CN103420688B - Lanthanum-yttrium co-doping bismuth vanadate inorganic pigment and preparation method thereof - Google Patents

Abstract

The invention discloses lanthanum-yttrium co-doping bismuth vanadate inorganic pigment and a preparation method thereof. The general formula of the inorganic pigment is Bil-x-yLaxYyVO4, wherein x is larger than or equal to 0.02 and less than or equal to 0.1, and y is larger than or equal to 0.02 and less than or equal to 0.1. Chelating agents are utilized to assist and a microwave hydrothermal method is adopted to prepare the lanthanum-yttrium co-doping bismuth vanadate pigment, the slow release of metal ions in the reaction process is facilitated through the addition of various chelating agents, so that the process of preparing the lanthanum-yttrium co-doping bismuth vanadate pigment is carried out relatively lenitively; through the adoption of the microwave hydrothermal method to prepare, the preparation time is reduced. The lanthanum-yttrium co-doping bismuth vanadate pigment prepared by the invention has the advantages that the improvement of the color generating performance of the bismuth vanadate pigment is facilitated through the doping of lanthanum and cerium.

Description

A kind of lanthanum, yttrium codoped pucherite mineral dye and preparation method thereof

Technical field

The invention belongs to mineral dye preparation field, be specifically related to a kind of lanthanum, yttrium codoped pucherite mineral dye and preparation method thereof.

Background technology

Since the eighties in last century, because pucherite has the high-performance such as nontoxic, bright color, good corrosion resistance, photochemical catalysis, photocatalytic degradation and the large field of mineral dye two are widely used in.As a kind of environmentally friendly inorganic materials, in pigment art, instead of environmentally harmful pigment gradually becomes a kind of novel pigment be widely used.In nearest decades, scholars have carried out large quantifier elimination to the application of pucherite in mineral dye, such as: prepare bismuth vanadium pigments with diverse ways, its main method has: the metallo-organic chemical vapour deposition etc. of solid phase method, pickling process, hydrothermal method, photoreduction method, modification.Prepare bismuth vanadium pigments with different raw materials, the raw material mainly used has Bismuth trinitrate, ammonium meta-vanadate and sodium metavanadate.Also have and in the process preparing bismuth vanadium pigments, to add different surfaces promoting agent carry out modification, the tensio-active agent mainly used has: ethylenediamine tetraacetic acid (EDTA), PVP, cetyl trimethylammonium bromide etc.

But these can not meet the application of single pucherite in practical field far away.

Summary of the invention

The invention provides a kind of lanthanum, yttrium codoped pucherite mineral dye and preparation method thereof, utilize sequestrant to assist and use microwave-hydrothermal method to prepare the bismuth vanadium pigments of lanthanum element and yttrium co-doped, lanthanum element and yttrium doped with helping the color generation property improving bismuth vanadium pigments.

The present invention is by the following technical solutions:

A kind of lanthanum, yttrium codoped pucherite mineral dye preparation method, utilize sequestrant to assist and use microwave-hydrothermal method to prepare the bismuth vanadium pigments of lanthanum element and yttrium co-doped.

Specifically comprise the following steps:

(1), by Bi (NO ₃) ₃5H ₂o, La (NO ₃) ₃, Y (NO ₃) ₃6H ₂o and sequestrant are dissolved into the HNO of 1 ~ 4mol/L ₃carry out fully stirring obtaining solution A, wherein Bi (NO in solution ₃) ₃5H ₂o, La (NO ₃) ₃, Y (NO ₃) ₃6H ₂o, HNO ₃be 1:(0.02 ~ 0.1 with the mol ratio of sequestrant): (0.02 ~ 0.1): (4 ~ 16): (0.5 ~ 2); By NaVO ₃2H ₂o to be dissolved in the NaOH solution of 1 ~ 4mol/L and to carry out fully stirring obtaining solution B, wherein NaVO ₃2H ₂the mol ratio of O and NaOH is 1:(4 ~ 16);

(2), solution A and solution B mixed and carry out fully stirring forming suspension, wherein Bi ³⁺and VO ₃ ^-mol ratio be 1:1, this suspension is the presoma of the bismuth vanadium pigments of lanthanum element and yttrium co-doped;

(3), by above-mentioned suspension be transferred in microwave hydrothermal instrument, utilize carry out microwave radiation heating; After microwave hydrothermal reacts completely, washing several times, the inorganic bismuth vanadium pigments of obtained lanthanum element and yttrium co-doped after vacuum-drying.

Described sequestrant is ethylenediamine tetraacetic acid (EDTA), Trisodium Citrate, methyl ethyl diketone or several mixtures.

Suspension is transferred in microwave hydrothermal instrument in (3) by step, utilizes carry out microwave radiation heating will to 160 DEG C ~ 220 DEG C, hydro-thermal reaction 1 ~ 3h.

After in step (3), microwave hydrothermal reacts completely, with deionized water and absolute ethanol washing several times.

In step (3) after washing in vacuum drying oven dry 12h at 60 DEG C, lanthanum, the yttrium codoped pucherite mineral dye of obtained lanthanum element and yttrium co-doped.

A kind of lanthanum, yttrium codoped pucherite mineral dye, its general formula is Bi _1-x-yla _xy _yvO ₄, wherein 0.02≤x≤0.1,0.02≤y≤0.1.

Beneficial effect of the present invention is: add different sequestrants, it act as and contributes to the slow releasing of metal ion in reaction process, thus make the process of generation lanthanum element and yttrium co-doped bismuth vanadium pigments compare the carrying out of mitigation, the bismuth vanadium pigments chemical constitution obtained is even, particle diameter is less, and within the scope of certain particle size, particle diameter is less, its opacifying power, tinting strength are stronger, from but the dominant hue of pigment and brightness improve; Microwave-hydrothermal method is used to prepare the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its synthesis temperature is lower, generated time is shorter, and synthesis temperature needed for conventional solid-state method synthesis bismuth vanadium pigments is higher, generated time is longer, therefore, preparation method provided by the present invention is conducive to reducing energy consumption, reduces production cost; The product that the present invention finally obtains is the bismuth vanadium pigments of lanthanum element and yttrium co-doped, utilize lanthanum element and yttrium doped with the color generation property helping improve bismuth vanadium pigments, because the atomic structure of rare earth element uniqueness, the existence of the 4f electronic shell be not namely full of, when being subject to rayed, 4f electronic shell, to the characteristic with selective absorbing and reflection of light, due to this characteristic, can make rare earth doped beramic color have the advantage that color development is stablized, tone is pure.

Embodiment

Below in conjunction with embodiment, the present invention is described in further detail.

Embodiment 1:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 1mol/L, the HNO of 20ml ₃in solution, then add 0.1mmol(0.0325g wherein) La (NO ₃) ₃, 0.1mmol(0.0383g) Y (NO ₃) ₃6H ₂o and 2.5mmol(0.7306g) ethylenediamine tetraacetic acid (EDTA), fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 1mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 160 DEG C, and microwave hydrothermal 1h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.96la _0.02y _0.02vO ₄.

Embodiment 2:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 4mol/L, the HNO of 20ml ₃in solution, then add 0.1mmol(0.0325g wherein) La (NO ₃) ₃, 0.1mmol(0.0383g) Y (NO ₃) ₃6H ₂o and 10mmol(2.9224g) ethylenediamine tetraacetic acid (EDTA), fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 4mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 220 DEG C, and microwave hydrothermal 3h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.96la _0.02y _0.02vO ₄.

Embodiment 3:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 1mol/L, the HNO of 20ml ₃in solution, then add 0.1mmol(0.0325g wherein) La (NO ₃) ₃, 0.1mmol(0.0383g) Y (NO ₃) ₃6H ₂o and 2.5mmol(0.7353g) Trisodium Citrate, fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 1mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 160 DEG C, and microwave hydrothermal 1h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.96la _0.02y _0.02vO ₄.

Embodiment 4:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 4mol/L, the HNO of 20ml ₃in solution, then add 0.5mmol(0.1625g wherein) La (NO ₃) ₃, 0.5mmol(0.1915g) Y (NO ₃) ₃6H ₂o and 10mmol(2.9412g) Trisodium Citrate, fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 4mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 220 DEG C, and microwave hydrothermal 3h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.8la _0.1y _0.1vO ₄.

Embodiment 5:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 1mol/L, the HNO of 20ml ₃in solution, then add 0.5mmol(0.1625g wherein) La (NO ₃) ₃, 0.5mmol(0.1915g) Y (NO ₃) ₃6H ₂o and 2.5mmol(0.2503g) methyl ethyl diketone, fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 1mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 160 DEG C, and microwave hydrothermal 1h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.8la _0.1y _0.1vO ₄.

Embodiment 6:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 4mol/L, the HNO of 20ml ₃in solution, then add 0.5mmol(0.1625g wherein) La (NO ₃) ₃, 0.5mmol(0.1915g) Y (NO ₃) ₃6H ₂o and 10mmol(1.0012g) methyl ethyl diketone, fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 4mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 220 DEG C, and microwave hydrothermal 3h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.8la _0.1y _0.1vO ₄.

Embodiment 7:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 2.5mol/L, the HNO of 20ml ₃in solution, then add 0.3mmol(0.0975g wherein) La (NO ₃) ₃, 0.3mmol(0.1149g) Y (NO ₃) ₃6H ₂o, 6mmol(0.60072g) methyl ethyl diketone and ethylenediamine tetraacetic acid (EDTA), fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 2.5mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 190 DEG C, and microwave hydrothermal 1.5h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.88la _0.06y _0.06vO ₄.

Embodiment 8:

By 5mmol(2.4254g) Bi (NO ₃) ₃5H ₂o is dissolved into 3mol/L, the HNO of 20ml ₃in solution, then add 0.4mmol(0.13g wherein) La (NO ₃) ₃, 0.4mmol(0.1532g) Y (NO ₃) ₃6H ₂o, 7.5mmol(2.2059g) the mixture of ethylenediamine tetraacetic acid (EDTA), methyl ethyl diketone and Trisodium Citrate, fully stir to obtain solution A; By 5mmol(0.7898g) NaVO ₃2H ₂o is dissolved into 3mol/L, in the NaOH solution of 20ml, fully stirs to obtain solution B; By above-mentioned A, B solution is carried out mixing and is forwarded in water heating kettle after abundant stirring, at 200 DEG C, and microwave hydrothermal 2h.Then, with deionized water and absolute ethanol washing several times, dry 12h at 60 DEG C in vacuum drying oven subsequently, obtain the bismuth vanadium pigments of lanthanum element and yttrium co-doped, its general formula is Bi _0.84la _0.08y _0.08vO ₄.

In the present invention, with the addition of different sequestrants, effectively can control speed of reaction, make the carrying out of the process gentleness of generation bismuth vanadium pigments; Secondly, the present invention improves the color generation property of bismuth vanadium pigments by the co-doped of lanthanum element and yttrium; Finally, the present invention uses the microwave-hydrothermal method that effectively can shorten preparation time to carry out the preparation of bismuth vanadium pigments.

Claims (5)

1. lanthanum, a yttrium codoped pucherite mineral dye preparation method, is characterized in that: utilize sequestrant to assist and use microwave-hydrothermal method to prepare the bismuth vanadium pigments of lanthanum element and yttrium co-doped;

Specifically comprise the following steps:

(1), by Bi (NO ₃) ₃5H ₂o, La (NO ₃) ₃, Y (NO ₃) ₃6H ₂o and sequestrant are dissolved into the HNO of 1 ~ 4mol/L ₃carry out fully stirring obtaining solution A, wherein Bi (NO in solution ₃) ₃5H ₂o, La (NO ₃) ₃, Y (NO ₃) ₃6H ₂o, HNO ₃be 1:(0.02 ~ 0.1 with the mol ratio of sequestrant): (0.02 ~ 0.1): (4 ~ 16): (0.5 ~ 2); By NaVO ₃2H ₂o to be dissolved in the NaOH solution of 1 ~ 4mol/L and to carry out fully stirring obtaining solution B, wherein NaVO ₃2H ₂the mol ratio of O and NaOH is 1:(4 ~ 16); Described sequestrant is ethylenediamine tetraacetic acid (EDTA), Trisodium Citrate, methyl ethyl diketone or several mixtures;

(2), solution A and solution B mixed and carry out fully stirring forming suspension, wherein Bi ³⁺and VO ₃ ^-mol ratio be 1:1, this suspension is the presoma of the bismuth vanadium pigments of lanthanum element and yttrium co-doped;

(3), by above-mentioned suspension be transferred in microwave hydrothermal instrument, utilize carry out microwave radiation heating; After microwave hydrothermal reacts completely, washing several times, the inorganic bismuth vanadium pigments of obtained lanthanum element and yttrium co-doped after vacuum-drying.

2. lanthanum according to claim 1, yttrium codoped pucherite mineral dye preparation method, it is characterized in that: suspension is transferred in microwave hydrothermal instrument in step (3), utilize carry out microwave radiation heating will to 160 DEG C ~ 220 DEG C, hydro-thermal reaction 1 ~ 3h.

3. lanthanum according to claim 1, yttrium codoped pucherite mineral dye preparation method, is characterized in that: after in step (3), microwave hydrothermal reacts completely, with deionized water and absolute ethanol washing several times.

4. lanthanum according to claim 1, yttrium codoped pucherite mineral dye preparation method, it is characterized in that: in step (3) after washing in vacuum drying oven dry 12h at 60 DEG C, lanthanum, the yttrium codoped pucherite mineral dye of obtained lanthanum element and yttrium co-doped.

5., as lanthanum, a yttrium codoped pucherite mineral dye that claim 1-4 preparation method obtains, it is characterized in that: its general formula is Bi _1-x-yla _xy _yvO ₄, wherein 0.02≤x≤0.1,0.02≤y≤0.1.