CN107698945B - A kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect2Composite wire and preparation method thereof - Google Patents

A kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect2Composite wire and preparation method thereof Download PDF

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CN107698945B
CN107698945B CN201710677894.1A CN201710677894A CN107698945B CN 107698945 B CN107698945 B CN 107698945B CN 201710677894 A CN201710677894 A CN 201710677894A CN 107698945 B CN107698945 B CN 107698945B
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petg
dendritic phthalocyanine
sio
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黄宝铨
林鸿裕
郭奕友
陈庆华
夏新曙
钱庆荣
肖荔人
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Fujian Normal University
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Abstract

The present invention discloses a kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect2Composite wire and preparation method thereof.The present invention provides a kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect using high light transmission resin PETG as carrier2Composite wire and preparation method thereof.Technical scheme is as follows: 1, being PETG50-70 according to mass ratio formula, PVA10-30,1-3 load SiO for aryl oxide dendritic phthalocyanine complex25-20, plasticizer 3-10, stabilizer 2-5, dispersing agent 0.5-2.2, the preparation method comprises the following steps: dry weighing mixing;Melting extrusion is granulated;Extrusioning shaping winding.Composite wire produced by the present invention has good translucency and visible light photocatalysis performance, and preparation method is simple and efficient, and can be applied to the photocatalytic degradation processing of sewage, air and organic contaminants in soil.

Description

A kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect2Composite wire and Preparation method
Technical field
The invention belongs to a kind of, and the PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2Composite wire and its preparation Method.
Background technique
Chinese patent ZL2014108005249 discloses a kind of 1-3 and loads SiO for aryl oxide dendritic phthalocyanine complex2It can The preparation method and applications of light-exposed photochemical catalyst, dendritic phthalocyanine described in patent load SiO2Active oxygen yield The advantages that height, good hydrophilic property, high not easy to reunite and electronics transfer rate, it can be applied to Industrial Waste Water Treatments, degradation of dye waste water etc. Field.But the dendritic phthalocyanine of solid-state powdery loads SiO2There are problems that device and recycling in practical applications.
3D printing is a kind of novel intelligent Manufacturing Technology, for traditional molding mode, quickly preparation, fining Manufacture, the advantages that stock utilization is high and be concerned.Fused glass pellet (FDM) is used as 3D printing technique important composition portion Point, it can stack material to form the device with labyrinth by fuse, so that material devices.
PETG is by the production of three kinds of terephthalic acid (TPA), ethylene glycol and 1,4 cyclohexane dimethanol monomer ester-interchange method polycondensations Object.PETG not only has good processing performance, chemical corrosion resistance and excellent flexibility, same or a kind of high transparency material Material has very high transparency.Currently, PETG resin is mainly used in the neck such as plate, sheet material, profile shapes and cosmetic package Domain, the report for directly applying to 3D printing field are less.
Therefore, dendritic phthalocyanine is loaded into SiO2With PETG resin alloy, while water-soluble polymer polyvinyl alcohol is added (PVA) 3D printing wire rod is prepared as pore-foaming agent, on the basis of combining FDM technology, realizes that dendritic phthalocyanine loads SiO2Device Part and the photocatalytic degradation processing for being applied to sewage, air and organic contaminants in soil.
Summary of the invention
For above-mentioned background and problem, the purpose of the present invention aims to solve the problem that dendritic phthalocyanine loads SiO2There are device and The problems such as recycling, provides a kind of PETG/ dendroid phthalein with photocatalysis effect using high light transmission resin PETG as carrier Cyanines load SiO2Composite wire and preparation method thereof.Composite wire produced by the present invention has good translucency and visible light light Catalytic performance, preparation method are simple and efficient, and can be applied at the photocatalytic degradation of sewage, air and organic contaminants in soil Reason.
The purpose of the present invention is what is be achieved through the following technical solutions:
A kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect2Composite wire, which is characterized in that by following Weight percent composition be made:
PETG 50-70
PVA 10-30
1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2 5-20
Plasticizer 3-10
Stabilizer 2-5
Dispersing agent 0.5-2.
The plasticizer is at least a kind of to be selected from glycerol, ethylene glycol, polyethylene glycol.
The stabilizer is at least a kind of to be selected from calcium hydroxide, calcium oxide, magnesium hydroxide.
The dispersing agent is at least a kind of to be selected from stearic acid, polyethylene wax, oxidized polyethylene wax.
A kind of PETG/ dendritic phthalocyanine with photocatalysis effect of the present invention loads SiO2The preparation of composite wire Method, which comprises the following steps:
A. PETG and stabilizer are dried in vacuo respectively, then by PETG, PVA, plasticizer, stabilizer, dispersing agent and 1-3 SiO is loaded for aryl oxide dendritic phthalocyanine complex2According to percentage of weight formula precise, then by each component after weighing It is placed in high-speed mixer and is uniformly mixed, obtain mixture;
B. mixture is made into material by double screw extruder melting extrusion, obtains blended particles, barrel temperature 170-230 DEG C, screw speed 50-300rpm/min;
C., blended particles are added to progress extrusioning shaping winding in the single screw extrusion machine of 3D wire rod production line, obtain 3D Wire rod is printed, barrel temperature is 170-230 DEG C, screw speed 10-100rpm/min.
The above-mentioned PETG/ dendritic phthalocyanine with photocatalysis effect of the present invention loads SiO2The application of composite wire, Be characterized in that: the PETG/ dendritic phthalocyanine loads SiO2Composite wire is applied to 3D printing field.
The above-mentioned PETG/ dendritic phthalocyanine with photocatalysis effect of the present invention loads SiO2The application of composite wire, Be characterized in that: the PETG/ dendritic phthalocyanine loads SiO2Composite wire is applied to catalytic degradation phenol.
The invention has the benefit that 1) composite wire produced by the present invention, is a kind of macromolecule material for 3D printing Material, printing can be formed at a lower temperature by having, and the product quality printed is high, be had excellent performance, and have good light transmission Property;2) composite wire produced by the present invention, has good translucency and visible light photocatalysis performance, and preparation method is simply high Effect can be applied to the photocatalytic degradation processing of sewage, air and organic contaminants in soil.
Detailed description of the invention
Fig. 1 is a kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect2Composite wire 3D printing molding produces Product figure.
Fig. 2 is a kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect2Composite wire 3D printing molding produces Product multiple catalytic degradation phenol activity figure under visible light conditions.
Specific embodiment
Son is described in further details the present invention combined with specific embodiments below, but this should not be interpreted as of the invention Range is only limitted to following instance.The PETG product that the embodiment of the present invention is produced using U.S. Eastman(Yi Siman) chemical company.
Embodiment 1
1, a kind of PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2Composite wire, which is characterized in that according to Percentage of weight formula is as follows:
PETG 53
PVA 20
1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2 16
Ethylene glycol 7
Magnesium hydroxide 3
Stearic acid 1.
2, the above-mentioned PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2The preparation method of composite wire, including Following steps:
A. PETG and magnesium hydroxide are dried in vacuo respectively, then by PETG, PVA, ethylene glycol, magnesium hydroxide, stearic acid SiO is loaded for aryl oxide dendritic phthalocyanine complex with 1-32It, then will be after weighing according to percentage of weight formula precise Each group is placed in high-speed mixer and is uniformly mixed, and obtains mixture;
B. mixture is made into material by double screw extruder melting extrusion, obtains blended particles, barrel temperature is followed successively by 170,180,185,195,200,205,215,220,215,210 DEG C, screw speed 185rpm/min;
C., blended particles are added to progress extrusioning shaping winding in the single screw extrusion machine of 3D wire rod production line, obtain 3D Wire rod is printed, barrel temperature is followed successively by 175,190,210,220,215 DEG C, screw speed 24rpm/min;
D. wire rod step C obtained prints, and obtains PETG/ dendritic phthalocyanine load SiO2Composite wire 3D printing Shaped article, it is specific as shown in Figure 1;
E. it (is placed in double glazing collet (logical condensed water), optical filter guarantees incident using 500 W tungsten halogen lamps as light source Light wavelength lambda is between 420-800 nm), it is 1.35 × 10 in 250mL concentration-4D step is added in the phenol solution of mol/L Product (3.56g) carries out photocatalytic degradation experiment, and phenol solution is taken to carry out ultraviolet-visible light spectrum analysis (according to sample per hour To determine, phenol solution concentration changes light absorption value in degradation process at 233 nm of product), amount to 5 hours;Product is recycled by above-mentioned Method is repeated twice, and obtains PETG/ dendritic phthalocyanine load SiO2Composite wire 3D printing shaped article is under visible light conditions Multiple catalytic degradation phenol activity figure, it is specific as shown in Figure 2.
Embodiment 2
1, a kind of PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2Composite wire, which is characterized in that according to Percentage of weight formula is as follows:
PETG 69
PVA 12
1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2 12
Glycerol 4
Magnesium hydroxide 2
Polyethylene wax 1.
2, the above-mentioned PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2The preparation method of composite wire, including Following steps:
A. PETG and magnesium hydroxide are dried in vacuo respectively, then by PETG, PVA, glycerol, magnesium hydroxide, polyethylene wax SiO is loaded for aryl oxide dendritic phthalocyanine complex with 1-32It, then will be after weighing according to percentage of weight formula precise Each group is placed in high-speed mixer and is uniformly mixed, and obtains mixture;
B. mixture is made into material by double screw extruder melting extrusion, obtains blended particles, barrel temperature is followed successively by 170,178,183,195,200,203,214,220,216,212 DEG C, screw speed 160rpm/min;
C., blended particles are added to progress extrusioning shaping winding in the single screw extrusion machine of 3D wire rod production line, obtain 3D Wire rod is printed, barrel temperature is followed successively by 178,190,208,218,215 DEG C, screw speed 35rpm/min.
Embodiment 3
1, a kind of PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2Composite wire, which is characterized in that according to Percentage of weight formula is as follows:
PETG 55
PVA 18
1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2 16
Polyethylene glycol 6.5
Calcium oxide 3
Oxidized polyethylene wax 1.5.
2, the above-mentioned PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2The preparation method of composite wire, including Following steps:
A. PETG and calcium oxide are dried in vacuo respectively, then by PETG, PVA, polyethylene glycol, calcium oxide, the poly- second of oxidation Alkene wax and 1-3 are for aryl oxide dendritic phthalocyanine complex load SiO2According to percentage of weight formula precise, then will weigh Each group afterwards is placed in high-speed mixer and is uniformly mixed, and obtains mixture;
B. mixture is made into material by double screw extruder melting extrusion, obtains blended particles, barrel temperature is followed successively by 173,182,185,193,198,205,213,220,215,208 DEG C, screw speed 145rpm/min;
C., blended particles are added to progress extrusioning shaping winding in the single screw extrusion machine of 3D wire rod production line, obtain 3D Wire rod is printed, barrel temperature is followed successively by 175,186,205,220,218 DEG C, screw speed 40rpm/min.
Embodiment 4
1, a kind of PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2Composite wire, which is characterized in that according to Percentage of weight formula is as follows:
PETG 60
PVA 12
1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2 18
Glycerol 6
Calcium hydroxide 2
Stearic acid 2.
2, the above-mentioned PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2The preparation method of composite wire, including Following steps:
A. PETG and calcium hydroxide are dried in vacuo respectively, then by PETG, PVA, glycerol, calcium hydroxide, stearic acid and 1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2It, then will be each after weighing according to percentage of weight formula precise Group is placed in high-speed mixer and is uniformly mixed, and obtains mixture;
B. mixture is made into material by double screw extruder melting extrusion, obtains blended particles, barrel temperature is followed successively by 170,183,190,195,200,205,213,218,220,215 DEG C, screw speed 200rpm/min;
C., blended particles are added to progress extrusioning shaping winding in the single screw extrusion machine of 3D wire rod production line, obtain 3D Wire rod is printed, barrel temperature is followed successively by 175,190,205,220,215 DEG C, screw speed 45rpm/min.
Embodiment 5
1, a kind of PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2Composite wire, which is characterized in that according to Percentage of weight formula is as follows:
PETG 65
PVA 14
1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2 13
Ethylene glycol 4
Calcium oxide 2.5
Polyethylene wax 1.5.
2, the above-mentioned PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2The preparation method of composite wire, including Following steps:
A. PETG and calcium oxide are dried in vacuo respectively, then by PETG, PVA, ethylene glycol, calcium oxide, polyethylene wax and 1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2It, then will be each after weighing according to percentage of weight formula precise Group is placed in high-speed mixer and is uniformly mixed, and obtains mixture;
B. mixture is made into material by double screw extruder melting extrusion, obtains blended particles, barrel temperature is followed successively by 170,180,185,195,200,205,215,220,215,213 DEG C, screw speed 120rpm/min;
C., blended particles are added to progress extrusioning shaping winding in the single screw extrusion machine of 3D wire rod production line, obtain 3D Wire rod is printed, barrel temperature is followed successively by 175,190,203,220,215 DEG C, screw speed 28rpm/min.
Note: 1-3 used in above-described embodiment 1-5 loads SiO for aryl oxide dendritic phthalocyanine complex2Before inventor " 1-3 loads SiO for aryl oxide dendritic phthalocyanine complex to the patent of invention of phase authorization2The preparation method of visible-light photocatalyst and The product that its application " (ZL2014108005249) prepares, specific product is using Patent No. 2014108005249 The product that any preparation method in the disclosed i.e. following specific example 1-3 of specification is prepared into, the specific steps are as follows:
The 1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2The preparation method of visible-light photocatalyst, including Following steps:
(1) configure containing volume fraction be 70%~95% isopropanol water solution or volume fraction be 70%~95% ethyl alcohol 50~80 mL of mother liquor of aqueous solution;
(2) concentrated ammonia liquor is added into the solution of step (1) and adjusts pH value 7~12, water of the mixed solution at 30 DEG C~70 DEG C It is uniformly mixed under the conditions of bath;
(3) it is 0.001~0.02 mol/L that into the solution of step (2), addition volume, which is 0.2 milliliter~1.5 milliliters concentration, 1-3 for aryl oxide dendritic phthalocyanine complex n,N-Dimethylformamide stock solution, make after stirring its be uniformly mixed;
(4) ethyl orthosilicate is added into the solution of step (3), continuing 4~12 h of stirring is fully hydrolyzed it, finally will Solution filtering, washing, catalyst required for 60 DEG C~110 DEG C drying to obtain.
Above-mentioned 1-3 is zinc, copper, cobalt or iron for the central atom in aryl oxide dendritic phthalocyanine complex.
Specific example 1
(1) 8 milliliters of distilled water are added in 50 milliliters of isopropanol, are stirred evenly under 65 DEG C of water bath conditions;
(2) be added into mixed solution 1 milliliter of concentrated ammonia liquor and 1 milliliter of 1-3 for aryl oxide dendritic phthalocyanine complex (in Heart atom is zinc) stock solution (0.02 mol/L), continues to stir 5 min;
(3) ethyl orthosilicate of 8 mL is added into solution, continuing 12 h of stirring is fully hydrolyzed it, finally by solution mistake Filter, washing (isopropanol wash 3 times 10 milliliters every time, 10 milliliters every time of distillation water washing 5 times), by solid in 70 DEG C of conditions Lower drying obtains required 1-3 for aryl oxide dendritic phthalocyanine complex (central atom is zinc) and loads SiO2Catalyst.
Specific example 2
(1) 10 milliliters of distilled water are added in 50 milliliters of dehydrated alcohol, are stirred evenly under 65 DEG C of water bath conditions;
(2) 1 milliliter of concentrated ammonia liquor and 0.5 milliliter of 1-3 are added into mixed solution for aryl oxide dendritic phthalocyanine complex (central atom is zinc) stock solution (0.01 mol/L) continues to stir 5 min;
(3) ethyl orthosilicate of 8 mL is added into solution, continuing 8 h of stirring is fully hydrolyzed it, finally by solution mistake Filter, washing (isopropanol wash 3 times 10 milliliters every time, 10 milliliters every time of distillation water washing 5 times), by solid in 70 DEG C of conditions Lower drying obtains required 1-3 for aryl oxide dendritic phthalocyanine complex (central atom is zinc) and loads SiO2Catalyst.
Specific example 3
(1) 8 milliliters of distilled water are added in 50 milliliters of isopropanol, are stirred evenly under 65 DEG C of water bath conditions;
(2) 0.46 milliliter of concentrated ammonia liquor and 1 milliliter of 1-3 are added into mixed solution for aryl oxide dendritic phthalocyanine complex (central atom is zinc) stock solution (0.02 mol/L) continues to stir 5 min;
(3) ethyl orthosilicate of 8 mL is added into solution, continuing 12 h of stirring is fully hydrolyzed it, finally by solution mistake Filter, washing (isopropanol wash 3 times 10 milliliters every time, 10 milliliters every time of distillation water washing 5 times), by solid in 70 DEG C of conditions Lower drying, obtains required catalyst.
Above-mentioned specific embodiment is the further description to the present patent application, but the claims in the present invention are protected Range be not limited to range described in embodiment, it is all using equivalent replacement or the technical solution of equivalent deformation, Fall in the protection scope of the claims in the present invention.

Claims (7)

1. a kind of PETG/ dendritic phthalocyanine with photocatalysis effect loads SiO2Composite wire, which is characterized in that by following Weight percent composition is made:
PETG 50-70
PVA 10-30
1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2 5-20
Plasticizer 3-10
Stabilizer 2-5
Dispersing agent 0.5-2;
The 1-3 loads SiO for aryl oxide dendritic phthalocyanine complex2The preparation method of visible-light photocatalyst, including walk as follows It is rapid:
(1) configure containing volume fraction be 70%~95% isopropanol water solution or volume fraction be 70%~95% ethyl alcohol it is water-soluble 50~80 mL of mother liquor of liquid;
(2) concentrated ammonia liquor is added into the solution of step (1) and adjusts pH value 7~12, water-bath item of the mixed solution at 30 DEG C~70 DEG C It is uniformly mixed under part;
(3) it is the 1- that 0.2 milliliter~1.5 milliliters of concentration are 0.001~0.02 mol/L that volume is added into the solution of step (2) The n,N-Dimethylformamide stock solution of 3 generation aryl oxide dendritic phthalocyanine complexes is uniformly mixed it after stirring;
(4) ethyl orthosilicate is added into the solution of step (3), continuing 4~12 h of stirring is fully hydrolyzed it, finally by solution Filtering, washing, catalyst required for 60 DEG C~110 DEG C drying to obtain;
Above-mentioned 1-3 is zinc, copper, cobalt or iron for the central atom in aryl oxide dendritic phthalocyanine complex.
2. a kind of PETG/ dendritic phthalocyanine with photocatalysis effect according to claim 1 loads SiO2Composite wire, It is characterized in that, the plasticizer is at least a kind of to be selected from glycerol, ethylene glycol, polyethylene glycol.
3. a kind of PETG/ dendritic phthalocyanine with photocatalysis effect according to claim 1 loads SiO2Composite wire, It is characterized in that, the stabilizer is at least a kind of to be selected from calcium hydroxide, calcium oxide, magnesium hydroxide.
4. a kind of PETG/ dendritic phthalocyanine with photocatalysis effect according to claim 1 loads SiO2Composite wire, It is characterized in that, the dispersing agent is at least a kind of to be selected from stearic acid, polyethylene wax, oxidized polyethylene wax.
5. a kind of PETG/ dendritic phthalocyanine load SiO with photocatalysis effect described in claim 1-4 any one2It is compound The preparation method of wire rod, which comprises the following steps:
A. PETG and stabilizer are dried in vacuo respectively, then by PETG, PVA, plasticizer, stabilizer, dispersing agent and 1-3 generation virtue Ether dendritic phthalocyanine complex loads SiO2According to percentage of weight formula precise, then each group after weighing is placed in It is uniformly mixed in high-speed mixer, obtains mixture;
B. mixture to be made into material by double screw extruder melting extrusion, obtains blended particles, barrel temperature is 170-230 DEG C, Screw speed is 50-300rpm/min;
C., blended particles are added to progress extrusioning shaping winding in the single screw extrusion machine of 3D wire rod production line, obtain 3D printing Wire rod, barrel temperature are 170-230 DEG C, screw speed 10-100rpm/min.
6. a kind of PETG/ dendritic phthalocyanine according to claim 1 to 4 with photocatalysis effect loads SiO2It is compound PETG/ dendritic phthalocyanine made from wire rod or preparation method according to claim 5 loads SiO2The application of composite wire, It is characterized by: the PETG/ dendritic phthalocyanine loads SiO2Composite wire is applied to 3D printing field.
7. a kind of PETG/ dendritic phthalocyanine according to claim 1 to 4 with photocatalysis effect loads SiO2It is compound PETG/ dendritic phthalocyanine made from wire rod or preparation method according to claim 5 loads SiO2The application of composite wire, It is characterized by: the PETG/ dendritic phthalocyanine loads SiO2Composite wire is applied to catalytic degradation phenol.
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CN109880313B (en) * 2019-02-11 2021-07-02 福建师范大学 Dendritic phthalocyanine @ SiO2Water treatment device and preparation method thereof
CN109878069B (en) * 2019-02-11 2020-11-24 福建师范大学 Dendritic phthalocyanine @ SiO2Preparation method of photocatalytic device
CN112126199B (en) * 2020-09-24 2022-10-11 福建师范大学 PETG/TPA-SiPc @ SiO with photocatalysis effect 2 Composite wire and preparation method thereof
CN112552652A (en) * 2020-10-28 2021-03-26 银金达(上海)新材料有限公司 Degradable PETG material and application thereof
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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101580506A (en) * 2009-05-26 2009-11-18 福建师范大学 1-3 generation arylene ether dendritic phthalocyanine complex and polymer nano-particle thereof
CN104475167A (en) * 2014-12-21 2015-04-01 福建师范大学 Preparation method and application of 1-3-substituted aryl ether dendritic phthalocyanine complex-modified TiO2 visible light catalyst
CN104475159A (en) * 2014-12-21 2015-04-01 福建师范大学 Preparation method and application of 1-3-generation poly (aryl ether) dendritic phthalocyanine complex loaded SiO2 visible light photocatalyst
CN105524399A (en) * 2015-12-29 2016-04-27 银禧工程塑料(东莞)有限公司 A 3D printing polymer material and a preparing method thereof

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101580506A (en) * 2009-05-26 2009-11-18 福建师范大学 1-3 generation arylene ether dendritic phthalocyanine complex and polymer nano-particle thereof
CN104475167A (en) * 2014-12-21 2015-04-01 福建师范大学 Preparation method and application of 1-3-substituted aryl ether dendritic phthalocyanine complex-modified TiO2 visible light catalyst
CN104475159A (en) * 2014-12-21 2015-04-01 福建师范大学 Preparation method and application of 1-3-generation poly (aryl ether) dendritic phthalocyanine complex loaded SiO2 visible light photocatalyst
CN105524399A (en) * 2015-12-29 2016-04-27 银禧工程塑料(东莞)有限公司 A 3D printing polymer material and a preparing method thereof

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