CN102660802A - Preparation method for erbium and ytterbium double-doped up-conversion luminescence nano-fiber - Google Patents

Abstract

The invention relates to a preparation method for an erbium and ytterbium double-doped up-conversion luminescence nano-fiber and belongs to the field of nano-material preparation, comprising the steps of (1) preparing a spinning solution; (2) preparing a PVP/metal nitrate composite fiber using a static spinning technique; (3) preparing a mixed oxide nano-fiber; and (4) preparing a LiYF4:Er3+, Yb3+ up-conversion luminescence nano-fiber. Fluorination of the mixed oxide nano-fiber with ammonium bifluoride by a double-crucible method is performed, and the LiYF4:Er3+, Yb3+ up-conversion luminescence nano-fiber having a diameter of 202.7+/-21.7nm and a length greater than 50 [mu]m with good crystallinity is obtained. The up-conversion luminescence nano-fiber is a nano luminescent material having significant application value. The preparation method is simple to operate and suitable for mass production, having a broad application prospect.

Description

The two preparation methods that mix tetrafluoro yttrium lithium up-conversion luminescence nanofiber of a kind of erbium ytterbium

Technical field

The present invention relates to the nano material preparation research field, relate to the two preparation methods that mix tetrafluoro yttrium lithium up-conversion luminescence nanofiber of a kind of erbium ytterbium specifically.

Background technology

Nanofiber is meant the filamentary material that on the three dimensions yardstick of material, has bidimensional to be in nanoscale, and radial dimension is a nanometer scale usually, and length is then bigger.Because the radial dimension of nanofiber is little of nanometer scale; Demonstrate series of characteristics; The most outstanding is that specific area is big; Thereby its surface energy increases with active, and then produces small-size effect, surface or interfacial effect, quantum size effect, macro quanta tunnel effect etc., and therefore shows the specificity of a series of chemistry, physics (heat, light, sound, electricity, magnetic etc.) aspect.In the prior art, a lot of methods that prepare nanofiber are arranged, the method for for example reeling off raw silk from cocoons, template synthetic method, split-phase method and self-assembly method etc.In addition, also has arc evaporation, laser high temperature inustion, compound pyrolysismethod.These three kinds of methods in fact all are after at high temperature making compound (or simple substance) evaporation, make nanofiber or nanotube through pyrolysis (or directly condensation), from essence, all belong to the compound steam sedimentation.

The up-conversion luminescence process is meant that absorbed sends the process of higher-energy photon than energy photons, and this special nature that up-conversion had makes it have broad application prospects in laser technology, optical fiber communication technology, fibre amplifier, Display Technique and numerous areas such as false proof.Up-conversion generally includes activator, sensitizer and matrix.Erbium ion Er ³⁺Have abundant energy level, and part is longer the life time of the level, last conversion efficiency is very high, is the activator of the more up-conversion of research at present.With Er ³⁺Ion is that the up-conversion of activator adopts ytterbium ion Yb usually ³⁺Be sensitizer.The rare earth tetrafluoride because have abundant 4f energy level and lower phonon can, be one of matrix of at present rare earth ion doped efficient up-conversion luminescent material.The two tetrafluoro yttrium lithium LiYF that mix of erbium ytterbium ₄: Er ³⁺, Yb ³⁺Be a kind of important up-conversion luminescent material, have the important application prospect.Adopt methods such as microemulsion method, presoma pyrolysismethod, hydro-thermal and solvent-thermal method, the precipitation method, sol-gel process, polyalcohol method, higher boiling ligand solvent method, prepared LiYF ₄: Er ³⁺, Yb ³⁺Nanocrystalline, nanometer rods, sheet, nano materials such as cube is nanocrystalline, hexahedron is nanocrystalline, octahedron is nanocrystalline, hollow tubular structures, nano wire, spindle.The two tetrafluoro yttrium lithium LiYF that mix of erbium ytterbium ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber is a kind of novel luminescent material, will obtain important application in fields such as luminous and demonstration, false proof, medical science detection, biomarker, solar cell, chemistry and biology sensor, nano-devices, has broad application prospects.At present, do not see the two tetrafluoro yttrium lithium LiYF that mix of erbium ytterbium ₄: Er ³⁺, Yb ³⁺The report of up-conversion luminescence nanofiber.

The patent No. is the technical scheme that 1975504 United States Patent (USP) discloses a relevant electrospinning process (electrospinning); This method is a kind of effective ways that prepare continuous, as to have macro length micro nanometer fiber, is at first proposed in 1934 by Formhals.This method mainly is used for preparing high polymer nanometer fiber; It is characterized in that making charged Polymer Solution or melt in electrostatic field, to receive the traction of electrostatic force and spray, invest the receiving screen on opposite, thereby realize wire drawing by nozzle; Then; Solvent evaporation at normal temperatures, perhaps melt is cooled to normal temperature and solidifies, and obtains micro nanometer fiber.Over nearly 10 years, occurred adopting electrospinning process to prepare the technical scheme of inorganic compound such as oxidate nano fiber at the inorfil preparing technical field, described oxide comprises TiO ₂, ZrO ₂, Y ₂O ₃, Y ₂O ₃: RE ³⁺(RE ³⁺=Eu ³⁺, Tb ³⁺, Er ³⁺, Yb ³⁺/ Er ³⁺), NiO, Co ₃O ₄, Mn ₂O ₃, Mn ₃O ₄, CuO, SiO ₂, Al ₂O ₃, V ₂O ₅, ZnO, Nb ₂O ₅, MoO ₃, CeO ₂, LaMO ₃(M=Fe, Cr, Mn, Co, Ni, Al), Y ₃Al ₅O ₁₂, La ₂Zr ₂O ₇Deng metal oxide and composite oxide of metal.Employing electrostatic spinning techniques such as Wang Jinxian have prepared rare earth fluoride/rare earth oxyfluoride composite nano fibre (Chinese invention patent, grant number: ZL200810050959.0); Employing electrostatic spinning techniques such as Dong Xiangting have prepared mixes europium Y ₇O ₆F ₉Nanofiber (Chinese invention patent, grant number: ZL201010550196.3); Employing electrostatic spinning techniques such as Wang Jinxian have prepared rare earth trifluoride nanofiber (Chinese invention patent, grant number: ZL201010107993.4); Wang Ce etc. adopt electrostatic spinning technique to pass through R (CF ₃CO ₂) ₃/ PVP (R=Eu, Ho) heat-treat, and synthesized ROF (R=Eu, Ho) nanofiber (J.Nanosci.Nanotechnol., 2009,9 (2): 1522-1525) by composite nano fiber.Electrospinning process can prepare big L/D ratio micrometer fibers or nanofiber continuously.Do not see that at present adopting electrostatic spinning technique to combine with fluorination technology prepares LiYF ⁴: Er ³⁺, Yb ³⁺The report of up-conversion luminescence nanofiber.

When utilizing electrostatic spinning technique to prepare nano material, the composition of the kind of raw material, the molecular weight of high polymer templates, spinning solution, spinning process parameter and Technology for Heating Processing all have material impact to the pattern and the size of final products.The present invention adopts electrostatic spinning technique earlier, with a hydronium(ion) oxidation lithium LiOHH ₂O, yittrium oxide Y ₂O ₃, erbium oxide Er ₂O ₃With ytterbium oxide Yb ₂O ₃Be raw material,, obtain lithium nitrate LiNO with evaporating behind the nitric acid dissolve ₃, yttrium nitrate Y (NO ₃) ₃, erbium nitrate Er (NO ₃) ₃With ytterbium nitrate Yb (NO ₃) ₃Mixed crystal adds solvent N, and dinethylformamide DMF and high polymer templates polyvinylpyrrolidone PVP obtain carrying out electrostatic spinning behind the spinning solution, under the experiment condition of the best, prepare PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre, it is heat-treated in air, obtain the mixed oxide nanoparticle fiber, adopt double crucible method, with ammonium acid fluoride NH ₄HF ₂Fluoridize for fluorization agent, prepared the LiYF of the pure phase of novel structure ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber.

Summary of the invention

Various in background technology prepare in the method for nanofiber, the shortcoming of the method for reeling off raw silk from cocoons be solution viscosity is required too harsh; The shortcoming of template synthetic method is to prepare the continuous fibers that the root root separates; Split-phase method and self-assembly method production efficiency are all lower; And the compound steam sedimentation is because to the demand of high temperature, so process conditions are difficult to control, and the nanofiber major diameter of above-mentioned several method preparation is than little.Use electrostatic spinning technique in the background technology has prepared metal oxide, composite oxide of metal nanofiber, rare earth fluoride/rare earth oxyfluoride composite nano fibre, has mixed europium Y ₇O ₆F ₉Nanofiber, rare earth trifluoride nanofiber and ROF (R=Eu, Ho) nanofiber.Prior art adopts methods such as microemulsion method, presoma pyrolysismethod, hydro-thermal and solvent-thermal method, the precipitation method, sol-gel process, polyalcohol method, higher boiling ligand solvent method, has prepared LiYF ₄: Er ³⁺, Yb ³⁺Nanocrystalline, nanometer rods, sheet, nano materials such as cube is nanocrystalline, hexahedron is nanocrystalline, octahedron is nanocrystalline, hollow tubular structures, nano wire, spindle.For a kind of novel up-conversion luminescence nano-fiber material is provided in the nanofiber field, we combine electrostatic spinning technique with fluorination technology, invented LiYF ₄: Er ³⁺, Yb ³⁺The preparation method of up-conversion luminescence nanofiber.

The present invention is achieved in that and at first prepares the spinning solution with certain viscosity that is used for electrostatic spinning, uses electrostatic spinning technique and carries out electrostatic spinning, under the experiment condition of the best, prepares PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre, it is heat-treated in air, obtained the mixed oxide nanoparticle fiber, adopt double crucible method, with ammonium acid fluoride NH ₄HF ₂Fluoridize for fluorization agent, prepared the LiYF of the pure phase of novel structure ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber.In the present invention, the erbium ion Er of doping ³⁺With ytterbium ion Yb ³⁺Mole percent be respectively 1% and 20%.The steps include:

(1) preparing spinning solution

That use in lithium source, yttrium source, erbium source and ytterbium source is a hydronium(ion) oxidation lithium LiOHH ₂O, yittrium oxide Y ₂O ₃, erbium oxide Er ₂O ₃With ytterbium oxide Yb ₂O ₃, high polymer templates adopts polyvinylpyrrolidone PVP, and molecular weight is 1300000, adopts N, and dinethylformamide DMF is a solvent, takes by weighing an a certain amount of hydronium(ion) oxidation lithium LiOHH ₂O, yittrium oxide Y ₂O ₃, erbium oxide Er ₂O ₃With ytterbium oxide Yb ₂O ₃, Li wherein ⁺, Y ³⁺, Er ³⁺And Yb ³⁺Mol ratio be 100: 79: 1: 20, i.e. erbium ion Er ³⁺With ytterbium ion Yb ³⁺Mole percent be 1% and 20%, use nitric acid HNO ₃The evaporation of dissolving back obtains LiNO ₃, Y (NO ₃) ₃, Er (NO ₃) ₃And Yb (NO ₃) ₃Mixed crystal adds an amount of N, dinethylformamide DMF solvent and polyvinylpyrrolidone PVP; Stir 6h in the room temperature lower magnetic force; And leave standstill 4h, and promptly forming spinning solution, the mass percent of this each part of spinning solution is: nitrate content 5%; PVP content 13%, solvent DMF content 82%;

(2) PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre

The spinning solution for preparing is added in the liquid storage pipe of device for spinning, carry out electrostatic spinning, shower nozzle internal diameter 0.7mm; The angle of adjustment shower nozzle and horizontal plane is 20 °, applies the DC voltage of 12kV, solidifies apart from 18cm; 18～25 ℃ of room temperatures, relative humidity is 55%～75%, obtains PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre;

(3) preparation mixed oxide nanoparticle fiber

With described PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre is put in the temperature programmed control stove and heat-treats, heating rate is 1 ℃/min, at 600 ℃ of constant temperature 4h, the speed with 1 ℃/min is cooled to 200 ℃ again, naturally cools to room temperature with body of heater afterwards, obtains the mixed oxide nanoparticle fiber;

(4) preparation LiYF ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber

Fluorination reagent uses ammonium acid fluoride NH ₄HF ₂, adopt double crucible method, ammonium acid fluoride is put into monkey; Cover carbon-point above, described mixed oxide nanoparticle fiber is placed on above the carbon-point, monkey is put into bigger crucible; Between interior outer crucible, add excessive ammonium acid fluoride, add that on outer crucible the crucible lid puts into tube furnace, be warming up to 280 ℃ of insulation 2h with the heating rate of 2 ℃/min; Be warmed up to 500 ℃ of insulation 3h again; Rate of temperature fall with 1 ℃/min is cooled to 200 ℃ at last, naturally cools to room temperature with body of heater afterwards, obtains LiYF ₄: Er ³⁺, Yb ³⁺Up-conversion luminescence nanofiber, diameter are 202.7 ± 21.7nm, and length is greater than 50 μ m.

At the LiYF described in the said process ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber has good crystallinity, and diameter is 202.7 ± 21.7nm, and length has realized goal of the invention greater than 50 μ m.

Description of drawings

Fig. 1 is LiYF ₄: Er ³⁺, Yb ³⁺The XRD spectra of up-conversion luminescence nanofiber;

Fig. 2 is LiYF ₄: Er ³⁺, Yb ³⁺The SEM photo of up-conversion luminescence nanofiber, this figure double as Figure of abstract;

Fig. 3 is LiYF ₄: Er ³⁺, Yb ³⁺The diameter Distribution histogram of up-conversion luminescence nanofiber;

Fig. 4 is LiYF ₄: Er ³⁺, Yb ³⁺The EDS spectrogram of up-conversion luminescence nanofiber;

Fig. 5 is LiYF ₄: Er ³⁺, Yb ³⁺The last switching emission spectrogram of up-conversion luminescence nanofiber;

Fig. 6 is LiYF ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber when the diode laser of different exciting powers excites on the switching emission spectrogram;

Fig. 7 is LiYF ₄: Er ³⁺, Yb ³⁺Two natural logrithm figure between the up-conversion luminescence intensity of up-conversion luminescence nanofiber and the exciting power of diode laser.

The specific embodiment

The yittrium oxide Y that the present invention selected for use ₂O ₃, erbium oxide Er ₂O ₃With ytterbium oxide Yb ₂O ₃Purity be 99.99%, polyvinylpyrrolidone PVP, molecular weight 1300000, N, dinethylformamide DMF, carbon-point, a hydronium(ion) oxidation lithium LiOHH ₂O, ammonium acid fluoride NH ₄HF ₂With nitric acid HNO ₃Be commercially available analysis net product; Used glass apparatus, crucible and equipment are instrument and equipments commonly used in the laboratory.

Embodiment: take by weighing an a certain amount of hydronium(ion) oxidation lithium LiOHH ₂O, yittrium oxide Y ₂O ₃, erbium oxide Er ₂O ₃With ytterbium oxide Yb ₂O ₃, Li wherein ⁺, Y ³⁺, Er ³⁺And Yb ³⁺Mol ratio be 100: 79: 1: 20, i.e. erbium ion Er ³⁺With ytterbium ion Yb ³⁺Mole percent be 1% and 20%, use nitric acid HNO ₃The evaporation of dissolving back obtains LiNO ₃, Y (NO ₃) ₃, Er (NO ₃) ₃And Yb (NO ₃) ₃Mixed crystal adds an amount of N, dinethylformamide DMF solvent and polyvinylpyrrolidone PVP; Stir 6h in the room temperature lower magnetic force; And leave standstill 4h, and promptly forming spinning solution, the mass percent of this each part of spinning solution is: nitrate content 5%; PVP content 13%, solvent DMF content 82%; The spinning solution for preparing is added in the liquid storage pipe of device for spinning, carry out electrostatic spinning, shower nozzle internal diameter 0.7mm; The angle of adjustment shower nozzle and horizontal plane is 20 °, applies the DC voltage of 12kV, solidifies apart from 18cm; 18～25 ℃ of room temperatures, relative humidity is 55%～75%, obtains PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre; With described PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre is put in the temperature programmed control stove and heat-treats, heating rate is 1 ℃/min, at 600 ℃ of constant temperature 4h, the speed with 1 ℃/min is cooled to 200 ℃ again, naturally cools to room temperature with body of heater afterwards, obtains the mixed oxide nanoparticle fiber; Fluorination reagent uses ammonium acid fluoride NH ₄HF ₂, adopt double crucible method, ammonium acid fluoride is put into monkey; Cover carbon-point above, described mixed oxide nanoparticle fiber is placed on above the carbon-point, monkey is put into bigger crucible; Between interior outer crucible, add excessive ammonium acid fluoride, add that on outer crucible the crucible lid puts into tube furnace, be warming up to 280 ℃ of insulation 2h with the heating rate of 2 ℃/min; Be warmed up to 500 ℃ of insulation 3h again; Rate of temperature fall with 1 ℃/min is cooled to 200 ℃ at last, naturally cools to room temperature with body of heater afterwards, obtains LiYF ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber.Described LiYF ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber has good crystallinity, the d value of its diffraction maximum and relative intensity and LiYF ₄The listed d value of PDF standard card (77-0816) consistent with relative intensity, belong to tetragonal crystal system, space group is I41/a, sees shown in Figure 1.Described LiYF ₄: Er ³⁺, Yb ³⁺The diameter of up-conversion luminescence nanofiber is even, is fibrous, and length is seen shown in Figure 2 greater than 50 μ m.With the Shapiro-Wilk method to LiYF ₄: Er ³⁺, Yb ³⁺The diameter of up-conversion luminescence nanofiber carries out normal distribution-test, under 95% confidence level, and LiYF ₄: Er ³⁺, Yb ³⁺The diameter Distribution of up-conversion luminescence nanofiber belongs to normal distribution, and diameter is 202.7 ± 21.7nm, sees shown in Figure 3.LiYF ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber is formed (the Au conductive layer of surface plating when Au derives from the SEM sample preparation, the Li element can not detect with the EDS spectrum) by Y, F, Er and Yb element, sees shown in Figure 4.Use wavelength as the diode laser of 980nm, power 549mW as excitation source, obtain LiYF ₄: Er ³⁺, Yb ³⁺The last switching emission spectrum of up-conversion luminescence nanofiber, the bands of a spectrum that are respectively 407nm, 520nm, 548nm and 650nm by peak value are formed, wherein the corresponding Er of the blue emission at 407nm place ³⁺Ion ²H _9/2→ ⁴I _15/2The transition emission, the corresponding Er of the green emission at 520nm and 548nm place ³⁺Ion ²H _11/2→ ⁴I _15/2With ⁴S _3/2→ ⁴I _15/2Transition emission, and the corresponding Er of the red emission at 650nm place ³⁺Ion ⁴F _9/2→ ⁴I _15/2The transition emission is seen shown in Figure 5.LiYF ₄: Er ³⁺, Yb ³⁺The last switching emission spectrum of up-conversion luminescence nanofiber strengthens along with the increase of the exciting power of diode laser, sees shown in Figure 6.With LiYF ₄: Er ³⁺, Yb ³⁺Green emission in the last switching emission spectrum of up-conversion luminescence nanofiber ⁴S _3/2→ ⁴I _15/2Transition and red emission ⁴F _9/2→ ⁴I _15/2The natural logrithm lnI of the up-conversion luminescence intensity of transition obtains two straight lines, wherein to the natural logrithm lnP mapping of the exciting power of diode laser ⁴S _3/2→ ⁴I _15/2Transition with ⁴F _9/2→ ⁴I _15/2The slope n of transition is respectively 1.3361 and 1.3528, shows green emission ⁴S _3/2→ ⁴I _15/2And red emission ⁴F _9/2→ ⁴I _15/2Be biphotonic process, see shown in Figure 7.

Certainly; The present invention also can have other various embodiments; Under the situation that does not deviate from spirit of the present invention and essence thereof; Those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims (2)

1. two preparation methods that mix tetrafluoro yttrium lithium up-conversion luminescence nanofiber of an erbium ytterbium; It is characterized in that; The method that adopts electrostatic spinning technique to combine with fluorination technology uses polyvinylpyrrolidone PVP to be high polymer templates, adopts N; Dinethylformamide DMF is a solvent, and fluorination reagent uses ammonium acid fluoride NH ₄HF ₂, the preparation product is the two tetrafluoro yttrium lithium LiYF that mix of erbium ytterbium ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber the steps include:

(1) preparing spinning solution

That use in lithium source, yttrium source, erbium source and ytterbium source is a hydronium(ion) oxidation lithium LiOHH ₂O, yittrium oxide Y ₂O ₃, erbium oxide Er ₂O ₃With ytterbium oxide Yb ₂O ₃, high polymer templates adopts polyvinylpyrrolidone PVP, adopts N, and dinethylformamide DMF is a solvent, takes by weighing an a certain amount of hydronium(ion) oxidation lithium LiOHH ₂O, yittrium oxide Y ₂O ₃, erbium oxide Er ₂O ₃With ytterbium oxide Yb ₂O ₃, Li wherein ⁺, Y ³⁺, Er ³⁺And Yb ³⁺Mol ratio be 100: 79: 1: 20, i.e. erbium ion Er ³⁺With ytterbium ion Yb ³⁺Mole percent be 1% and 20%, use nitric acid HNO ₃The evaporation of dissolving back obtains LiNO ₃, Y (NO ₃) ₃, Er (NO ₃) ₃And Yb (NO ₃) ₃Mixed crystal adds an amount of N, dinethylformamide DMF solvent and polyvinylpyrrolidone PVP; Stir 6h in the room temperature lower magnetic force; And leave standstill 4h, and promptly forming spinning solution, the mass percent of this each part of spinning solution is: nitrate content 5%; PVP content 13%, solvent DMF content 82%;

(2) PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre

The spinning solution for preparing is added in the liquid storage pipe of device for spinning, carry out electrostatic spinning, shower nozzle internal diameter 0.7mm; The angle of adjustment shower nozzle and horizontal plane is 20 °, applies the DC voltage of 12kV, solidifies apart from 18cm; 18～25 ℃ of room temperatures, relative humidity is 55%～75%, obtains PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre;

(3) preparation mixed oxide nanoparticle fiber

With described PVP/ [LiNO ₃+ Y (NO ₃) ₃+ Er (NO ₃) ₃+ Yb (NO ₃) ₃] composite fibre is put in the temperature programmed control stove and heat-treats, heating rate is 1 ℃/min, at 600 ℃ of constant temperature 4h, the speed with 1 ℃/min is cooled to 200 ℃ again, naturally cools to room temperature with body of heater afterwards, obtains the mixed oxide nanoparticle fiber;

(4) preparation LiYF ₄: Er ³⁺, Yb ³⁺The up-conversion luminescence nanofiber

Fluorination reagent uses ammonium acid fluoride NH ₄HF ₂, adopt double crucible method, ammonium acid fluoride is put into monkey; Cover carbon-point above, described mixed oxide nanoparticle fiber is placed on above the carbon-point, monkey is put into bigger crucible; Between interior outer crucible, add excessive ammonium acid fluoride, add that on outer crucible the crucible lid puts into tube furnace, be warming up to 280 ℃ of insulation 2h with the heating rate of 2 ℃/min; Be warmed up to 500 ℃ of insulation 3h again; Rate of temperature fall with 1 ℃/min is cooled to 200 ℃ at last, naturally cools to room temperature with body of heater afterwards, obtains LiYF ₄: Er ³⁺, Yb ³⁺Up-conversion luminescence nanofiber, diameter are 202.7 ± 21.7nm, and length is greater than 50 μ m.

2. the two preparation methods that mix tetrafluoro yttrium lithium up-conversion luminescence nanofiber of a kind of erbium ytterbium according to claim 1 is characterized in that high polymer templates is the polyvinylpyrrolidone of molecular weight Mr=1300000.

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