CN1821059A - Method for preparing non-laminate sulfide nano tube - Google Patents

Abstract

The invention discloses a method for preparing non-layered sulfide nanotubes. The steps are as follows: 1) ultrasonically disperse the oxide nanowires in an aqueous solution, add thioglycolic acid into the solution, and add a sulfur source after mixing evenly. The prepared aqueous solution is put into an autoclave, and treated at a temperature of 100-200°C for 1-200 hours, and then the treated solution is centrifuged and dried to obtain an oxide/sulfide coaxial cable; 2) the oxide/sulfide The sulfide coaxial cable is mixed with acid or alkali, centrifuged and dried after sufficient reaction to obtain sulfide nanotubes. The invention can solve the problem that the non-layered sulfide nanotubes are difficult to prepare by using thioglycolic acid-assisted hydrothermal method and subsequent acid or alkali treatment. The method of the invention has simple process, low cost, is suitable for industrial mass production and is universal, and can prepare various non-layered sulfide nanotubes.

Description

A method for preparing non-layered sulfide nanotubes

technical field

The invention relates to a method for preparing sulfide nanotubes.

Background technique

Sulfides are an important class of semiconductor materials, which are widely used in optoelectronic fields such as solar cells, light-emitting diodes, and detectors. Recently, due to the development of nanotechnology, many properties different from that of sulfide bulk have been discovered, such as the field emission performance of arrayed zinc sulfide. The discovery of these new physical phenomena promotes the exploration of new, large-scale, effective, and low-cost methods for preparing nanomaterials. At present, the coil mechanism can be used for layered sulfides to prepare their nanotubes. For non-layered sulfides, the current general method of using alumina templates has the disadvantages of low yield, poor quality and difficult separation, which is not conducive to their future application in optoelectronics. Recently, a principle called sacrificial template has been widely used to prepare nanotubes of materials. The mechanism is to grow the required materials on the surface of nanowires, and then remove the nanowires by chemical or physical methods to obtain nanotubes of materials. But it is rarely used for non-layered sulfide nanotubes at present.

Contents of the invention

The purpose of the present invention is to provide a method for preparing non-layered sulfide nanotubes with low cost, simple process, suitable for industrial mass production and no environmental pollution.

The method for preparing sulfide nanotubes of the present invention comprises the following steps:

1) ultrasonically disperse oxide nanowires in aqueous solution, add thioglycolic acid to the solution, the molar ratio of thioglycolic acid to oxide nanowires is 0.01-100:1, mix well and then add sulfur source, sulfur source and oxide The molar ratio of the nanowires is 0.01 to 100:1. Put the above prepared aqueous solution into an autoclave and treat it at a temperature range of 100 to 200°C for 1 to 200 hours, then centrifuge and dry the treated solution to obtain an oxidized compound/sulfide coaxial cable;

2) Mix the obtained oxide/sulfide coaxial cable with acid or alkali, centrifuge and dry after sufficient reaction to obtain sulfide nanotubes.

The oxide nanowires mentioned above can be zinc oxide, tin oxide or lead oxide nanowires; the sulfur source can be sodium sulfide or potassium sulfide.

In the present invention, when the oxide is an amphoteric oxide, it is treated with an alkali, and the alkali can be sodium hydroxide or potassium hydroxide, while other oxides except the amphoteric oxide are treated with an acid, and the acid can be sulfuric acid or hydrochloric acid. For example, zinc oxide and tin oxide are treated with alkali, while lead oxide is treated with acid.

The beneficial effects of the present invention are:

1. The use of thioglycolic acid-assisted hydrothermal method and subsequent acid or alkali treatment can solve the problem of difficult preparation of non-layered sulfide nanotubes.

2. The method of the present invention is universal, and can prepare various non-layered sulfide nanotubes.

3. The method of the present invention has simple process, is suitable for industrialized mass production, has low cost, and has no environmental pollution.

Description of drawings

Fig. 1 is the scanning electron micrograph of zinc oxide/zinc sulfide coaxial cable;

Figure 2 is a scanning electron micrograph of zinc sulfide nanotubes.

Detailed ways

Below in conjunction with embodiment further illustrate the present invention.

Example 1:

Ultrasonically disperse 80mg of zinc oxide nanowires into 60ml of water, then add 50μL of thioglycolic acid, stir for 10 minutes, then add 60ml of 0.01M sodium sulfide, put the above prepared solution into an autoclave, and heat at 160°C After treatment for 6 hours, the treated solution was centrifuged and dried to obtain a zinc oxide/zinc sulfide coaxial cable. Next, the sample was reacted in 1M sodium hydroxide solution for 30 minutes, centrifuged, and dried to obtain nanotubes of zinc sulfide. Figures 1 and 2 are scanning electron micrographs of ZnO/ZnS coaxial cables and ZnS nanotubes, respectively.

Example 2:

Ultrasonically disperse 80mg of tin oxide nanowires into 60ml of water, then add 5mL of thioglycolic acid, stir for 10 minutes, then add 60ml of 0.1M sodium sulfide, put the above prepared solution into an autoclave, and heat it at 200°C After treating for 6 hours, the treated solution was centrifuged and dried to obtain a tin oxide/tin sulfide coaxial cable. Next, the sample was reacted in 1M sodium hydroxide solution for 30 minutes, centrifuged, and dried to obtain nanotubes of zinc sulfide. Its scanning electron microscope photo is similar to Example 1.

Example 3:

Ultrasonic disperse 80mg of lead oxide nanowires into 60ml of water, then add 5μL of mercaptoacetic acid, stir for 10 minutes, then add 60ml of 0.1M potassium sulfide, put the above prepared solution into an autoclave, at 100°C After treating for 6 hours, the treated solution was centrifuged and dried to obtain a lead oxide/lead sulfide coaxial cable. Next, the sample was reacted in 0.1M hydrochloric acid solution for 30 minutes, then centrifuged, dried, and lead sulfide nanotubes were obtained.

Claims (3)

1. method for preparing non-laminate sulfide nano tube is characterized in that may further comprise the steps:

1) with the oxide nano thread ultra-sonic dispersion in the aqueous solution, in solution, add Thiovanic acid, the mol ratio of Thiovanic acid and oxide nano thread is 0.01～100: 1, add the sulphur source after mixing again, the mol ratio of sulphur source and oxide nano thread is 0.01～100: 1, and the above-mentioned aqueous solution for preparing is put into autoclave, handles 1～200 hour in 100～200 ℃ of temperature ranges, with solution centrifugal, the drying handled well, get the concentric cable of oxide compound/sulfide then;

2) concentric cable with oxide compound/sulfide of obtaining mixes with acid or alkali, carry out after fully reacting centrifugal, dry, nanotube that must sulfide.

2. the method for preparing non-laminate sulfide nano tube according to claim 1 is characterized in that said oxide nano thread is zinc oxide, stannic oxide or plumbous oxide nano wire.

3. the method for preparing non-laminate sulfide nano tube according to claim 1 is characterized in that said sulphur source is sodium sulphite or potassium sulphide.

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