EA032455B1 - METHOD FOR ELECTROCHEMICAL PRODUCTION OF A COMPOSITE GRAPHENE-NANOPARTICLES Co/CoO MATERIAL - Google Patents

Abstract

The invention is related to the field of material science, in particular, to development of methods for producing composite graphene-nanoparticles Co/CoO materials intended for manufacture of batteries, graphene-based spintronic devices, biochemical sensors (e.g., glucose sensor). The objective of the invention is development of a method for electrochemical production of a composite graphene-nanoparticles Co/CoO material allowing facilitation of production. Said objective is attained by provision of a method for electrochemical production of a composite graphene-nanoparticles Co/CoO material wherein a graphene layer is deposited on the surface of copper foil by the gas-phase deposition method, then the copper foil having a graphene layer on one side and an insulating varnish on the other side is placed in an electrolytic cell as a cathode, and electrochemical deposition of Co/CoO nanoparticles on the graphene surface is carried out; after that, the produced composite of copper foil/graphene-Co/CoO nanoparticles is placed in iron chloride solution to dissolve copper foil, and the separated film of graphene with nanoparticles Co/CoO is washed with water.

Description

The invention relates to the field of materials science, namely to the development of methods for producing composite materials graphene - Co / CoO nanoparticles intended for the manufacture of batteries, spintronic devices based on graphene, biochemical sensors (for example, glucose sensor). The objective of the invention is to develop a method for the electrochemical preparation of a composite material graphene - Co / CoO nanoparticles, which allows to simplify its manufacture. The problem is achieved in that in the method of electrochemical production of a composite material graphene - Co / CoO nanoparticles, a layer of graphene is deposited onto the surface of a copper foil by gas-phase deposition, then a copper foil with a layer of graphene on one side and an insulating varnish on the other is placed in an electrolytic cell as a cathode and conduct electrochemical deposition of Co / CoO nanoparticles on the surface of graphene, after which the resulting composite copper foil / graphene - Co / CoO nanoparticles are placed in a solution of chloride Lez to dissolve the copper foil, the separated graphene film with nanoparticles of Co / CoO washed with water.

The invention relates to the field of materials science, namely to the development of methods for producing composite materials graphene - Co / CoO nanoparticles intended for the manufacture of batteries, spintronic devices based on graphene, biochemical sensors (eg, glucose sensor) [1].

A known method of producing a composite material graphene - nanoparticles of Co / CoO [2]. In this method, in a first step, by reducing graphene oxide in dimethylformamide, a suspension of graphene in dimethylformamide is obtained. Then, by thermal decomposition of cobalt (II) octacarbonyl Co ₂ (CO) ₈ in the presence of surfactants, cobalt nanoparticles are synthesized and dispersed in hexane. A suspension of cobalt nanoparticles in hexane is mixed with a suspension of graphene in dimethylformamide, the resulting mixture is thoroughly treated in an ultrasonic bath and ethanol is added to separate the precipitate of the dispersed phase, which is heated in air to form a cobalt oxide shell on the surface of cobalt nanoparticles. The resulting graphene Co / CoO composite is applied to the surface of a glassy carbon electrode for subsequent electrocatalytic reduction of oxygen in alkaline media. The disadvantage of this method is that the composite material graphene - Co / CoO nanoparticles contains dispersed particles that make it difficult to obtain uniform planar structures with its use.

The closest in technical essence to the present invention is a method of producing a composite material graphene / cobalt oxide nanoparticles of cobalt nanoparticles by electrochemical deposition of cobalt on the substrate graphene / 81O _2/81 in potentiostatic mode [3]. The main stages of obtaining a graphene / cobalt nanoparticle composite material with cobalt oxide are: 1) obtaining planar graphene layers by gas-phase deposition of graphene on a copper substrate, 2) coating the graphene with a layer of polymethylmethacrylate, 3) dissolving the copper substrate with ammonium persulfate and washing the separated graphene with water and polymethylmethate layer 4) drying of graphene with a layer of polymethyl methacrylate in vacuum for several hours, followed by heating at 180 ° C for 30 minutes, 5) dissolution of polymethyl methacrylate ata in acetone followed by washing in isopropanol, 6) transferring the graphene on the scoured film δίθ ₂ / δί substrate 7) electrochemical deposition of nanoparticles of Co / CoO on the surface of the composite graphite / occupies 8 _2/81

One disadvantage of this method is the multi-stage, which complicates the process of obtaining the composite nanoparticles of cobalt / graphite / 81O _2/81. In addition, toxic chemical solvents (acetone, isopropanol) are used to dissolve polymethyl methacrylate. Another disadvantage of prior art is the difficulty of separation 81O _2/81 graphene composite material - Co / CoO without disturbing its continuity, which considerably limits the possible applications.

The objective of the invention is to develop a method for the electrochemical preparation of a composite material graphene - Co / CoO nanoparticles, which allows to simplify its manufacture.

The problem is achieved in that in the method of electrochemical production of a composite material graphene - Co / CoO nanoparticles, a layer of graphene is deposited onto the surface of a copper foil by gas-phase deposition, then a copper foil with a layer of graphene on one side and an insulating varnish on the other is placed in an electrolytic cell as cathode and conduct electrochemical deposition of Co / CoO nanoparticles on the surface of graphene, after which the resulting composite copper foil / graphene - Co / CoO nanoparticles is placed in a solution of chloride iron to dissolve the copper foil, the separated graphene film with Co / CoO nanoparticles is washed with water.

The essence of the method is illustrated in FIG. 1 and FIG. 2, where in FIG. 1 shows a diagram of an electrolytic cell for producing a composite material graphene - Co / CoO nanoparticles in accordance with the claimed method, FIG. 2 - image of a composite material graphene - Co / CoO nanoparticles obtained by scanning electron microscopy, and a mapped image of elemental analysis obtained by energy dispersive x-ray spectroscopy.

The inventive method is implemented as follows.

Example.

A graphene film was obtained on the surface of a copper foil by chemical vapor deposition. Then, a copper foil being a cathode with a layer of graphene on one side and an insulating varnish on the other, was placed in an electrolytic cell containing as an electrolyte an aqueous solution of cobalt sulfate (1 g / l) and sodium chloride (0.064 g / l) at a solution pH of ~ 7 . Stainless steel was used as the anode. The electrochemical deposition of Co / CoO nanoparticles was carried out at room temperature, a current density of 5 mA / cm ² and a deposition time of 1 min. After completion of the electrochemical deposition, the cathode was removed from the electrolytic cell, the insulating layer of varnish was washed off with ethanol, and the cathode, which was a copper foil with a layer of graphene, onto the surface of which Co / CoO was electrochemically deposited, was washed with distilled water and placed in 0.25 M aqueous iron chloride solution until the copper foil is completely dissolved and the graphene composite film - Co / CoO nanoparticles are separated. The separated graphene composite film - Co / CoO nanoparticles was transferred into a container with water and washed thoroughly.

To confirm the deposition of nanosized Co / CoO particles on the graphene surface, the obtained samples were studied by scanning electron microscopy (SEM). Research method

- 1 032455

SEM was carried out on a ΤΕβΟΛΝ Ueda 3 BMI electron microscope (8EM) equipped with an energy dispersive X-ray spectroscopy attachment, which made it possible to carry out a mapped elemental analysis of the obtained graphene composite material — Co / CoO nanoparticles.

According to scanning electron microscopy data shown in FIG. 2, the average diameter of cobalt nanoparticles is 220 ± 2 nm and they uniformly cover the surface of graphene. As follows from the mapped data of energy dispersive X-ray spectroscopy on the content of cobalt and oxygen on the surface of graphene (Fig. 2), the electrochemically deposited nanoparticles on the surface contain metallic cobalt Co and cobalt oxide CoO.

Thus, in comparison with the prototype of the claimed method allows to obtain a composite material graphene - Co / CoO nanoparticles in a technologically simpler way, eliminating the stage of washing samples with toxic organic solvents.

Information sources

1. Σι 8-1., Ei Ι-M., Syep 1. e! a1. E1c! Ohhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhh: Oh! Yo1. 18 pp. 1049-1056.

2. International application ^ О 2013И862818 dated 01.10.2013 for the invention SCAREN - Co / CoO ΝΑΝΌΡΑΚΤΙίΤΙ ·: СОМРО81TE, МА ^ ЯБАСТІКЕ, ΆΝΟ И8Е ΙΝ ΑΝ ЕБЕСТСОСНЕМ1СББ СББ; publ. ΑΌ 2014055485 A1 - 2014-04-10.

3. Uh Bgapso U.S. e! .a1. 1n-zyi shadpe / aNop sha'zigeszs apy ex-zyi shogryo1o§1sa1 apa1uz1z o £ e1es! op! syesh1sa1 of uarog yerozyyup dgaryepe / 81O _2/81 // Sagop Beyegz (2017). Yo1. 21, pp. 16-22.

4. Kosh1zzagou 1.U. e! .a1. M1sgo Kashap tue ^ NdaNop o д darjepe 8UnlEe81 / na baaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa! Yo1. 72, pp. 450-454.

Claims (2)

CLAIM A method for the electrochemical preparation of a graphene composite material - Co / CoO nanoparticles, which consists in depositing a graphene layer on the surface of a copper foil by gas phase deposition, then a copper foil with a layer of graphene on one side and an insulating varnish on the other hand is placed in the electrolytic cell as a cathode and conduct electrochemical deposition of Co / CoO nanoparticles on the surface of graphene, after which the resulting copper foil / graphene composite - Co / CoO nanoparticles are placed in a solution of iron chloride to dissolve of copper foil, the separated graphene film with Co / CoO nanoparticles is washed with water. Co nanoparticles on graphene 2C1Co ’copper foil plate, stainless steel coated with graphene