Preparation technology of water-solubility fluorescent carbon quantum dot

A preparation process and technology of carbon quantum dots, applied in nano-carbon, nano-optics, luminescent materials, etc., can solve the problems of complicated procedures, low fluorescence quantum efficiency, poor water solubility, etc., to meet the requirements of industrial applications, uniform product particle size, Feasible effect

Inactive Publication Date: 2013-04-03
MINNAN NORMAL UNIV
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Problems solved by technology

[0003] Nitric acid oxidation method is used to prepare carbon dots by reflowing strong oxidizing acid with carbon nanotubes or candle ash. The fluorescence quantum efficiency is not high, and a large amount of strong acid is not conducive to large quantities Production;
[0004]Electrochemical method and laser ablation method require the use of electrochemical devices and laser ablation devices, which are difficult to operate in ordinary experime...

Method used

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Embodiment Construction

[0017] The invention discloses a preparation process of water-soluble fluorescent carbon quantum dots, the specific steps of which are as follows:

[0018] Step 1, to 5g / 20ml Add glucose to a dry flat-bottomed flask containing diethyl malonate at 140-160 Celsius Cool to room temperature after reflux, collect the brown precipitate, and vacuum dry at 100-120 degrees Celsius for 2 hours;

[0019] Step 2. Take the above-mentioned dried precipitate and dissolve it in 10 ml of distilled water, and perform high-speed centrifugation (12000 rpm) to remove trace precipitate;

[0020] Step 3. Freeze-dry the centrifuged solution to obtain the target fluorescent carbon dots.

[0021] The time of reflux in the step 1 is 4-6 hours.

[0022] The particle size of the product obtained by the above scheme is uniform, mainly distributed between 2-4 nanometers; the fluorescence quantum efficiency is high, and it can reach 24% with quinine sulfate as a reference material; in addition, the whole...

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Abstract

The invention discloses a preparation technology of a water-solubility fluorescent carbon quantum dot. The preparation technology comprises the following steps of: adding glucose to a dried florence flask containing diethyl malonate according to a proportion of 5g/20 milliliter, cooling to a room temperature after refluxing at 140-160 DEG C, collecting brown precipitates, and carrying out vacuum drying for 2 hours at 100-120 DEG C; and dissolving the dried precipitates in a 10ml of distilled water, carrying out high-speed centrifugal seperation (1200r/m) to remove a trace amount of precipitates, and cooling and drying the centrifuged solvent, thus obtaining a target fluorescent carbon point. The preparation technology is simple in the entire flow operation, low in cost and high in feasibility, can be used for macro-production of the water-solubility fluorescent carbon quantum dot and meets industrialization application; the particle size of the product is uniform and is mainly in the range of 2-4 nanometers; the fluorescence quantum efficiency is high and can reach 24%; added ions do not need to be removed by dialysis during after treatment as no positive ions are added in the preparation process; and the water-solubility fluorescent carbon quantum dot has good water-solubility and can be widely applied in practical application.

Description

technical field [0001] The invention relates to the technical field of inorganic non-metallic materials, in particular to a preparation process of water-soluble fluorescent carbon quantum dots. Background technique [0002] At present, the preparation of fluorescent carbon quantum dots generally adopts nitric acid oxidation method, electrochemical method, laser ablation method, pyrolysis method and hydrothermal synthesis method, etc., all of which have some shortcomings, such as: [0003] Nitric acid oxidation method is used to prepare carbon dots by reflowing strong oxidizing acid with carbon nanotubes or candle ash. The fluorescence quantum efficiency is not high, and a large amount of strong acid is not conducive to mass production; [0004] Electrochemical methods and laser ablation methods require the use of electrochemical devices and laser ablation devices, which are difficult to operate in ordinary experiments; [0005] At present, carbon dots prepared by pyrolysis ...

Claims

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Application Information

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IPC IPC(8): C01B31/02C09K11/65B82Y20/00C01B32/15
Inventor 郭鸿旭蔡文联翁文
Owner MINNAN NORMAL UNIV
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