CN106299271A

CN106299271A - Nano nickel cobaltate/graphene composite material and preparation method thereof

Info

Publication number: CN106299271A
Application number: CN201610706998.6A
Authority: CN
Inventors: 付永胜; 彭长青; 汪信; 朱俊武; 高翔宇
Original assignee: Nanjing University of Science and Technology
Current assignee: Nanjing University of Science and Technology
Priority date: 2016-08-23
Filing date: 2016-08-23
Publication date: 2017-01-04

Abstract

The invention discloses a nano nickel cobaltate/graphene composite material and a preparation method thereof; the method comprises the following steps: placing graphene oxide in absolute ethyl alcohol for ultrasonic dispersion, adding cobalt nitrate and nickel nitrate into the absolute ethyl alcohol, stirring and dissolving, mixing and stirring the two systems uniformly, then dropwise adding sodium hydroxide alkali solution, continuously stirring uniformly, then placing the mixture into a hydrothermal kettle for reaction, then washing, and freeze-drying to obtain the bamboo leaf-shaped nano nickel cobaltate/graphene composite material. According to the invention, the bamboo leaf-shaped nano nickel cobaltate/graphene composite material is prepared by taking graphene oxide as a substrate material and adopting a hydrothermal method. The bamboo leaf-shaped nano nickel cobaltate/graphene composite material prepared by the invention has better application prospect and economic benefit when being used as a lithium ion battery cathode.

Description

A kind of nano nickel cobalt oxide/graphene composite material and preparation method thereof

Technical field

The present invention relates to a kind of nano nickel cobalt oxide/graphene composite material and preparation method thereof, belong to nano material and prepare Field.

Background technology

In recent years, due to the in short supply of fossil energy and the lifting of people's environmental consciousness, the mankind were to cleaning sustainable energy Development and utilization constantly make progress, wherein lithium ion battery because of its high voltage, big energy density, excellent cycle performance and (mobile phone, notebook computer, electric automobile, satellite in the remarkable advantages such as memory-less effect, all trades and professions in life And Aero-Space etc.) extensively applied and produce certain economic benefit.At present, lithium ion battery has become as this century pair One of people's lives and the significant new high-tech industry of national economy.Lithium ion battery is mainly made up of four parts, Being respectively positive pole, negative pole, electrolyte and barrier film, wherein the characteristic of positive and negative pole material greatly affects the property of lithium ion battery Can, such as reversible capacity, energy density, cycle performance and high rate performance etc..And binary metal oxide cobalt acid nickel (NiCo₂O₄) with Unique advantage is had in the application of lithium ion battery negative material by means of its preferable electric conductivity and electro-chemical activity.The most several Nian Lai, the cobalt acid nickel that scientists has different structure and pattern by different method control synthesis promotes its dependency Energy.Sun etc. use the three-dimensional porous cobalt acid nickel of Template synthesis [Yang Bai, Ranran Wang, Xiaoyu Lu, Jing Sun, and Lian Sun. Template method to controllable synthesis 3D porous NiCo₂O₄ with enhanced capacitance and stability for supercapacitors[J]. Journal of colloid and interface science, 2016,468:1-9.], Liu etc. uses electrodeposition process By porous cobalt acid nickel nanowire growth on carbon fiber paper [Liang Huang, Dongchang Chen, Yong Ding, Shi Feng, Zhonglin Wang, and Meilin Liu. Nickel–cobalt hydroxide nanosheets coated on NiCo₂O₄ nanowires grown on carbon fiber paper for high-performance pseudocapacitors[J]. Nano letters, 2013, 13(7): 3135-3139.].Lou etc. use heat treatment Cobalt acid nickel nanoneedle is deposited on nickel foam surface [Gen Qiang Zhang, Hao Bin Wu, Harry E. by method Hoster, Mary B. Chan-Park, and Xiong Wen (David) Lou. Single-crystalline NiCo₂O₄ nanoneedle arrays grown on conductive substrates as binder-free electrodes for high-performance supercapacitors[J]. Energy & Environmental Science, 2012, 5(11): 9453-9456.]。

The negative material of commercial li-ion battery is graphite at present, and its reversible capacity only has 330 mAhg^-1, relatively low； It addition, for different structure and the preparation of pattern cobalt acid nickel, current majority all needs to add reducing agent and preparation process is numerous and diverse.

Summary of the invention

It is an object of the invention to provide a kind of nano nickel cobalt oxide/graphene composite material and preparation method thereof.

The technical solution realizing the object of the invention is: a kind of nano nickel cobalt oxide/graphene composite material, described compound Material is bamboo foliation structure.

Wherein, Graphene and the mass ratio of composite are not less than 40%.

Above-mentioned nano nickel cobalt oxide/graphene composite material uses following steps to prepare:

The first step, by graphite oxide ultrasonic disperse in dehydrated alcohol；

Second step, by nickel salt and cobalt salt according to mol ratio 1:2 stirring and dissolving in dehydrated alcohol；

3rd step, mixes the graphene oxide dispersion of first step gained with the mixed solution of second step gained, and stirs；

4th step, then be added dropwise over sodium hydroxide solution regulation pH value to 13 ± 0.1, continue stirring；

5th step, carries out hydro-thermal reaction 16-24h at the 4th step resultant bulk is lain in 160-180 DEG C；

6th step, separates the 5th step product sucking filtration, respectively with deionized water and absolute ethanol washing；

7th step, after the 6th step products therefrom lyophilization, it is thus achieved that the composite of described Folium Bambusae shape.

In the first step, described graphite oxide uses hummer method to prepare, and the ultrasonic disperse time is 30-120 minute.

In second step, the stirring and dissolving time is 20-60 minute.

In 3rd step, mixing time is 30-60 minute.

In 4th step, mixing time is 30-60 minute.

The present invention compared with prior art, has an advantage in that: (1) uses ethanol to be solvent, by hydro-thermal reaction, aoxidizes stone Ink is reduced into Graphene, it is to avoid use other reducing agents, environmentally safe；(2) using graphene oxide is substrate, system For Folium Bambusae shape nano nickel cobalt oxide/graphene composite material；Using graphene oxide is Folium Bambusae shape nanometer cobalt acid prepared by substrate Nickel/graphene composite material has preferable chemical property as lithium ion battery negative, its first charge-discharge reversible capacity Can up to 1318 mAhg^-1, it is expected to be applied in energy storage field.

Accompanying drawing explanation

Fig. 1 is the preparation flow schematic diagram of Folium Bambusae shape nano nickel cobalt oxide/graphene composite material of the present invention.

Fig. 2 is that TEM figure (a) and SEM of Folium Bambusae shape nano nickel cobalt oxide/graphene composite material obtained by case study on implementation 2 scheme (b).

Fig. 3 is the XRD figure of Folium Bambusae shape nano nickel cobalt oxide/graphene composite material obtained by case study on implementation 2.

Detailed description of the invention

Such as Fig. 1, the Folium Bambusae shape nano nickel cobalt oxide/graphene composite material of the present invention is prepared by following steps:

The first step, by graphite oxide ultrasonic disperse 30-120 minute in dehydrated alcohol；

Second step, stirs nickel salt and cobalt salt 20-60 minute according to mol ratio 1:2 in dehydrated alcohol；

3rd step, mixes the graphene oxide dispersion of first step gained with the mixed solution of second step gained, and stirs 30- 60 minutes；

4th step, then be added dropwise over sodium hydroxide solution regulation pH value to 13 ± 0.1, continue stirring 30-60 minute；

7th step, after the 6th step products therefrom lyophilization, it is thus achieved that Folium Bambusae shape nano nickel cobalt oxide/graphene composite material.

Case study on implementation 1:

The first step, carries out ultrasonic disperse in dehydrated alcohol 60 minutes by 0.321 g graphite oxide, obtains graphene oxide and divide Dissipate liquid；

Second step, is dissolved in 40 mL dehydrated alcohol stirring 30 minutes by 0.582 g nickel nitrate and 1.164 g cobalt nitrates；

3rd step, mixes first two steps gained system, and stirs 30 minutes；

4th step, 0.64 g NaOH is dissolved in 10 mL water, is added drop-wise in the 3rd step system after stirring, and continues stirring 30 points Clock；

5th step, is transferred in water heating kettle hydro-thermal reaction 24 hours at 160 DEG C by the 4th step gained system；

6th step, separates the 5th step product sucking filtration, uses deionized water and absolute ethanol washing for several times respectively；

The Folium Bambusae shape nano nickel cobalt oxide/graphene composite material of preparation is carried out electrification as lithium ion battery negative material Learning performance test, first charge-discharge reversible capacity is 1287 mAhg^-1。

Case study on implementation 2:

3rd step, mixes first two steps gained system, and stirs 30 minutes；

5th step, is transferred in water heating kettle hydro-thermal reaction 20 hours at 180 DEG C by the 4th step gained system；

The Folium Bambusae shape nano nickel cobalt oxide/graphene composite material prepared, its transmission electron microscope and scanning electron microscope are respectively such as Fig. 2 a Shown in Fig. 2 b；Fig. 3 is Folium Bambusae shape nano nickel cobalt oxide/graphene composite material XRD spectra；By the Folium Bambusae shape nanometer cobalt acid of preparation Nickel/graphene composite material carries out electrochemical property test, first charge-discharge reversible capacity as lithium ion battery negative material It is 1318 mAhg^-1。

Case study on implementation 3:

3rd step, mixes first two steps gained system, and stirs 30 minutes；

5th step, is transferred in water heating kettle hydro-thermal reaction 16 hours at 200 DEG C by the 4th step gained system；

7th step, after the 6th step products therefrom lyophilization, it is thus achieved that product.

The Folium Bambusae shape nano nickel cobalt oxide/graphene composite material of preparation is carried out electrification as lithium ion battery negative material Learning performance test, first charge-discharge reversible capacity is 1135 mAhg^-1。

Claims

1. nano nickel cobalt oxide/graphene composite material, it is characterised in that described composite is bamboo foliation structure, graphite Alkene is not less than 40% with the mass ratio of composite.

2. nano nickel cobalt oxide/graphene composite material as claimed in claim 1, it is characterised in that use following steps to prepare:

The first step, by graphite oxide ultrasonic disperse in dehydrated alcohol；

3. nano nickel cobalt oxide/graphene composite material as claimed in claim 2, it is characterised in that in the first step, graphite oxide Using hummer method to prepare, the ultrasonic disperse time is 30-120 minute.

4. nano nickel cobalt oxide/graphene composite material as claimed in claim 2, it is characterised in that in second step, stirring and dissolving Time is 20-60 minute.

5. nano nickel cobalt oxide/graphene composite material as claimed in claim 2, it is characterised in that in the 3rd step, mixing time For 30-60 minute.

6. nano nickel cobalt oxide/graphene composite material as claimed in claim 2, it is characterised in that in the 4th step, mixing time For 30-60 minute.

7. the preparation method of the nano nickel cobalt oxide/graphene composite material as described in claim 1-6 is arbitrary.