CN107987829A - One plant growth Mn4+Garnet fluorescent powder, its preparation method and the LED plant growth lamp of doping - Google Patents

Abstract

The present invention discloses a plant growth Mn⁴⁺The garnet fluorescent powder of doping, its chemical general formula are (Li_1‑yM_y)₂(Ti_1‑zLn_z)O₃：xMn⁴⁺, wherein M is one or more elements in alkaline-earth metal Na, K, Ru, Cs；Ln is one or more elements in Si, Ge, Sn, Zr, 0 ＜ x≤0.05,0 ＜ y≤1,0 ＜ z≤0.3.The present invention also provides a plant growth Mn⁴⁺The preparation method of the garnet fluorescent powder of doping.The present invention also provides a kind of LED plant growth lamp.Plant growth Mn⁴⁺The garnet fluorescent powder of doping makes up missing of the existing LED plant growth lamp in dark red and far-red light spectral limit, plays shortening plant growing cycle, promotes the effect of plant health fast-growth.

Description

One plant growth Mn4+Garnet fluorescent powder, its preparation method and the LED of doping Plant growth lamp

Technical field

The present invention relates to fluorescent powder field, and in particular to a plant growth Mn⁴⁺The garnet fluorescent powder of doping, its system Preparation Method and LED plant growth lamp.

Background technology

Root is it was found that when illumination daily amount is less than 100W/m on bed surface in greenhouse²When, or sunshine time was less than 4.5h/ days When, it should just carry out artificially feed.The light compensation point that general leaf vegetables is used as is about 2000lx, and fruit vegetables crop also wants higher A bit.And the southern area winter, spring unbroken rainy days in, the indoor luminous intensity of temperature only has 2000lx or so, causes as growth It is suppressed.Especially in vegetables commercialization nursery, illumination deficiency influences whether the robust growth of seedling, so as to influence commercial seedling Quality and economic value, it is therefore necessary to carry out artificially feed.At present, plant light compensation is mainly using containing infrared and remote red The fluorescent lamp of external spectrum, but this mode quantity of heat production is big, and the efficiency of light energy utilization is low, directly affects the raising of economic benefit.With temperature The development of room industry and the raising of production level, the research for carrying out the reasonable light filling in greenhouse and reduction light filling cost have seemed more next It is more important.

Understand that high green plants is selective to the demand of light by literature survey.Irradiated with the light source rich in feux rouges Under, the development of plant is significantly accelerated, causes plant compared with prematurity, solid.It can promote the accumulation of dry matter in plant at the same time, promote Make the formation of bulb, root tuber, leaf-head and other plant organ.Under blue light action, promote seedling stem thickening, adjust stomata and open Put, promote cell leakage and cytoplasm circulation.

The content of the invention

First purpose of the present invention is to provide a plant growth Mn⁴⁺The garnet fluorescent powder of doping, makes up existing Missing of the LED plant growth lamp in dark red and far-red light spectral limit, plays shortening plant growing cycle, promotes plant health fast The effect of fast-growing length.

To achieve the above object, the present invention adopts the following technical scheme that：

One plant growth Mn⁴⁺The garnet fluorescent powder of doping, its chemical general formula are (Li_1-yM_y)₂(Ti_1-zLn_z)O₃： xMn⁴⁺, wherein M is one or more elements in alkaline-earth metal Na, K, Ru, Cs；Ln is one kind or more in Si, Ge, Sn, Zr Kind of element, 0 ＜ x≤0.05,0 ＜ y≤1,0 ＜ z≤0.3.

Preferably, the garnet fluorescent powder can be excited by the light in 300 nanometer of -550 nanometer wavelength range, launch 650 nanometers -750 nanometers of far-red light, centre wavelength are located at 680 nanometers.

Second object of the present invention is to provide a plant growth Mn⁴⁺The preparation side of the garnet fluorescent powder of doping Method.

One plant growth Mn⁴⁺The preparation method of the garnet fluorescent powder of doping, comprises the following steps：

(1) after analytically pure powder raw material is weighed by mol ratio, 3-5 milliliters of ethanol are added, are ground 30-120 minutes, Powder raw material is uniformly mixed, obtains mixture；

(2) mixture obtained by step (1) is passed through oxidizing atmosphere in the environment of temperature is 950-1150 degree Celsius, kept the temperature Make mixture that solid phase reaction occur when 2-8 is small, last furnace cooling obtains plant growth Mn⁴⁺The garnet fluorescent powder of doping.

Preferably, analytically pure material powder is Li in the step 1)₂CO₃、TiO₂And MnCO₃, according to Li⁺：Ti⁴⁺： Mn²⁺=2：1：0.01 mol ratio weighs.

Preferably, analytically pure material powder is K in the step 1)₂CO₃、TiO₂、SnO₂And MnCO₃, according to K⁺： Ti⁴⁺：Sn⁴⁺：Mn²⁺=2：0.8：0.2：0.01 mol ratio weighs.

Preferably, analytically pure material powder is Cs in the step 1)₂CO₃、TiO₂、GeO₂And MnCO₃, according to Cs⁺： Ti⁴⁺：Ge⁴⁺：Mn²⁺=2：0.9：0.1：0.01 mol ratio weighs.

Preferably, analytically pure material powder is Li in the step 1)₂CO₃、TiO₂、GeO₂、SnO₂And MnCO₃, press According to Li⁺：Ti⁴⁺：Ge⁴⁺：Sn⁴⁺：Ge⁴⁺：Mn²⁺=2：0.85：0.1：0.05：0.01 mol ratio weighs.

Third object of the present invention is to provide a kind of LED plant growth lamp.

A kind of LED plant growth lamp, including above-mentioned garnet fluorescent powder.

Preferably, the LED plant growth lamp further includes blue chip, the LED plant growth lamp is by blue chip Formed with garnet fluorescent powder encapsulation.

Preferably, the blue chip is GaN base inorganic semiconductor LED grain, emission spectrum main peak is received positioned at 440 - 460 nanometers of rice.

The beneficial effects of the invention are as follows：

1. the plant growth Mn of the present invention⁴⁺The garnet fluorescent powder of doping makes up existing LED plant growth lamp dark red With the missing in far-red light spectral limit, shortening plant growing cycle is played, promotes the effect of plant health fast-growth；

2. the LED plant growth lamp of the present invention have light efficiency height, less energy consumption, long lifespan, be simple to manufacture, that stability is good etc. is excellent Point, can carry out large-scale production, and on the required illumination condition of plant normal growth is provided, it is practical with certain popularization Value；

3. since LED type of wavelength is enriched, just it coincide with photosynthesis of plant spectral region, is obtained by combining on demand Various types of complex spectrums are obtained, concentrate the light equilibrium irradiate crop of specific wavelength, the utilization rate of spectrum can be greatly improved, because This, LED plant growth lamp of the invention can be effectively facilitated plant health fast-growth；

4. since LED information display system fever is few, take up space small, therefore, LED plant growth lamp of the invention can be used for multilayer cultivation The three-dimensional combined system of training.

Brief description of the drawings

Fig. 1 is the plant growth Mn obtained in the embodiment of the present invention 1⁴⁺The X-ray diffraction of the garnet fluorescent powder of doping Figure.

Fig. 2 is the plant growth Mn obtained in the embodiment of the present invention 1⁴⁺The excitation emission spectra of the garnet fluorescent powder of doping Figure；Wherein, excitation wavelength is 460 nanometers, and the launch wavelength of monitoring is 680 nanometers.

Fig. 3 is the electroluminescent launching light spectrogram of LED plant growth lamp in the embodiment of the present invention 1.

Fig. 4 is the plant growth Mn obtained in the embodiment of the present invention 2⁴⁺The excitation emission spectra of the garnet fluorescent powder of doping Figure.

Fig. 5 is the plant growth Mn obtained in the embodiment of the present invention 3⁴⁺The excitation emission spectra of the garnet fluorescent powder of doping Figure.

Fig. 6 is the plant growth Mn obtained in the embodiment of the present invention 4⁴⁺The X-ray diffraction of the garnet fluorescent powder of doping Figure.

Fig. 7 is the plant growth Mn obtained in the embodiment of the present invention 4⁴⁺The excitation emission spectra of the garnet fluorescent powder of doping Figure.

Embodiment

Embodiment 1

One plant growth Mn⁴⁺The preparation method of the garnet fluorescent powder of doping, comprises the following steps：

(1) it is Li by analytically pure material powder₂CO₃、TiO₂And MnCO₃, according to Li⁺：Ti⁴⁺：Mn²⁺=2：1：0.01 rubs You are placed in agate mortar in proportioning weighing, are added 3 milliliters of ethanol, are ground 35 minutes, be uniformly mixed powder raw material, mixed Compound；

(2) mixture obtained by step (1) is placed in square crucible, it is 1050 Celsius to be put into tube furnace and be heated to temperature Degree, is passed through oxidizing atmosphere, and insulation 2 makes mixture that solid phase reaction occur when small, last furnace cooling obtains plant growth Mn⁴⁺Mix Miscellaneous garnet fluorescent powder.

Oxidizing atmosphere in step (2) is oxygen.

As shown in Figure 1, according to X-ray analysis as a result, the plant growth Mn obtained⁴⁺The garnet fluorescent powder of doping is pure Phase Li₂TiO₃。

As shown in Fig. 2, with FLS980 should spectrometer measurement its excite at room temperature and emission spectra, under 460 nanometers of excitations, Plant growth Mn⁴⁺The garnet fluorescent powder of doping shows Mn⁴⁺Feature it is sharp²E_g→⁴A_2gDark red light emitting peak.

By obtained plant growth Mn⁴⁺The garnet fluorescent powder of doping directly encapsulates with blue chip and LED plants is made Growth lamp, its electroluminescent emission spectrum are as shown in Figure 3.

Embodiment 2

One plant growth Mn⁴⁺The preparation method of the garnet fluorescent powder of doping, comprises the following steps：

(1) by analytically pure material powder K₂CO₃、TiO₂、SnO₂And MnCO₃, according to K⁺：Ti⁴⁺：Sn⁴⁺：Mn²⁺=2：0.8： 0.2：0.01 mol ratio is weighed and is placed in agate mortar, adds 5 milliliters of ethanol, is ground 35 minutes, is mixed powder raw material Uniformly, mixture is obtained；

(2) mixture obtained by step (1) is placed in square crucible, it is 1050 Celsius to be put into tube furnace and be heated to temperature Degree, is passed through oxidizing atmosphere, and insulation 2 makes mixture that solid phase reaction occur when small, last furnace cooling obtains plant growth Mn⁴⁺Mix Miscellaneous garnet fluorescent powder.

Oxidizing atmosphere in step (2) is oxygen.

According to X-ray analysis as a result, the plant growth Mn obtained⁴⁺The garnet fluorescent powder of doping is pure phase K₂TiO₃。

As shown in figure 4, with FLS980 should spectrometer measurement its excite at room temperature and emission spectra, under 460 nanometers of excitations, Plant growth Mn⁴⁺The garnet fluorescent powder of doping shows Mn⁴⁺The sharp dark red light emitting peak of feature.

By obtained plant growth Mn⁴⁺The garnet fluorescent powder of doping directly encapsulates with blue chip and LED plants is made Growth lamp.

Embodiment 3

One plant growth Mn⁴⁺The preparation method of the garnet fluorescent powder of doping, comprises the following steps：

(1) it is Cs by analytically pure material powder₂CO₃、TiO₂、GeO₂And MnCO₃, according to Cs⁺：Ti⁴⁺：Ge⁴⁺：Mn²⁺=2： 0.9：0.1：0.01 mol ratio is weighed and is placed in agate mortar, adds 4 milliliters of ethanol, is ground 35 minutes, is made powder raw material It is uniformly mixed, obtains mixture；

(2) mixture obtained by step (1) is placed in square crucible, it is 1050 Celsius to be put into tube furnace and be heated to temperature Degree, is passed through oxidizing atmosphere, and insulation 2 makes mixture that solid phase reaction occur when small, last furnace cooling obtains plant growth Mn⁴⁺Mix Miscellaneous garnet fluorescent powder.

Oxidizing atmosphere in step (2) is oxygen.

According to X-ray analysis as a result, the plant growth Mn obtained⁴⁺The garnet fluorescent powder of doping is pure phase Cs₂TiO₃。

As shown in figure 5, with FLS980 should spectrometer measurement its excite at room temperature and emission spectra, under 460 nanometers of excitations, Plant growth Mn⁴⁺The garnet fluorescent powder of doping shows Mn⁴⁺The sharp dark red light emitting peak of feature.

By obtained plant growth Mn⁴⁺The garnet fluorescent powder of doping directly encapsulates with blue chip and LED plants is made Growth lamp.

Embodiment 4

One plant growth Mn⁴⁺The preparation method of the garnet fluorescent powder of doping, comprises the following steps：

(1) it is Li by analytically pure material powder₂CO₃、TiO₂、GeO₂、SnO₂And MnCO₃, according to Li⁺：Ti⁴⁺：Ge⁴⁺：Sn^{4 +}：Ge⁴⁺：Mn²⁺=2：0.85：0.1：0.05：0.01 mol ratio is weighed and is placed in agate mortar, is added 3 milliliters of ethanol, is ground Mill 35 minutes, is uniformly mixed powder raw material, obtains mixture；

(2) mixture obtained by step (1) is placed in square crucible, it is 1050 Celsius to be put into tube furnace and be heated to temperature Degree, is passed through oxidizing atmosphere, and insulation 2 makes mixture that solid phase reaction occur when small, last furnace cooling obtains plant growth Mn⁴⁺Mix Miscellaneous garnet fluorescent powder.

Oxidizing atmosphere in step (2) is oxygen.

As shown in fig. 6, according to X-ray analysis as a result, the plant growth Mn obtained⁴⁺The garnet fluorescent powder of doping is pure Phase Li₂TiO₃。

As shown in fig. 7, with FLS980 should spectrometer measurement its excite at room temperature and emission spectra, under 460 nanometers of excitations, Plant growth Mn⁴⁺The garnet fluorescent powder of doping shows Mn⁴⁺The sharp red emission peak of feature.

By obtained plant growth Mn⁴⁺The garnet fluorescent powder of doping directly encapsulates with blue chip and LED plants is made Growth lamp.

Claims (10)

1. A 1. plant growth Mn⁴⁺The garnet fluorescent powder of doping, it is characterised in that its chemical general formula is (Li_1-yM_y)₂ (Ti_1-zLn_z)O₃：xMn⁴⁺, wherein M is one or more elements in alkaline-earth metal Na, K, Ru, Cs；Ln is Si, Ge, Sn, Zr In one or more elements, 0 ＜ x≤0.05,0 ＜ y≤1,0 ＜ z≤0.3.
2. 2. plant growth Mn according to claim 1⁴⁺The garnet fluorescent powder of doping, it is characterised in that described dark red Color fluorescent powder can be excited by the light in 300 nanometer of -550 nanometer wavelength range, launch 650 nanometers -750 nanometers of far-red light, Centre wavelength is located at 680 nanometers.
3. 3. plant growth Mn according to claim 1⁴⁺The preparation method of the garnet fluorescent powder of doping, its feature exist In comprising the following steps：

   (1) after analytically pure powder raw material is weighed by mol ratio, 3-5 milliliters of ethanol are added, grinds 30-120 minutes, makes powder Powder stock is uniformly mixed, and obtains mixture；

   (2) mixture obtained by step (1) is passed through oxidizing atmosphere in the environment of temperature is 950-1150 degree Celsius, keeps the temperature 2-8 Hour makes mixture that solid phase reaction occur, and last furnace cooling obtains plant growth Mn⁴⁺The garnet fluorescent powder of doping.
4. 4. plant growth Mn according to claim 3⁴⁺The preparation method of the garnet fluorescent powder of doping, its feature exist In analytically pure material powder is Li in the step 1)₂CO₃、TiO₂And MnCO₃, according to Li⁺：Ti⁴⁺：Mn²⁺=2：1：0.01 Mol ratio weighs.
5. 5. plant growth Mn according to claim 3⁴⁺The preparation method of the garnet fluorescent powder of doping, its feature exist In analytically pure material powder is K in the step 1)₂CO₃、TiO₂、SnO₂And MnCO₃, according to K⁺：Ti⁴⁺：Sn⁴⁺：Mn²⁺=2： 0.8：0.2：0.01 mol ratio weighs.
6. 6. plant growth Mn according to claim 3⁴⁺The preparation method of the garnet fluorescent powder of doping, its feature exist In analytically pure material powder is Cs in the step 1)₂CO₃、TiO₂、GeO₂And MnCO₃, according to Cs⁺：Ti⁴⁺：Ge⁴⁺：Mn²⁺= 2：0.9：0.1：0.01 mol ratio weighs.
7. 7. plant growth Mn according to claim 3⁴⁺The preparation method of the garnet fluorescent powder of doping, its feature exist In analytically pure material powder is Li in the step 1)₂CO₃、TiO₂、GeO₂、SnO₂And MnCO₃, according to Li⁺：Ti⁴⁺：Ge⁴⁺： Sn⁴⁺：Ge⁴⁺：Mn²⁺=2：0.85：0.1：0.05：0.01 mol ratio weighs.
8. 8. a kind of LED plant growth lamp, it is characterised in that including garnet fluorescent powder as claimed in claim 1 or 2.
9. 9. LED plant growth lamp according to claim 8, it is characterised in that the LED plant growth lamp further includes blue light Chip, the LED plant growth lamp are formed by blue chip and garnet fluorescent powder encapsulation.
10. 10. LED plant growth lamp according to claim 9, it is characterised in that the blue chip is GaN base inorganic half Conductor LED grain, emission spectrum main peak are located at 440 nanometers -460 nanometers.