CN108336375A - A kind of serrated metal nano wire-carbon-based fuel cell catalyst and preparation method - Google Patents

Abstract

The present invention provides a kind of serrated metal nano wire carbon-based fuel cell catalyst and preparation methods.Mantoquita is soluble in water with nickel salt, reducing agent, complexant and surfactant is added after adjusting acid-base value, corronil nano wire is made, tetraphenylporphyrin association reaction is added ,/nanowire composite is made, carbon structure is calcined in vacuum environment high temperature, and clad alloy skeleton, and electrophoresis leaches nickel, obtains serrated metal nano wire carbon-based fuel cell catalyst.Composite catalyst made from this method possesses more active site with zigzag skeleton, large specific surface area, good dispersion, surface, catalytic activity is high, and catalytic performance is good, and preparation process is simple, raw material is easy to get, and manufacturing cost is cheap, is expected to catalyst choice of the substitution noble metal platinum as fuel cell.

Description

A kind of serrated metal nano wire-carbon-based fuel cell catalyst and preparation method

Technical field

The present invention relates to fuel cell fields, and in particular to the technology of preparing of catalyst, more particularly to a kind of zigzag Metal nanometer line-carbon-based fuel cell catalyst and preparation method.

Background technology

Fuel cell be it is a kind of it is clean, with consume renewable small-molecule substance supplying power for outside high efficient energy sources convert dress It sets.Different from traditional to consume the one-shot battery and secondary cell that itself chemical energy externally energizes, fuel cell is one and opens The system put, it is the reaction by being catalyzed between foreign substance and isothermal is low will be stored in the chemistry between fuel and oxidant Electric energy can be converted into provide to external circuit acting.Fuel cell be it is a kind of without burning directly in a manner of electrochemical reaction The chemical energy of fuel is changed into the power generator of electric energy, is that a high efficiency utilizes the energy and new skill free from environmental pollution Art is widely used to the every field such as fuel cell plant, electric vehicle, high effective portable power supply, has extremely wide Application prospect.

The building block of fuel cell mainly have catalyst, dielectric film, gas diffusion layers, membrane electrode assembly, bipolar plates, Fuel cell pile etc..Wherein catalyst is one of critical material of fuel cell, and effect is to reduce the activation energy of reaction, is promoted Into oxidation-reduction process, the raising reaction rate of hydrogen, oxygen on the electrode.Currently, catalyst is mainly carbon supported platinum-based catalyst. But platinum based catalyst is existed simultaneously stability problem by cost and resource restriction, by fuel cell decay Analysis on Mechanism it is found that Under running conditions of vehicle, catalyst can decay fuel cell, and Pt nanoparticle such as can occur under electrokinetic potential effect Reunite, migration, be lost in, high potential leads to catalyst carbon support caused by generating hydrogen sky interface in open circuit, idling and shutdown process Corrosion, so as to cause catalyst loss.Therefore, for cost and endurance issues existing for current commercial catalyst, research Novel high-stability, the low platinum of high activity or non-platinum catalyst are current hot spots.

Chinese invention patent application number 201210120922.7 discloses a kind of fuel cell carbon supported core-shell copper palladium-platinum Catalyst and preparation method thereof.Carrier is made by conductive carbon black, active component is the copper pallas with coreshell type structure, wherein Copper palladium is core, and platinum is shell, and mass percentage composition is：Conductive carbon black 70 ~ 91%, copper 2 ~ 10%, palladium 2 ~ 10%,：5 ~ 10%.

Chinese invention patent application number 201210296525.5 discloses a kind of system of catalyst of nanometer carbon-base fuel cell Carbon nanotube or graphene are mainly positioned over stirring in the container for containing dimethylformamide first, disperseed by Preparation Method, then into Row mechanical lapping is washed respectively to remove dimethylformamide with ethyl alcohol and distilled water after the product filtering after grinding, is done Up to catalyst of nanometer carbon-base fuel cell after dry.

Chinese invention patent application number 201410832089.8 discloses a kind of carbon-based composite fuel battery negative pole oxygen also Raw catalyst and preparation method thereof, the invention carbon-based composite fuel battery negative pole oxygen reduction catalyst are Jie of molybdenum ion doping Hole carbon-graphite alkene complex first uses the synthesising mesoporous carbon-graphite alkene precursor of soft template method, and adulterates molybdenum ion in situ, then exists It is calcined under argon gas atmosphere, obtains carbon-based composite fuel battery negative pole oxygen reduction catalyst.

It is anode-catalyzed that Chinese invention patent application number 201610901142.4 discloses a kind of load type carbon base fuel battery Agent material, the invention use two-step method technology of preparing, first with organic ligand trimesic acid and copper acetate in N, N- diformazans Base formamide, second alcohol and water mixed solution in self assembly obtain porous metals organic framework materials, by it is a series of carbonization and Meso-porous carbon material is obtained after acid etch processing, ultrasonic assisted technique is then utilized, noble metal Pt nanoparticle is loaded to mesoporous On carbon material, finally prepare that nano platinum particle is evenly distributed, particle size is uniform, the catalyst material of a diameter of 2 ~ 3 nm Material.

According to above-mentioned, for the platinum based catalyst of fuel cell there are of high cost in existing scheme, durability is poor, stability The problems such as poor, and the non-platinum based catalyst studied and applied at present is serious there are reuniting in preparation process, specific surface area is low, catalysis The defects such as activity is low, and catalytic efficiency is low, and preparation process is complicated, and cost is still higher.

Invention content

Of high cost for the wider platinum based catalyst of current application, durability is poor, and stability is poor, and specific surface area is low, catalysis The problems such as activity is low, a kind of serrated metal nano wire-carbon-based fuel cell catalyst of present invention proposition and preparation method, to The catalytic activity of non-platinum based catalyst is effectively increased, while cheap, is expected to substitution noble metal platinum as fuel cell Catalyst choice.

Specific technical solution of the present invention is as follows：

A kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst, preparation process are：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；

（2）Step is added in tetraphenylporphyrin（1）System in, so that tetraphenylporphyrin is combined with corronil nano wire, inhibit Nanowire composite is made in the reunion of corronil nano wire；

（3）By step（2）Composite material obtained is placed in vacuum environment, and high-temperature calcination carbonization forms carbon coating alloy skeleton；

（4）By step（3）Obtained carbon coating alloy skeleton is placed in progress electrophoresis in low voltage electric field and leaches, and makes nickle atom from alloy It is detached from phase, remaining copper-carbon skeleton is serrated structure, obtains serrated metal nano wire-carbon-based fuel cell catalysis Agent.

Preferably, a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst, each raw material are pressed Parts by weight are calculated as：15 ~ 20 parts of mantoquita, 12 ~ 15 parts of nickel salt, 28 ~ 47.5 parts of water, 3 ~ 5 parts of reducing agent, 2 ~ 3 parts of complexant, surface are lived 0.5 ~ 1 part of agent of property, 20 ~ 28 parts of tetraphenylporphyrin.

Preferably, the mantoquita is at least one of copper chloride, copper nitrate or copper sulphate.

Preferably, the nickel salt is at least one of nickel chloride, nickel sulfate, nickel nitrate or nickel acetate.

Preferably, the reducing agent is one kind in propylene glycol, ethyl alcohol or oxalic acid.

Preferably, the complexant is at least one of citric acid, succinic acid, glycine or malic acid.

Preferably, the surfactant is one kind in propyl naphthalene sulfonate, butyl naphthalene sulfonate or alkyl sulfate.

Preferably, the pH value of the mixed solution is 7.5 ~ 8.5；

Preferably, the temperature of the high-temperature calcination is 400 ~ 600 DEG C, and the time is 2 ~ 3h；

Preferably, the voltage of electric field that the electrophoresis leaches is 150 ~ 200V.

A kind of serrated metal nano wire-carbon-based fuel cell catalyst being prepared by the above method.

The preparation method of the present invention is combined by corronil with organic phase, is formed reticular structure by organic phase, is inhibited Nano metal is reunited, and improves its specific surface area and active site, the carbon structure after high temperature cabonization is evenly coated at outside metallic framework Layer, is leached by electrophoresis, the nickle atom in copper-nickel alloy is made to be detached from from alloy, remaining copper skeleton is serrated, table later Face forms the unsaturated defect of many coordinations, can improve catalytic performance.

New catalyst proposed by the present invention has the catalytic performance similar with platinum base, and manufacturing cost is cheap, is expected to Replace catalyst choice of the noble metal platinum as fuel cell.

It is and existing the present invention provides a kind of serrated metal nano wire-carbon-based fuel cell catalyst and preparation method Technology is compared, and the feature and excellent effect protruded is：

1, it proposes progress high temperature cabonization after being combined with organic phase using corronil and prepares serrated metal nano wire-carbon-based combustion Expect the method for cell catalyst.

2, reticular structure is formed through organic phase by corronil, then high temperature cabonization rear electrophoresis leaches, and obtains zigzag Remaining copper skeleton, large specific surface area, good dispersion, catalytic performance is good.

3, the more active site formed by dentalation copper-carbon composite catalytic agent surface has been obviously improved catalysis and has lived Property and catalytic efficiency.

4, preparation process of the invention is relatively simple, and using base metal, raw material is easy to get, and manufacturing cost is cheap, is expected to take Catalyst choice for noble metal platinum as fuel cell.

Specific implementation mode

In the following, the present invention will be further described in detail by way of specific embodiments, but this should not be interpreted as to the present invention Range be only limitted to example below.Without departing from the idea of the above method of the present invention, according to ordinary skill The various replacements or change that knowledge and customary means are made, should be included in the scope of the present invention.

Embodiment 1

Raw material is calculated as by weight：18 parts of mantoquita, 13 parts of nickel salt, 38 parts of water, 4 parts of reducing agent, 2 parts of complexant, surfactant 1 Part, 24 parts of tetraphenylporphyrin；Mantoquita is copper chloride；Nickel salt is nickel chloride；Reducing agent is propylene glycol；Complexant is citric acid；Table Face activating agent is propyl naphthalene sulfonate；Preparation process is：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；The pH value of mixed solution is 8；

（2）Step is added in tetraphenylporphyrin（1）System in, so that tetraphenylporphyrin is combined with nano wire, inhibit nanometer Nanowire composite is made in the reunion of alloy；

（3）By step（2）Composite material obtained is placed in vacuum environment, high-temperature calcination carbonization, and clad alloy skeleton；High temperature The temperature of calcining is 500 DEG C, time 2.5h；

（4）It is placed in progress electrophoresis in low voltage electric field to leach, so that nickle atom is detached from from alloy phase, remaining copper-carbon skeleton is in saw Dentalation obtains serrated metal nano wire-carbon-based fuel cell catalyst；The heating temperature of drying is 130 DEG C, the time For 5h；The voltage of electric field that electrophoresis leaches is 180V.

Laciniation copper-carbon composite catalytic agent prepared by embodiment 1, specific surface area, catalytic efficiency are as shown in table 1.

Embodiment 2

Raw material is calculated as by weight：15 parts of mantoquita, 12 parts of nickel salt, 47.5 parts of water, 3 parts of reducing agent, 2 parts of complexant, surface-active 0.5 part of agent, 20 parts of tetraphenylporphyrin；Mantoquita is copper nitrate；Nickel salt is nickel sulfate；Reducing agent is ethyl alcohol；Complexant is succinic acid； Surfactant is butyl naphthalene sulfonate；

Preparation process is：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；The pH value of mixed solution is 7.5；

（2）Step is added in tetraphenylporphyrin（1）System in, so that tetraphenylporphyrin is combined with nano wire, inhibit nanometer Nanowire composite is made in the reunion of alloy；

（3）By step（2）Composite material obtained is placed in vacuum environment, high-temperature calcination carbonization, and clad alloy skeleton；High temperature The temperature of calcining is 400 DEG C, time 3h；

（4）It is placed in progress electrophoresis in low voltage electric field to leach, so that nickle atom is detached from from alloy phase, remaining copper-carbon skeleton is in saw Dentalation obtains serrated metal nano wire-carbon-based fuel cell catalyst；The heating temperature of drying is 120 DEG C, the time For 6h；The voltage of electric field that electrophoresis leaches is 150V.

Laciniation copper-carbon composite catalytic agent prepared by embodiment 2, specific surface area, catalytic efficiency are as shown in table 1.

Embodiment 3

Raw material is calculated as by weight：20 parts of mantoquita, 15 parts of nickel salt, 28 parts of water, 5 parts of reducing agent, 3 parts of complexant, surfactant 1 Part, 28 parts of tetraphenylporphyrin；Mantoquita is copper sulphate；Nickel salt is nickel nitrate；Reducing agent is oxalic acid；Complexant is glycine；Surface Activating agent is alkyl sulfate；

Preparation process is：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；The pH value of mixed solution is 8.5；

（2）Step is added in tetraphenylporphyrin（1）System in, so that tetraphenylporphyrin is combined with nano wire, inhibit nanometer Nanowire composite is made in the reunion of alloy；

（3）By step（2）Composite material obtained is placed in vacuum environment, high-temperature calcination carbonization, and clad alloy skeleton；High temperature The temperature of calcining is 600 DEG C, time 2h；

（4）It is placed in progress electrophoresis in low voltage electric field to leach, so that nickle atom is detached from from alloy phase, remaining copper-carbon skeleton is in saw Dentalation obtains serrated metal nano wire-carbon-based fuel cell catalyst；The heating temperature of drying is 140 DEG C, the time For 4h；The voltage of electric field that electrophoresis leaches is 200V.

Laciniation copper-carbon composite catalytic agent prepared by embodiment 3, specific surface area, catalytic efficiency are as shown in table 1.

Embodiment 4

Raw material is calculated as by weight：16 parts of mantoquita, 13 parts of nickel salt, 42.4 parts of water, 3 parts of reducing agent, 3 parts of complexant, surface-active 0.6 part of agent, 22 parts of tetraphenylporphyrin；Mantoquita is copper chloride；Nickel salt is nickel acetate；Reducing agent is propylene glycol；Complexant is apple Acid；Surfactant is propyl naphthalene sulfonate；Preparation process is：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；The pH value of mixed solution is 8；

（2）Step is added in tetraphenylporphyrin（1）System in, so that tetraphenylporphyrin is combined with nano wire, inhibit nanometer Polymer/nano line composite material is made in the reunion of alloy；

（3）By step（2）Composite material obtained is placed in vacuum environment, high-temperature calcination carbonization, and clad alloy skeleton；High temperature The temperature of calcining is 450 DEG C, time 3h；

（4）It is placed in progress electrophoresis in low voltage electric field to leach, so that nickle atom is detached from from alloy phase, remaining copper-carbon skeleton is in saw Dentalation obtains serrated metal nano wire-carbon-based fuel cell catalyst；The heating temperature of drying is 125 DEG C, the time For 6h；The voltage of electric field that electrophoresis leaches is 160V.

Laciniation copper-carbon composite catalytic agent prepared by embodiment 4, specific surface area, catalytic efficiency are as shown in table 1.

Embodiment 5

Raw material is calculated as by weight：18 parts of mantoquita, 14 parts of nickel salt, 34.2 parts of water, 4 parts of reducing agent, 3 parts of complexant, surface-active 0.8 part of agent, 26 parts of tetraphenylporphyrin；Mantoquita is copper nitrate；Nickel salt is nickel chloride；Reducing agent is ethyl alcohol；Complexant is citric acid； Surfactant is butyl naphthalene sulfonate；

Preparation process is：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；The pH value of mixed solution is 8.5；

（2）Step is added in tetraphenylporphyrin（1）System in, so that tetraphenylporphyrin is combined with nano wire, inhibit nanometer Nanowire composite is made in the reunion of alloy；

（3）By step（2）Composite material obtained is placed in vacuum environment, high-temperature calcination carbonization, and clad alloy skeleton；High temperature The temperature of calcining is 550 DEG C, time 2h；

（4）It is placed in progress electrophoresis in low voltage electric field to leach, so that nickle atom is detached from from alloy phase, remaining copper-carbon skeleton is in saw Dentalation obtains serrated metal nano wire-carbon-based fuel cell catalyst；The heating temperature of drying is 135 DEG C, the time For 4.5h；The voltage of electric field that electrophoresis leaches is 180V.

Laciniation copper-carbon composite catalytic agent prepared by embodiment 5, specific surface area, catalytic efficiency are as shown in table 1.

Comparative example 1

Raw material is calculated as by weight：18 parts of mantoquita, 14 parts of nickel salt, 34.2 parts of water, 4 parts of reducing agent, 3 parts of complexant, surface-active 0.8 part of agent, 26 parts of carbon dust；Mantoquita is copper nitrate；Nickel salt is nickel chloride；Reducing agent is ethyl alcohol；Complexant is citric acid；It lives on surface Property agent be butyl naphthalene sulfonate；

Preparation process is：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；The pH value of mixed solution is 8.5；

（2）Step is added in carbon dust（1）System in, so that carbon dust is combined with nano wire, nano wire composite catalyst be made.

Laciniation copper nano-wire catalyst prepared by comparative example 1, specific surface area, catalytic efficiency are as shown in table 1.

The catalyst that embodiment 1-5, comparative example 1 obtain is dispersed in respectively in perfluorocarbon sulfonate resin and water, is coated on On the two sides of perfluorocarbon sulfonate resin film, current density test is carried out in oxygen-hydrogen fuel cell under same coating layer thickness.Such as Shown in table 1.

Table 1：

Claims (10)

1. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst, preparation process are：

（1）Mantoquita is soluble in water with nickel salt, and the acid-base value for adjusting mixed solution is alkalinity, and solution is placed in nitrogen atmosphere, Reducing agent, complexant and surfactant is added, reacts and corronil nano wire is made；

（2）Step is added in tetraphenylporphyrin（1）System in, so that tetraphenylporphyrin is combined with corronil nano wire, inhibit Nanowire composite is made in the reunion of corronil nano wire；

（3）By step（2）Composite material obtained is placed in vacuum environment, and high-temperature calcination carbonization forms carbon coating alloy skeleton；

（4）By step（3）Obtained carbon coating alloy skeleton is placed in progress electrophoresis in low voltage electric field and leaches, and makes nickle atom from alloy It is detached from phase, remaining copper-carbon skeleton is serrated structure, obtains serrated metal nano wire-carbon-based fuel cell catalysis Agent.

2. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：A kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst, each raw material is by weight For：15 ~ 20 parts of mantoquita, 12 ~ 15 parts of nickel salt, 28 ~ 47.5 parts of water, 3 ~ 5 parts of reducing agent, 2 ~ 3 parts of complexant, surfactant 0.5 ~ 1 part, 20 ~ 28 parts of tetraphenylporphyrin.

3. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：The mantoquita is at least one of copper chloride, copper nitrate or copper sulphate.

4. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：The nickel salt is at least one of nickel chloride, nickel sulfate, nickel nitrate or nickel acetate.

5. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：The reducing agent is one kind in propylene glycol, ethyl alcohol or oxalic acid.

6. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：The complexant is at least one of citric acid, succinic acid, glycine or malic acid；The surfactant is One kind in propyl naphthalene sulfonate, butyl naphthalene sulfonate or alkyl sulfate.

7. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：The pH value of the mixed solution is 7.5 ~ 8.5.

8. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：The temperature of the high-temperature calcination is 400 ~ 600 DEG C, and the time is 2 ~ 3h.

9. a kind of preparation method of serrated metal nano wire-carbon-based fuel cell catalyst according to claim 1, special Sign is：The voltage of electric field that the electrophoresis leaches is 150 ~ 200V.

10. a kind of serrated metal nano wire-carbon-based fuel cell that any one of claim 1-9 the methods are prepared is urged Agent.