ₂: CuCl ₂: monomer=1.5: 1: 0.04: 4 times of toluene solvants to the monomer volume are mixed and added to 134 quality proportionings, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, stir and 90 ℃ of reactions after 15 hours, add 200 times of butyl acrylate 260mg again and continue reaction 15 hours to initiator, cooling also adds the dilution with toluene of 3 times of volumes, can remove catalyzer with reaction solution is centrifugal.The molecular weight M of the polymkeric substance that obtains after solvent steamed _n=25600, theoretical molecular M _Th=23100, molecular weight distributing index PDI=1.27.

Embodiment 2

(1) pre-treatment of carrier: with high-ratio surface polyacrylic acid ion exchange resin (specific surface area＞=1000m ²/ g) through the sodium hydroxide solution washing of 1-5wt%, be washed till pH=9 with deionized water again, after 80 ℃ of vacuum-drying, obtain pretreated polyacrylic acid ion exchange resin carrier (PAA);

(2) preparation nickelous chloride supported catalyst: get 13 milligrams of anhydrous chlorides of rase nickel (NiCl ₂) be dissolved in the methyl alcohol of 4 milliliters of deoxygenations after; add 0.45 gram previous step pre-treatment resin carrier according to 1: 50 mol ratio; to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing; circulate after 5 times; after 1 hour, the nitrogen protection decompression gets nickelous chloride supported catalyst (PAA/NiCl after steaming methyl alcohol in 70 ℃ of stirring and refluxing ₂);

(3) preparation small molecules passivator CuCl ₂/ Me ₆TREN: get the anhydrous cupric chloride (CuCl of 0.135mg at 1: 0.9 according to mol ratio ₂), 0.23mg three-(N, N-dimethyl aminoethyl) amine (Me ₆TREN) be dissolved in the dimethyl formamide of 0.5ml, mix, obtain small molecules passivator;

(4) preparation composite catalyst containing nickel chloride: get above-mentioned nickelous chloride supported catalyst PAA/NiCl ₂And small molecules passivator CuCl ₂/ Me ₆The TREN uniform mixing obtains composite catalyst containing nickel chloride;

Get initiator Tosyl chloride (TsCl), composite catalyst and monomer methyl acrylate and press initiator: NiCl ₂: CuCl ₂: monomer=1.5: 3: 0.03: 4 times of m-xylene solvents to the monomer volume are mixed and added to 134 quality proportionings, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, stir and 120 ℃ of reactions after 25 hours, cooling also adds the dilution with toluene of 3 times of volumes, can remove catalyzer with reaction solution is centrifugal.The molecular weight M of the polymkeric substance that obtains after solvent steamed _n=16300, theoretical molecular M _Th=14100, molecular weight distributing index PDI=1.29.

Embodiment 3

(1) pre-treatment of carrier: with high-ratio surface polyacrylic acid ion exchange resin (specific surface area＞=1000m ²/ g) through the sodium hydroxide solution washing of 1-5wt%, be washed till pH=9 with deionized water again, after 80 ℃ of vacuum-drying, obtain pretreated polyacrylic acid ion exchange resin carrier (PAA);

(2) preparation nickelous chloride supported catalyst: get 13 milligrams of anhydrous chlorides of rase nickel (NiCl ₂) be dissolved in the methyl alcohol of 4 milliliters of deoxygenations after; add 1.5 gram previous step pre-treatment resin carriers according to 1: 150 mol ratio; to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing; circulate after 5 times; after 1 hour, the nitrogen protection decompression gets nickelous chloride supported catalyst (PAA/NiCl after steaming methyl alcohol in 70 ℃ of stirring and refluxing ²);

(3) preparation small molecules passivator CuCl ₂/ Me ₆TREN: get the anhydrous cupric chloride (CuCl of 0.84mg at 1: 1 according to mol ratio ₂), 1.38mg three-(N, N-dimethyl aminoethyl) amine (Me ₆TREN) be dissolved in the dimethyl formamide of 0.5ml,, mix, obtain small molecules passivator;

(4) preparation composite catalyst containing nickel chloride: get above-mentioned nickelous chloride supported catalyst PAA/NiCl ₂And small molecules passivator CuCl ₂/ Me ₆TREN presses mass ratio NiCl ₂/ CuCl ₂=1: 0.06 proportioning uniform mixing obtains composite catalyst containing nickel chloride;

Get initiator Tosyl chloride (TsCl), composite catalyst and monomer methyl acrylate and press initiator: NiCl ₂: CuCl ₂: monomer=1.5: 1: 0.06: 4 times of m-xylene solvents to the monomer volume are mixed and added to 134 quality proportionings, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, stir and 80 ℃ of reactions after 20 hours, add 200 times of butyl acrylates again and continue reaction 20 hours to initiator, cooling also adds the dilution with toluene of 3 times of volumes, can remove catalyzer with reaction solution is centrifugal.The molecular weight M of the polymkeric substance that obtains after solvent steamed _n=23900, theoretical molecular M _Th=20600, molecular weight distributing index PDI=1.24.

Embodiment 4

(1) regeneration of nickelous chloride supported catalyst: after the toluene wash of above-mentioned supported catalyst drying deoxidation, add anhydrous methanol after drying, and handled in 3～5 hours through methanol eddy in 60 ℃, drying is promptly renewable again;

(2) preparation small molecules passivator FeCl ₃/ Me ₆TREN: get the anhydrous iron(ic) chloride (FeCl of 0.64mg at 1: 1 according to mol ratio ₃), 0.92mg three-(N, N-dimethyl aminoethyl) amine (Me ₆TREN) be dissolved in the dimethyl formamide of 0.5ml, mix, obtain small molecules passivator;

(3) preparation composite catalyst containing nickel chloride: get above-mentioned nickelous chloride supported catalyst PAA/NiCl ₂And small molecules passivator FeCl ₃/ Me ₆TREN presses mass ratio NiCl ₂/ FeCl ₃=1: 0.05 proportioning uniform mixing obtains composite catalyst containing nickel chloride;

Get initiator Tosyl chloride (TsCl), composite catalyst and monomer methyl acrylate and press initiator: NiCl ₂: FeCl ₃: monomer=1.5: 1: 0.05: 4 times of m-xylene solvents to the monomer volume are mixed and added to 134 quality proportionings, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, stir and 80 ℃ of reactions after 20 hours, cooling also adds the dilution with toluene of 3 times of volumes, can remove catalyzer with reaction solution is centrifugal.The molecular weight M of the polymkeric substance that obtains after solvent steamed _n=15500, theoretical molecular M _Th=11600, molecular weight distributing index PDI=1.27.

Embodiment 5

(1) pre-treatment of carrier: with high-ratio surface polyacrylic acid ion exchange resin (specific surface area＞=1000m ²/ g) through the potassium hydroxide solution washing of 2wt%, be washed till pH=9 with deionized water again, after 80 ℃ of vacuum-drying, obtain pretreated polyacrylic acid ion exchange resin carrier (PAA);

(2) preparation nickelous chloride supported catalyst: get 13 milligrams of anhydrous chlorides of rase nickel (NiCl ₂) be dissolved in the methyl alcohol of 4 milliliters of deoxygenations after; add 0.45 gram previous step pre-treatment resin carrier according to 1: 50 mol ratio; to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing; circulate after 5 times; after 1 hour, the nitrogen protection decompression gets nickelous chloride supported catalyst (PAA/NiCl after steaming methyl alcohol in 70 ℃ of stirring and refluxing ₂);

(3) preparation small molecules passivator CuCl ₂/ Me ₆TREN: get the anhydrous cupric chloride (CuCl of 1mg at 1: 1 according to mol ratio ₂), 1.8mg three-(N, N-dimethyl aminoethyl) amine (Me ₆TREN) be dissolved in the dimethyl formamide of 0.5ml, mix, obtain small molecules passivator;

(4) preparation composite catalyst containing nickel chloride: get above-mentioned nickelous chloride supported catalyst PAA/NiCl ₂And small molecules passivator CuCl ₂/ Me ₆TREN presses mass ratio NiCl ₂/ CuCl ₂=1: 0.08 proportioning uniform mixing obtains composite catalyst containing nickel chloride;

Get initiator Tosyl chloride (TsCl), composite catalyst and monomer methyl acrylate and press initiator: NiCl ₂: CuCl ₂: monomer=1.5: 1: 0.08: 4 times of m-xylene solvents to the monomer volume are mixed and added to 134 quality proportionings, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, stir and 80 ℃ of reactions after 20 hours, cooling also adds the dilution with toluene of 3 times of volumes, can remove catalyzer with reaction solution is centrifugal.The molecular weight M of the polymkeric substance that obtains after solvent steamed _n=16900, theoretical molecular M _Th=13600, molecular weight distributing index PDI=1.21.

Embodiment 6

(1) pre-treatment of carrier: after the cleaning of high-ratio surface polyacrylic acid-styrol copolymer (8: 2) resin water,, when being washed till pH=9, obtain carrier in 80 ℃ of vacuum-dryings with deionized water again through excessive 2wt%NaOH solution;

(2) preparation supported catalyst: get 13 milligrams of anhydrous chlorides of rase nickel (NiCl ₂) be dissolved in the methyl alcohol of 4 milliliters of deoxygenations after, add 0.58 gram previous step pre-treatment resin carrier according to 1: 50 mol ratio, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, after 1 hour, the nitrogen protection decompression gets supported catalyst after steaming methyl alcohol in 70 ℃ of stirring and refluxing;

(3) preparation small molecules passivator FeCl ₃/ Me ₆TREN: get the anhydrous iron(ic) chloride (FeCl of 0.64mg at 1: 1 according to mol ratio ₃), 0.9mg three-(N, N-dimethyl aminoethyl) amine (Me ₆TREN) be dissolved in the dimethyl formamide of 0.5ml, mix, obtain small molecules passivator;

(4) preparation composite catalyst containing nickel chloride: get above-mentioned nickelous chloride supported catalyst PAA/NiCl ₂And small molecules passivator FeCl ₃/ Me ₆TREN presses mass ratio NiCl ₂/ FeCl ₃=1: 0.05 proportioning uniform mixing obtains composite catalyst containing nickel chloride;

Get initiator Tosyl chloride (TsCl), composite catalyst and monomer methyl acrylate and press initiator: NiCl ₂: FeCl ₃: monomer=1.5: 1: 0.05: 4 times of toluene solvants to the monomer volume are mixed and added to 134 quality proportionings, to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, stir and 90 ℃ of reactions after 20 hours, cooling also adds the dilution with toluene of 3 times of volumes, can remove catalyzer with reaction solution is centrifugal.The molecular weight M of the polymkeric substance that obtains after solvent steamed _n=18900, theoretical molecular M _Th=16600, molecular weight distributing index PDI=1.29.

Embodiment	Initiator: composite catalyst: monomer (mass ratio)	Composite catalyst	Theoretical molecular M n	Actual molecular weight M th	Molecular weight distributing index PDI
						Supported catalyst: passivator (mass ratio)
		????1					????1.5∶1∶134	?????1∶0.04	????23100	????25600	?????1.27
????2	????1.5∶3∶134		?????1∶0.01	????14100	????16300	?????1.29
		????3					????1.5∶1∶134	?????1∶0.06	????20600	????23900	?????1.24
????4	????1.5∶1∶134		?????1∶0.05	????11600	????15500	?????1.27
		????5					????1.5∶1∶134	?????1∶0.08	????13600	????16900	?????1.21
????6	????1.5∶1∶134		?????1∶0.05	????16600	????18900	?????1.29

Claims (1)

1, a kind of preparation method who contains the composite catalyst of nickelous chloride is characterized in that concrete preparation method is as follows:

(1) pre-treatment of carrier: make the carrier of spent ion exchange resin as catalyzer, with 1-5wt% sodium hydroxide or potassium hydroxide aqueous solution washing, change ion exchange resin into sodium or potassium type from Hydrogen, be washed till pH=9 with deionized water again, obtain the pre-treatment carrier in 80 ℃ of vacuum-dryings;

(2) preparation nickelous chloride supported catalyst: anhydrous Nickel Chloride and pre-treatment carrier 1: 240 in molar ratio～500 are mixed, the mole number of carrier is according to the cubage of the COO group that it comprised, be dissolved in the methyl alcohol of the deoxygenation that is five times in volume, then to system implementation liquid nitrogen freezing-vacuum outgas-inflated with nitrogen-thaw-liquid nitrogen freezing, circulate after 5 times, in 70 ℃ of stirring and refluxing 1 hour, the nitrogen protection decompression steamed methyl alcohol and obtains the nickelous chloride supported catalyst;

(3) preparation small molecules passivator: get anhydrous iron(ic) chloride or anhydrous cupric chloride, three-(N, the N-dimethyl aminoethyl) amine 1: 0.9 in molar ratio～1.1 is dissolved in the dimethyl formamide of 500～1000 times of moles, mixes, and obtains small molecules passivator;

(4) preparation composite catalyst containing nickel chloride: get nickelous chloride supported catalyst and small molecules passivator and mix at 1～3: 0.01～0.08 in molar ratio, obtain composite catalyst containing nickel chloride;

Wherein ion exchange resin has polyacrylic resin, the multipolymer of polymethacrylate resin or vinylformic acid and methacrylic acid, and its resin particle degree is 40～60 orders, contained COO group is 0.008～0.012molCOO ^-/ g resin, specific surface area should be greater than 1000m ²/ g.