CN104091922B - Mo0.5W0.5S2Nanometer watt/Graphene electrochemistry storage sodium combination electrode and preparation method - Google Patents

Abstract

The invention discloses a kind of Mo_0.5W_0.5S_2-Nanometer watt/Graphene electrochemistry storage sodium combination electrode and preparation method thereof, its electrochemistry storage sodium active material is Mo_0.5W_0.5S_2-The composite nano materials of nanometer watt/Graphene, Mo in composite nano materials_0.5W_0.5S₂With the ratio of the amount of substance of Graphene be 1:2, Mo_0.5W_0.5S₂The nanometer watt layer structure for few number of plies, the average number of plies is 3-5 layer, the component of combination electrode and mass percentage content thereof are: Mo_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials is 80%, and conductive acetylene is black 10%, carboxymethyl cellulose 5%, Kynoar 5%. Preparation process: first prepare Mo_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials, then with acetylene black and Kynoar furnishing slurry, is coated onto Copper Foil roll extrusion and obtains. Combination electrode of the present invention has high electrochemistry storage sodium capacity.

Description

Mo0.5W0.5S2Nanometer watt/Graphene electrochemistry storage sodium combination electrode and preparation method

Technical field

The present invention relates to electrochemistry storage sodium electrode and preparation method thereof, relate in particular to and use Mo_0.5W_0.5S₂Nanometer watt/GrapheneComposite nano materials is prepared the preparation method of electrochemistry storage sodium combination electrode, belongs to inorganic composite nano material, new energy technologyField.

Background technology

Along with the development of modern mobile communication, new-energy automobile and intelligent grid, novel electrochmical power source is in modern societyIn played more and more important effect. Traditional secondary cell, if lead-acid accumulator is because it is containing harmful metallic element Pb,Its application is restricted. Lithium ion battery has the excellent properties such as high specific energy, memory-less effect, environmental friendliness, is movingIn the Portable movable such as mobile phone and notebook computer electrical equipment, be widely used. As electrokinetic cell, lithium ion batteryAlso be with a wide range of applications at aspects such as electric bicycle, electric automobile and intelligent grids. But due to lithium ion batteryNever solution carefully and lithium resource limited of security, lithium ion battery is wide as electrokinetic cell and storage batteryGeneral application is still subject to certain restrictions. Along with the development of new-energy automobile and the large-scale application of storage battery are in the urgent need to seekingLook for a kind of energy to substitute the secondary cell of a kind of cheapness, environmental friendliness and the height ratio capacity of existing secondary cell system. Due to divalenceSodium ion has less radius, can electrochemical intercalation and deintercalation in the compound of some layer of structure, as transition metal sulfurationThing MoS₂And WS₂Deng. Sodium also has aboundresources in addition, cheap, specific energy is high, nontoxic and process the advantages such as convenient. Therefore,Chargeable sodium-ion battery also becomes the research system of a new secondary cell in recent years. But up to the present as high propertyThe electrode material of the electrochemistry storage sodium of energy or little.

MoS₂And WS₂Having and layer structure like graphite-like, is the S-M-S (M=of very strong covalent bonds in its layerMo, W), be weak Van der Waals force between layers. MoS₂And WS₂Weak interlaminar action power and larger interlamellar spacing permitPerhaps react at its interlayer and introduce external atom or molecule by insertion. Such characteristic makes MoS₂And WS₂Material can be used asInsert the material of main part of reaction. Therefore, MoS₂And WS₂A kind of electrode material of rising electrochemistry storage sodium, stillGeneral MoS₂And WS₂Its electrochemistry storage sodium poor-performing of material, its electrochemistry storage sodium capacity is lower, only has 50-100mAh/g。

Two-dimensional nano material has the characteristic of numerous excellences with its unique pattern, its research has caused that people's is greatly emergingInterest. Graphene is most typical two-dimensional nano material, and its unique two-dimensional nano chip architecture makes physics, the chemistry of its numerous uniquenessesWith performances such as mechanics, there is important scientific research meaning and technology application prospect widely. Graphene has high ratio tableArea, high conduction and heat conductivility, high charge mobility, excellent mechanical property, these excellent characteristics make graphiteAlkene is before nano electron device, the novel field such as catalyst material and electrochemistry energy storage and energy conversion have a wide range of applicationsScape.

The immense success that the discovery of Graphene and research thereof obtain has excited people to grind other inorganic two-dimensional nano materialsThe very big interest of studying carefully, if the transition metal dichalcogenide of individual layer or few number of plies etc. is (as MoS₂And WS₂). Recently, Graphene conceptExpand to the inorganic compound of other layer structures from material with carbon element, namely for the inorganic material of layer structure, when itWhen the number of plies reduces (8 layers are following), while especially reducing to individual layer, its electronic property or band structure can produce obvious variation,Thereby cause it to show the physics and chemistry characteristic different from corresponding body phase material. Except Graphene, as body phase MoS₂WithWS₂Reduce to few number of plies when individual layer (especially), shown and the visibly different physics of body phase material, chemical characteristic. Research tableThe MoS of bright individual layer or few number of plies₂And WS₂Nanometer sheet has better electrochemistry storage sodium performance. But as electrochemistry storage sodiumElectrode material, MoS₂And WS₂Low electric conductivity between layers affected the performance of its application.

Due to MoS₂And WS₂Nanometer sheet and Graphene have similar two-dimensional nano sheet pattern, both at microscopic appearance andOn crystal structure, there is good similitude. If by MoS₂And WS₂The composite wood of nanometer sheet and the compound preparation of GrapheneMaterial, the high conduction performance of graphene nanometer sheet can further improve the electric conductivity of composite, strengthens electrochemistry storage sodium electricityElectronics transmission in utmost point course of reaction, can further improve the electrochemistry of composite and store sodium performance. With common MoS₂And WS₂Nanometer sheet comparison, the MoS of little nanometer watt shape pattern₂And WS₂Not only there is more edge, more short sodium can be providedIon diffusion admittance, and load on Graphene, more contact area there is with electrolyte. Therefore MoS₂And WS₂NanometerWatt/composite nano materials of Graphene can show the electrochemistry storage sodium performance of enhancing.

In addition, research is also found as electrochemistry storage sodium electrode material, MoS₂Nano material compares WS₂Nano material hasHigh electrochemistry storage sodium reversible capacity, and WS₂Nano material compares MoS₂Nano material has good high rate during charging-discharging,Therefore, MoS₂And WS₂It is comprehensive that the compound heterogeneous stratified material of bi-material should have as electrochemistry storage sodium materialEnergy. Therefore, Mo_0.5W_0.5S₂The composite nano materials of nanometer watt/Graphene has widely as electrochemistry storage sodium electrode materialApplication and the chemical property strengthening.

But, up to the present, use Mo_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials is as electro-chemical activity thingElectrochemistry storage sodium combination electrode and the preparation thereof of matter have not been reported. The present invention first use graphene oxide, ammonium thiomolybdate andSulfo-ammonium tungstate etc. is raw material, and the hydrothermal method of assisting by Gemini surface active agent and heat treatment subsequently, preparedMo_0.5W_0.5S₂The composite nano materials of nanometer watt/Graphene, then uses Mo_0.5W_0.5S₂The composite Nano material of nanometer watt/GrapheneMaterial, as the active material of electrochemistry storage sodium, has been prepared the combination electrode of electrochemistry storage sodium. This preparation Mo_0.5W_0.5S₂NanometerWatt/method of Graphene composite nano materials electrochemistry storage sodium combination electrode has simply, facilitates and is easy to expand industrialization shouldWith a little.

Summary of the invention

The object of the present invention is to provide a kind of Mo_0.5W_0.5S₂Nanometer watt/Graphene electrochemistry storage sodium combination electrode andPreparation method, the electrochemistry storage sodium active material of combination electrode is Mo_0.5W_0.5S_2-The composite nano materials of nanometer watt/Graphene,Mo in composite nano materials_0.5W_0.5S₂Nanometer watt is 1:2 with the ratio of the amount of substance of Graphene, described Mo_0.5W_0.5S₂Nanometer watt isThe layer structure of few number of plies, the component of combination electrode and mass percentage content thereof are: Mo_0.5W_0.5S₂Nanometer watt/Graphene is multipleClose nano material 80%, conductive acetylene is black 10%, carboxymethyl cellulose 5%, Kynoar 5%.

In technique scheme, the layer structure of few number of plies refers to the layer structure of the number of plies below 6 layers or 6 layers, described inMo_0.5W_0.5S₂The average number of plies of nanometer watt is 3 layers.

Above-mentioned Mo_0.5W_0.5S₂The preparation method of nanometer watt/Graphene electrochemistry storage sodium combination electrode carries out according to the following steps:

(1) be dispersed in deionized water ultrasonic graphene oxide, add Gemini surface active agent N-dodecyl Asia thirdThe two ammonium bromides (seeing accompanying drawing 1) of base diamines, and fully stir, then add successively Cys, ammonium thiomolybdate and sulfo-tungstenAcid ammonium, and constantly stir Cys, ammonium thiomolybdate and sulfo-ammonium tungstate are dissolved completely, Cys, molybdenum dithiophosphateThe ratio of the amount of substance of acid ammonium and sulfo-ammonium tungstate consumption is 5:0.5:0.5, ammonium thiomolybdate, sulfo-ammonium tungstate and graphite oxideThe ratio of the amount of substance of alkene is 0.5:0.5:2;

(2) mixed dispersion step (1) being obtained is transferred in hydrothermal reaction kettle, and adds deionized water to adjust bodyAmass to 80% of hydrothermal reaction kettle nominal volume the concentration of the two ammonium bromides of Gemini surface active agent N-dodecyl trimethylene diamineBe 0.01 ~ 0.02mol/L, the content of graphene oxide is 30-65mmol/L, this reactor is put in constant temperature oven,At 230-250 DEG C, after hydro-thermal reaction 24h, allow it naturally cool to room temperature, with centrifugation collection hydro-thermal solid product, and useDeionized water is fully washed, vacuum drying at 100 DEG C, by the hydro-thermal solid product obtaining in nitrogen/hydrogen mixed gas atmosphereHeat treatment 2h at 800 DEG C, in mist, hydrogen volume mark is 10%, finally prepares Mo_0.5W_0.5S₂Nanometer watt/stoneThe composite nano materials of China ink alkene;

(3) by the Mo of above-mentioned preparation_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials is as the electrochemistry storage sodium of electrodeActive material, exists with the 1-METHYLPYRROLIDONE solution of the Kynoar of acetylene black, carboxymethyl cellulose and mass fraction 5%Stir the lower uniform slurry of furnishing that fully mixes, each constituent mass percentage is: Mo_0.5W_0.5S₂Nanometer watt/Graphene is compound to be receivedRice material 80%, conductive acetylene is black 10%, carboxymethyl cellulose 5%, Kynoar 5%, using this slurry be coated onto equably asOn the Copper Foil of collector, dry, roll extrusion obtains electrode.

Above-mentioned graphene oxide adopts improved Hummers method preparation.

Hydrothermal method system of assisting with the two ammonium bromides of Gemini surface active agent N-dodecyl trimethylene diamine of the present inventionStandby Mo_0.5W_0.5S₂The method of nanometer watt/Graphene composite nano materials has the following advantages: graphene oxide surface and marginal beltHave a lot of oxygen-containing functional groups (as hydroxyl, carbonyl, carboxyl), these oxygen-containing functional groups make graphene oxide more easily be dispersed in waterOr in organic liquid, but these oxygen-containing functional groups make graphene oxide surface with negative electrical charge, make graphene oxide and bandThere is the MoS of negative electrical charge₄ ^2-And WS₄ ^2-Ion is incompatible, and the present invention passes through electrostatic interaction first by Gemini surface active agent N-dodecaneThe two ammonium bromides of base trimethylene diamine are adsorbed onto graphene oxide surface, make it with part positive charge, due to electrostatic interaction,MoS₄ ^2-And WS₄ ^2-Ion is just easy to interact and combine with the graphene oxide that has adsorbed Gemini surface active agent.The more important thing is, compared with common single cationic surfactant, Gemini surface active agent N-dodecyl trimethylene diamineIn two ammonium bromides, have 2 positively charged quaternary ammonium hydrophilic radicals, there is enough hydrophilies, with electronegative graphene oxide itBetween there is stronger mutual electrostatic interaction; The two ammonium bromides of N-dodecyl trimethylene diamine also have 2 hydrophobic long alkyl chain basesGroup's (seeing accompanying drawing 1), its hydrophobicity is stronger. The two ammonium bromides of N-dodecyl trimethylene diamine are adsorbed on Graphene surface, and it is hydrophobicThere is (seeing accompanying drawing 2) with irregular " brush head " form of bending in group, this version has caused water-heat process and heatProcess the Mo of back loading on Graphene surface_0.5W_0.5S₂There is the pattern of nanometer watt. This undersized Mo_0.5W_0.5S₂Nanometer wattThere is more edge, as electrochemistry storage sodium material, can provide more short lithium ion diffusion admittance, contribute to strengthenIts electrochemistry storage sodium performance; Mo_0.5W_0.5S₂Nanometer watt/graphene composite material can increase the contact area of itself and electrolyte,Can further contribute to improve its chemical property; Mo_0.5W_0.5S₂A nanometer watt heterogeneous stratified material also makes Mo_0.5W_0.5S₂ReceiveRice watt/graphene composite material has comprehensively good electrochemistry storage sodium performance. Therefore, the present invention Mo_0.5W_0.5S₂Nanometer watt/stoneThe electrochemistry storage sodium electrode that China ink alkene composite is prepared as electroactive substance has high electrochemistry storage sodium capacity, excellenceCycle performance and significantly strengthen large current density electrical characteristics.

Brief description of the drawings

The two ammonium bromide structural representations of Fig. 1 Gemini surface active agent N-dodecyl trimethylene diamine.

Fig. 2 Gemini surface active agent is adsorbed on the schematic diagram on graphene oxide surface.

The Mo that Fig. 3 embodiment 1 prepares_0.5W_0.5S₂The XRD figure (a) of nanometer watt/Graphene composite nano materials, SEMShape appearance figure (b) and transmission electron microscope photo (c, d).

Mo prepared by Fig. 4 comparative example_0.5W_0.5S₂The TEM of nanometer sheet and Graphene composite nano materials and HRTEM photo.

Detailed description of the invention

Further illustrate the present invention below in conjunction with embodiment.

Graphene oxide in following example adopts improved Hummers method preparation: 0^oUnder C ice bath, by 10.0Mmol (0.12g) graphite powder dispersed with stirring, in the 50mL concentrated sulfuric acid, slowly adds KMnO under constantly stirring₄, institute adds KMnO₄'sQuality is 4 times of graphite powder, stirs 50 minutes, in the time of temperature rise to 35 DEG C, slowly adds 50mL deionized water, then stirs30 minutes, add the H of 15mL mass fraction 30%₂O₂, stir 30 minutes, through centrifugation, use successively mass fraction 5%HCl solution, deionized water and acetone cyclic washing after obtain graphene oxide.

Embodiment 1

1) be dispersed in 60mL deionized water ultrasonic 2.5mmol graphene oxide, then add 0.8mmol Shuangzi tableThe two ammonium bromides of surface-active agent N-dodecyl trimethylene diamine, and fully stir, then add successively 0.76g (6.25Mmol) Cys, 0.625mmol ammonium thiomolybdate and 0.625mmol sulfo-ammonium tungstate, and constantly stirring makes L-halfCystine, ammonium thiomolybdate and sulfo-ammonium tungstate dissolve completely, with extremely about 80mL of deionized water adjustment volume;

2) obtained mixed liquor is transferred in the hydrothermal reaction kettle of 100mL, this reactor is put into constant temperature ovenIn, after hydro-thermal reaction 24h, allow it naturally cool to room temperature at 230 DEG C, collect solid product with centrifugation, and use deionizationWater fully washs, vacuum drying at 100 DEG C, by obtained solid product in nitrogen/hydrogen mixed gas atmosphere at 800 DEG CHeat treatment 2h, in mist, the volume fraction of hydrogen is 10%, prepares Mo_0.5W_0.5S₂Nanometer watt/Graphene compoundNano material, Mo in composite nano materials_0.5W_0.5S₂With the ratio of Graphene amount of substance be 1:2, with XRD, SEM and TEM are to institutePrepare Mo_0.5W_0.5S₂The composite nano materials of nanometer watt/Graphene characterizes, XRD analysis result (seeing accompanying drawing 3(a))Show Mo in composite nano materials_0.5W_0.5S₂For the layer structure of few number of plies, the average number of plies is 3 layers. SEM pattern (is shown in accompanying drawing 3(b)) and TEM photo (seeing accompanying drawing 3(c, d)) also shown the Mo loading on Graphene_0.5W_0.5S₂There is little nanometer watt shapeLooks, its number of plies is at layer 2-4, and majority is 3 layers, consistent with XRD analysis;

3) by the Mo of above-mentioned preparation_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials is as the electrode of electrochemistry storage sodiumActive material, black with conductive acetylene, the 1-METHYLPYRROLIDONE of the Kynoar of carboxymethyl cellulose and mass fraction 5% is moltenLiquid under agitation fully mixes the uniform slurry of furnishing, this slurry is coated onto equably on the Copper Foil of collector, at 110 DEG CVacuum drying, then roll extrusion obtains Mo_0.5W_0.5S₂Nanometer watt/Graphene electrochemistry storage sodium combination electrode, each component in combination electrodeMass percent is: Mo_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials 80%, conductive acetylene is black 10%, carboxymethyl celluloseElement 5%, Kynoar 5%.

Electrochemistry storage sodium performance test: taking combination electrode as working electrode, as to electrode, electrolyte is with sodium metal sheet1.0mol/LNaClO₄Perfluorocarbon acid vinyl acetate/propene carbonate (FEC/PC, 1:1, volume ratio) solution be electrolysisLiquid, porous polypropylene film (Celguard-2400) is barrier film, in the suitcase that is full of argon gas, is assembled into test battery. By perseveranceThe electrochemistry storage sodium performance of electric current charge-discharge test combination electrode, charge and discharge cycles is on programme controlled auto charge and discharge instrumentCarry out charging and discharging currents density 50mA/g, voltage range 0.01 ~ 3.0V. Electrochemical results shows: Mo_0.5W_0.5S₂ReceiveRice watt/the initial reversible capacity of the electrochemistry of graphene combination electrode storage sodium is 437mAh/g, and after 50 circulations, reversible capacity is4335mAh/g, has shown high specific capacity and excellent stable circulation performance; In the time of high current charge-discharge, (charging and discharging currents is1000mA/g), its capacity is 368mAh/g, has shown that its high power charging-discharging characteristic significantly strengthening is (with comparative example belowRelatively).

Comparative example

Adopt DTAB cationic surfactant, prepared by above-mentioned similar approachMo_0.5W_0.5S₂Nanometer sheet/Graphene electrochemistry storage sodium combination electrode, concrete preparation process is as follows:

Be dispersed in 60mL deionized water ultrasonic 2.5mmol graphene oxide, then add 1.6mmol dodecylTrimethylammonium bromide cationic surfactant, and fully stir, then add successively 0.76g (6.25mmol) L-half GuangPropylhomoserin, 0.625mmol ammonium thiomolybdate and 0.625mmol sulfo-ammonium tungstate, and constantly stir and make Cys and sulfo-Ammonium molybdate and sulfo-ammonium tungstate dissolve completely, adjust volume to about 80mL by deionized water, and obtained mixed liquor is shiftedIn the hydrothermal reaction kettle of 100mL, this reactor is put in constant temperature oven, at 230 DEG C after hydro-thermal reaction 24h, allow its fromSo be cooled to room temperature, collect solid product with centrifugation, and fully wash by deionized water, vacuum drying at 100 DEG C, willThe solid product obtaining in nitrogen/hydrogen mixed gas atmosphere at 800 DEG C heat treatment 2h, the volume integral of hydrogen in mistNumber is 10%, prepares Mo_0.5W_0.5S₂The nano composite material of nanometer sheet/Graphene, Mo in composite nano materials_0.5W_0.5S₂With the ratio of the amount of substance of Graphene be 1:2. With XRD, SEM and TEM are to finally preparing Mo_0.5W_0.5S₂Nanometer sheet/graphiteThe nano composite material of alkene characterizes, and XRD analysis result shows Mo in composite nano materials_0.5W_0.5S₂For layer structure, itsThe average number of plies is 7 layers, and TEM and HRTEM photo (seeing accompanying drawing 4, is (a) TEM photo, is (b) HRTEM photo) have shown loadMo on Graphene_0.5W_0.5S₂For nanometer sheet pattern, its thickness and size are not so good as Mo above_0.5W_0.5S₂Nanometer watt evenly,Mo_0.5W_0.5S₂The average number of plies of nanometer sheet is 6-7 layer, consistent with XRD analysis.

By above-mentioned steps 3) process prepare Mo_0.5W_0.5S₂Nanometer sheet/Graphene electrochemistry storage sodium combination electrode, and by upperState the electrochemistry storage sodium performance of identical method test compound electrode. Electrochemical results shows: Mo_0.5W_0.5S₂Nanometer sheet/The initial reversible capacity of Graphene electrochemistry storage sodium combination electrode electrochemistry storage sodium is that 235mAh/g(charging and discharging currents is 50mA/G), after 50 circulations, reversible capacity is 206mAh/g; In the time of high current charge-discharge (charging and discharging currents is 800mA/g), its appearanceAmount is 112mAh/g.

Claims (2)

1. a Mo_0.5W_0.5S₂Nanometer watt/Graphene electrochemistry storage sodium combination electrode, is characterized in that the electrochemistry of combination electrodeStorage sodium active material is Mo_0.5W_0.5S₂The composite nano materials of nanometer watt/Graphene, Mo in composite nano materials_0.5W_0.5S₂NanometerWatt and the ratio of the amount of substance of Graphene be 1:2, described Mo_0.5W_0.5S₂The nanometer watt layer structure for few number of plies, combination electrodeComponent and mass percentage content thereof be: Mo_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials 80%, acetylene black 10%,Carboxymethyl cellulose 5%, Kynoar 5%, the preparation method of described combination electrode carries out according to the following steps:

(1) be dispersed in deionized water ultrasonic graphene oxide, add Gemini surface active agent N-dodecyl propylidene twoThe two ammonium bromides of amine, and fully stir, then add successively Cys, ammonium thiomolybdate and sulfo-ammonium tungstate, and constantly stirMix Cys, ammonium thiomolybdate and sulfo-ammonium tungstate are dissolved completely, Cys, ammonium thiomolybdate and sulfo-wolframic acidThe ratio of the amount of substance of ammonium consumption is 5:0.5:0.5, the amount of substance of ammonium thiomolybdate, sulfo-ammonium tungstate and graphene oxide itThan being 0.5:0.5:2;

(2) mixed dispersion step (1) being obtained is transferred in hydrothermal reaction kettle, and adds deionized water to adjust volume extremely80% of hydrothermal reaction kettle nominal volume, the concentration of the two ammonium bromides of Gemini surface active agent N-dodecyl trimethylene diamine is0.01～0.02mol/L, the content of graphene oxide is 30-65mmol/L, this reactor is put in constant temperature oven, at 230-At 250 DEG C, after hydro-thermal reaction 24h, allow it naturally cool to room temperature, with centrifugation collection hydro-thermal solid product, and use deionizationWater fully washs, vacuum drying at 100 DEG C, by the hydro-thermal solid product obtaining in nitrogen/hydrogen mixed gas atmosphere at 800 DEG CLower heat treatment 2h, in mist, hydrogen volume mark is 10%, finally prepares Mo_0.5W_0.5S₂Nanometer watt/GrapheneComposite nano materials;

(3) by the Mo of above-mentioned preparation_0.5W_0.5S₂Nanometer watt/Graphene composite nano materials is as electrochemistry storage sodium active material, withThe 1-METHYLPYRROLIDONE solution of the Kynoar of acetylene black, carboxymethyl cellulose and mass fraction 5% is under agitation abundantMix the uniform slurry of furnishing, this slurry is coated onto equably on the Copper Foil of collector, vacuum drying, roll extrusion obtains compoundElectrode.

2. Mo according to claim 1_0.5W_0.5S₂Nanometer watt/Graphene electrochemistry storage sodium combination electrode, is characterized in that,Described Mo_0.5W_0.5S₂The average number of plies of nanometer watt is 3 layers.