CN101624211A - Method for preparing lead hydroxide nano-rod based on liquid-phase chemical reaction - Google Patents

Method for preparing lead hydroxide nano-rod based on liquid-phase chemical reaction Download PDF

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CN101624211A
CN101624211A CN200910136065A CN200910136065A CN101624211A CN 101624211 A CN101624211 A CN 101624211A CN 200910136065 A CN200910136065 A CN 200910136065A CN 200910136065 A CN200910136065 A CN 200910136065A CN 101624211 A CN101624211 A CN 101624211A
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lead
solution
hydroxide nano
rod
rod based
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CN101624211B (en
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程进
邹小平
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Beijing Information Science and Technology University
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Beijing Information Science and Technology University
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Abstract

The invention discloses a method for preparing a lead hydroxide nano-rod, belonging to the technical field of nanometer material preparation. The method is characterized in that lead nitrate and soluble chloride are dissolved in de-ionized water according to a mol proportion of 1:1-1:10 to prepare a solution; the solution is heated to 50-90 DEG C; alkali is added into the solution according to the mol proportion of the lead nitrate and the alkali substance of 1:3; the solution is stirred to obtain white participate; the white participate is filtered, washed and dried to obtain the lead hydroxide nano-rod. The lead hydroxide nano-rod is a hexagon structure with the length of about 50 micrometers and the diameter of 20-500 nanometers. The method has simple and convenient operation, high yield and no pollution to the environment.

Description

A kind of method of preparing lead hydroxide nano-rod based on liquid-phase chemical reaction
Technical field
The present invention relates to a kind of method for preparing nanometer rod, particularly a kind of method of utilizing preparing lead hydroxide nano-rod based on liquid-phase chemical reaction.
Background technology
Quasi-one-dimensional nanometer material as nanofiber, nanometer rod etc., is nanoscale on two-dimensional direction, and its major diameter is big.With three-dimensional all is that the block materials of macro-scale is compared, have unique physical and chemical properties, as have small-size effect, and quantum effect, surface effectss etc. can demonstrate unique optical characteristics, electrology characteristic, catalysis characteristics etc.
The method for preparing at present quasi-one-dimensional nanometer material is many, as chemical Vapor deposition process, and physical evaporation method, template, electrochemical deposition method, solid phase method, hydrothermal method etc.
Lead hydroxide has a wide range of applications, as is cell dyeing, work and absorption agent etc.Yet the preparation method about lead hydroxide nano-rod based does not see bibliographical information yet.
Summary of the invention
Order of the present invention is to provide a kind of method of preparing lead hydroxide nano-rod based on liquid-phase chemical reaction.This method is easy and simple to handle, the productive rate height, and the reaction times is short, and environment is not polluted.The inventor finds that when adding sodium-chlor in first liquid solution, because the effect of the inhibition hydrolysis of chlorion, the gained throw out is a lead hydroxide nano-rod based when research lead nitrate and the reaction of alkali lye phase chemistry.The method that the present invention prepares lead hydroxide nano-rod based is that lead nitrate and sodium-chlor are dissolved into deionized water formation solution by a certain percentage, and be heated to certain temperature, in solution, add a certain amount of potassium hydroxide again, stir, obtain white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.
Description of drawings
Fig. 1 is the XRD spectral line of the lead hydroxide nano-rod based of liquid phase chemical reaction method preparation of the present invention.
Fig. 2 is the stereoscan photograph of the lead hydroxide nano-rod based of liquid phase chemical reaction method preparation of the present invention.
Fig. 3 is the transmission electron microscope photo of the lead hydroxide nano-rod based of liquid phase chemical reaction method preparation of the present invention.
Fig. 4 is the high-resolution-ration transmission electric-lens photo of the lead hydroxide nano-rod based of liquid phase chemical reaction method preparation of the present invention.
Fig. 5 is the selected area electron diffraction spectrum of the lead hydroxide nano-rod based of liquid phase chemical reaction method preparation of the present invention.
Embodiment
With lead nitrate and sodium-chlor be dissolved into dried up in, wiring solution-forming, the concentration of lead nitrate is 0.01mol/l, and the concentration of sodium-chlor is 0.01-0.10mol/l, and heated solution is to 50-80 degree centigrade, add the potassium hydroxide solid again, the concentration of potassium hydroxide is 0.03mol/l, stirs, and obtains white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.
Embodiment 1
Get 0.166g lead nitrate and 0.06g sodium-chlor and be dissolved in the 50ml deionized water, solution is heated to 80 degrees centigrade, then, get 0.084g potassium hydroxide solid and be added in the solution, stir, obtain white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.As shown in Figure 1, product is accredited as lead hydroxide through X-ray powder diffraction; With scanning electronic microscope product is carried out morphology analysis, as can be seen from Figure 2 its pattern is a rod, and the length of rod is about 50 microns, and the diameter of rod is between the 100-500 nanometer, and length-to-diameter ratio is up to more than 100; It also is bar-shaped that Fig. 3 is presented at the pattern of seeing under the transmission electron microscope; Fig. 4 is presented at the lattice fringe of seeing clearly (002) crystal face under the high resolution transmission electron microscopy, and the interplanar distance of (002) crystal face is about 6.43
Figure G2009101360658D00021
Fig. 5 has shown the selected area electron diffraction spectrum of lead hydroxide nano-rod based, through demarcating, confirms that its crystalline structure is a hexagonal structure.
Embodiment 2
Get 0.662g lead nitrate and 0.117g sodium-chlor and be dissolved in the 200ml deionized water, solution is heated to 90 degrees centigrade, then, get 0.336g potassium hydroxide solid and be added in the solution, stir, obtain white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.
Embodiment 3
Get 0.662g lead nitrate and 0.234g sodium-chlor and be dissolved in the 200ml deionized water, solution is heated to 90 degrees centigrade, then, get 0.084g potassium hydroxide solid and be added in the solution, stir, obtain white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.
Embodiment 4
Get 0.662g lead nitrate and 0.351g sodium-chlor and be dissolved in the 200ml deionized water, solution is heated to 90 degrees centigrade, then, get 0.084g potassium hydroxide solid and be added in the solution, stir, obtain white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.
Embodiment 5
Get 0.662g lead nitrate and 0.468g sodium-chlor and be dissolved in the 200ml deionized water, solution is heated to 90 degrees centigrade, then, get 0.084g potassium hydroxide solid and be added in the solution, stir, obtain white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.
Embodiment 3
Get 0.662g lead nitrate and 0.585g sodium-chlor and be dissolved in the 200ml deionized water, solution is heated to 90 degrees centigrade, then, get 0.084g potassium hydroxide solid and be added in the solution, stir, obtain white depositions, filtration, washing, drying promptly get lead hydroxide nano-rod based.

Claims (4)

1. the method for a preparing lead hydroxide nano-rod based on liquid-phase chemical reaction is characterized in that comprising the following steps:
(1) lead nitrate is dissolved in the deionized water wiring solution-forming;
(2) receiving the amount of substance ratio in lead nitrate and solubility chlorination in the solution in step (1) is 1: 1-1: 10 add soluble chlorides;
(3) solution in the step (2) is heated to 50-80 degree centigrade;
(4) the amount ratio in lead nitrate and alkaloid substance is 1: 3 adding alkali in the solution in step (3), stirs, and obtains white depositions, and filtration, washing, drying promptly get lead hydroxide nano-rod based.
2. by the described method of claim 1, it is characterized in that: described soluble chloride comprises: sodium chloride and Repone K.
3. by the described method of claim 1, it is characterized in that: described alkali comprises: sodium hydroxide and potassium hydroxide.
4. lead hydroxide rice rod by the preparation of the described method of claim 1, it is characterized in that: the length of lead hydroxide nano-rod based is the 10-100 micron, and diameter is the 20-500 nanometer, and purity is up to 99%, and crystalline structure is a hexagonal structure.
CN2009101360658A 2009-04-27 2009-04-27 Method for preparing lead hydroxide nano-rod based on liquid-phase chemical reaction Expired - Fee Related CN101624211B (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102747227A (en) * 2012-06-18 2012-10-24 东南大学 Method for preparing superfine lead oxide by using electrode active materials of wasted lead acid batteries

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1284730C (en) * 2002-10-23 2006-11-15 新疆大学 Process for preparing lead oxide nano stick by solid phase chemical reaction
CN101348277A (en) * 2007-07-18 2009-01-21 北京化工大学 Synthetic method of nano lead hydrate

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102747227A (en) * 2012-06-18 2012-10-24 东南大学 Method for preparing superfine lead oxide by using electrode active materials of wasted lead acid batteries

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