阅读说明：本技术 Iii-v族量子点及其制备方法 (Iii-v quantum dot and preparation method thereof ) 是由 彭笑刚 李洋 于 2018-04-11 设计创作，主要内容包括：本申请提供了一种III-V族量子点及其制备方法。该制备方法包括以下步骤：加热II族元素前体和III族元素前体的混合液；加入V族元素前体到混合液中,加热形成包括III-V族量子点核的第一溶液；加入VI族元素前体到第一溶液中形成III-V/II-VI族核壳量子点；纯化III-V/II-VI族核壳量子点；将纯化得到的III-V/II-VI族核壳量子点分散至第二溶液中；加入活化剂和II族元素前体至第二溶液中；加热第二溶液；加入VI族元素前体至第二溶液中形成III-V/II-VI/II-VI族核/壳/壳量子点。(This application provides a kind of iii-v quantum dots and preparation method thereof.The preparation method is the following steps are included: heat the mixed liquor of II race elemental precursors and group-III element precursor；V group element precursor is added into mixed liquor, is thermally formed the first solution including iii-v quantum dot core；VI race elemental precursors are added and form III-V/II-VI race core-shell quanta dots into the first solution；Purify III-V/II-VI race core-shell quanta dots；The III-V/II-VI race core-shell quanta dots that purifying obtains are dispersed in the second solution；Activator and II race elemental precursors is added into the second solution；Heat the second solution；VI race elemental precursors are added and form III-V/II-VI/II-VI race core shell/shell quantum dot into the second solution.)

1. a kind of preparation method of iii-v quantum dot, which is characterized in that the preparation method comprises the following steps:

Heat the mixed liquor of II race elemental precursors and group-III element precursor；

V group element precursor is added into the mixed liquor, is thermally formed the first solution including iii-v quantum dot core；

VI race elemental precursors are added and form III-V/II-VI race core-shell quanta dots into first solution；

Purify III-V/II-VI race core-shell quanta dots；

The III-V/II-VI race core-shell quanta dots that purifying obtains are dispersed in the second solution；

Activator and II race elemental precursors is added into second solution；

Heat second solution；

VI race elemental precursors are added and form III-V/II-VI/II-VI race core shell/shell amount into second solution heated Sub- point.

2. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that the III-V/II-VI/ The material of the multiple II-VI group shells of II-VI group core shell/shell quantum dot is the same compound or different compounds.

3. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that the III-V/II-VI race The thickness of the II-VI group shell of core-shell quanta dots is less than or equal to 4 monolayers.

4. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that the III-V/II-VI/ The thickness of II-VI group core shell/shell quantum dot outer layer II-VI group shell is more than or equal to 4 monolayers.

5. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that II race elemental precursors 50-200 DEG C is heated to the mixed liquor of group-III element precursor.

6. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that described includes iii-v amount First solution of son point core is heated to 200-360 DEG C before or after the VI race elemental precursors are added.

7. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that the purifying includes following Step:

Hexane, any one or two kinds in toluene is added, any one or two kinds and fatty amine in methanol, ethyl alcohol to institute It states in the solution of III-V/II-VI race core-shell quanta dots and mixes；

Stand and isolate the methanol or ethyl alcohol phase of lower layer；

Acetone is added into the hexane and/or toluene phase, III-V/II-VI race core-shell quanta dots are therefrom precipitated out, Collect the III-V/II-VI race core-shell quanta dots that purifying obtains；

Selectively, centrifugation obtains the III-V/II-VI race nucleocapsid amount after acetone is added in Xiang Suoshu hexane and/or toluene phase Sub- point.

8. the preparation method of iii-v quantum dot according to claim 7, which is characterized in that the purifying carries out four times.

9. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that the activator is selected from rouge Fat is sour, diketone one or more.

10. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that add in second solution The molar concentration of the activator entered is 100-1000 times of the III-V/II-VI race core-shell quanta dots concentration.

11. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that second solution is added Heat is to 200-360 DEG C.

12. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that in the second solution of Xiang Suoshu Suitable II race elemental precursors and VI race elemental precursors are added, so that in the III-V/II-VI race nucleocapsid quantum The II-VI group shell of 1 to 2 monolayers is formed on point.

13. the preparation method of iii-v quantum dot according to claim 12, which is characterized in that be at least repeated once with The step of lower sequence: the activator and II race elemental precursors are added to second solution；And the VI race is added Elemental precursors are to second solution.

14. the preparation method of iii-v quantum dot according to claim 13, which is characterized in that according to the sequence weight During multiple any time, the chemical composition for the VI race elemental precursors being added in second solution be initially added The VI elemental precursors are different.

15. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that before the group-III element Body is selected from one of following compound or a variety of: aluminium dihydrogen phosphate, praseodynium aluminium, aluminium chloride, aluminum fluoride, aluminium oxide, Aluminum nitrate, aluminum sulfate, aluminum carboxylate, acetylacetone,2,4-pentanedione gallium, gallium chloride, gallium fluoride, gallium oxide, gallium nitrate, gallium sulfate, carboxylic acid gallium, three Methyl indium, indium acetate, inidum chloride, indium bromide, indium iodide, Indium Tris acetylacetonate, indium oxide, indium nitrate, indium sulfate, carboxylic acid indium.

16. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that the V group element precursor Selected from one of following compound or a variety of: alkylphosphines, three (trialkylsilkl) phosphines, three (dialkyl silyls) Phosphine, three (dialkyl amino) phosphines, three (trialkylsilkl) arsines, three (dialkyl silyl) arsines, three (dialkyl aminos) Arsine.

17. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that II race elemental precursors Selected from one of following compound or a variety of: zinc acetate, zinc methide, diethyl zinc, zinc polycarboxylate, zinc acetylacetonate, iodate Zinc, zinc bromide, zinc chloride, zinc fluoride, zinc carbonate, zinc cyanide, zinc nitrate, zinc oxide, zinc peroxide, zinc perchlorate, zinc sulfate, Cadmium oxide, dimethyl cadmium, diethyl cadmium, cadmium carbonate, two hydrate of cadmium acetate, acetylacetone,2,4-pentanedione cadmium, cadmium fluoride, caddy, iodine Cadmium, cadmium bromide, cadmium perchlorate, cadmium phosphide, cadmium nitrate, cadmium sulfate, carboxylic acid cadmium.

18. the preparation method of iii-v quantum dot according to claim 1, which is characterized in that VI race elemental precursors Selected from one of following compound or a variety of: sulphur powder, trialkyl phosphine sulphur, trialkenyl phosphine sulphur, triphenylphosphine sulphur, diphenylphosphine Sulphur, Phenylphosphine sulphur, alkyl amine group sulphur, alkenyl amido sulphur, alkyl hydrosulfide, selenium powder, trialkyl phosphine selenium, trialkenyl phosphine selenium, triphenyl Phosphine selenium, diphenylphosphine selenium, Phenylphosphine selenium, alkyl amine group selenium, alkenyl amido selenium, trialkyl phosphine tellurium, trialkenyl phosphine tellurium, alkyl amine group Tellurium, alkenyl amido tellurium.

19. a kind of iii-v quantum dot, which is characterized in that the preparation method of the iii-v quantum dot the following steps are included:

Heat the mixed liquor of II race elemental precursors and group-III element precursor；

V group element precursor is added into the mixed liquor, is thermally formed the first solution including iii-v quantum dot core；

VI race elemental precursors are added and form III-V/II-VI race core-shell quanta dots into first solution；

Purify III-V/II-VI race core-shell quanta dots；

The III-V/II-VI race core-shell quanta dots that purifying obtains are dispersed in the second solution；

Activator and II race elemental precursors is added into second solution；

Heat second solution；

VI race elemental precursors are added and form III-V/II-VI/II-VI race core shell/shell amount into second solution heated Sub- point.

20. iii-v quantum dot according to claim 16, which is characterized in that the diameter of the iii-v quantum dot core Less than or equal to 20nm.

21. iii-v quantum dot according to claim 16, which is characterized in that the iii-v quantum dot is in photic hair There is a peak in light spectrum, the half-peak breadth at the peak is less than or equal to 55nm.

Background technique

Quantum dot (multiple quantum dots are abbreviated as QDs or single quantum dot is abbreviated as QD) is a kind of size in quantum confinement ruler Semiconductor nano in very little range.When being electrically or optically applied to quantum dot, the light of specific frequency can be issued, change is passed through Size, pattern or the material of quantum dot form its adjustable luminous specific frequency.The adjustable photoelectric characteristic of quantum dot makes It is commercially concerned, so that having various applications includes transistor, solar battery, LED, diode laser and two Subharmonic, quantum calculation and Medical Imaging etc..

Iii-v quantum dot (containing the III group and V group element in the periodic table of elements) is a kind of attracting business Application material, due to their photoelectric characteristic and they without cadmium, lead, mercury and keep its toxicity low.However, with common cadmium Based quantum dot is compared, and iii-v quantum dot tends to lower luminescence generated by light (PL) quantum yield, lower photochemistry and chemistry Stability and the luminescence generated by light peak broader, homogeneity is poor, these are all that it is widely used in the significant challenge that business is faced.

Summary of the invention

The summary of the invention be provided be in order to introduce will be described in detail below in some concepts for further describing.This general introduction Not it is used to identify crucial or essential feature, is also not intended to the protection scope for making it be used to limit theme.

Embodiment disclosed by the invention is related to a kind of iii-v quantum dot and preparation method thereof.

In some aspects, disclosed embodiment is related to a kind of preparation method of iii-v quantum dot, comprising the following steps: Heat the mixed liquor of II race elemental precursors and group-III element precursor；V group element precursor is added into above-mentioned mixed liquor, heats shape At the first solution including iii-v quantum dot core；VI race elemental precursors are added and form III-V/II- into above-mentioned first solution VI race core-shell quanta dots；Purify above-mentioned III-V/II-VI race core-shell quanta dots；The above-mentioned III-V/II-VI race that purifying is obtained Core-shell quanta dots are dispersed in the second solution；Activator and II race elemental precursors is added into above-mentioned second solution；It heats above-mentioned Second solution；Be added VI race elemental precursors formed into above-mentioned second solution heated III-V/II-VI/II-VI race core/ Shell/shell quantum dot.

On the other hand, disclosed embodiment is related to a kind of iii-v quantum dot, the preparation of above-mentioned iii-v quantum dot Method is the following steps are included: heat the mixed liquor of II race elemental precursors and group-III element precursor；V group element precursor is added to upper It states in mixed liquor, is thermally formed the first solution including iii-v quantum dot core；It is molten to above-mentioned first that VI race elemental precursors are added III-V/II-VI race core-shell quanta dots are formed in liquid；Purify above-mentioned III-V/II-VI race core-shell quanta dots；Purifying is obtained Above-mentioned III-V/II-VI race core-shell quanta dots are dispersed in the second solution；Activator and II race elemental precursors are added to above-mentioned the In two solution；Heat above-mentioned second solution；VI race elemental precursors are added and form III-V/ into above-mentioned second solution heated II-VI/II-VI race core shell/shell quantum dot.

According to the following description and the appended claims, other aspects and advantage of the application be will be evident.

Detailed description of the invention

Fig. 1 graphically describes the general synthetic method of the iii-v quantum dot disclosed according to one or more embodiments Each step in nanoparticle；

Fig. 2 shows the flow charts for the synthesis iii-v quantum dot that the application one or more embodiment discloses；

Fig. 3 shows transmission electron microscope (TEM) figure of InP quantum dot core in the embodiment of the present application；

Fig. 4 shows the TEM figure of the quantum dot with thin ZnSe shell cladding InP core in the embodiment of the present application；

Fig. 5 is shown, and there is the ZnSe shell thickeied (thickness is formed i.e. on thin ZnSe shell in the embodiment of the present application ZnSe shell) cladding InP core quantum dot TEM figure；

Fig. 6, which shows InP core/thickening ZnSe shell/ZnS shell quantum dot TEM in the embodiment of the present application, to scheme；

Fig. 7 is shown in the embodiment of the present application, and different temperatures and Se preceding scale of construction are to quantum dot in ZnSe thickness shell growth course PL half-peak breadth (FWHM) influence curve；

Fig. 8 is shown grow in the case that identical in other conditions in the embodiment of the present application but temperature is different after obtain Luminescence generated by light (PL) spectrum of InP/ZnSe quantum dot；

Fig. 9 shows the uv-vis spectra of InP core and the InP/ZnSe quantum dot with shell in the embodiment of the present application And the PL spectrum of the InP/ZnSe quantum dot with shell；

Figure 10 shows the ultraviolet-visible of InP core and the InP/ZnSe quantum dot with shell in the embodiment of the present application Spectrum；

Figure 11 shows the PL decay kinetics of InP-base core-shell quanta dots final in the embodiment of the present application；

It is at the beginning of synthesis and sudden and violent that Figure 12 shows InP/ZnSe/ZnS core shell/shell quantum dot sample in the embodiment of the present application Reveal the different UV-PL spectrograms after 15 days in air；

Figure 13 shows the FWHM and quantum dot yield (QY) figure of the quantum dot in each embodiment of the application.

Specific embodiment

The embodiment of the present invention is related to III-V race quantum dot and preparation method thereof.More specifically, the embodiment of the present invention relates to And III-V race quantum dot, at least an II-VI group compound shell are enclosed on the core of III-V race quantum dot.Thus, the present invention is public The quantum dot opened is core shell quantum dots, can be core shell/shell quantum dot in some embodiments.For example, III-V race quantum dot Core can be surrounded by an II-VI group compound shell, and the shell is surrounded by another II-VI group compound shell.

In one or more embodiments, the conventional method of III-V race quantum dot is synthesized according to the embodiment disclosed at present In, it may include forming III-V race quantum dot core, form an II-VI group compound shell on III-V race quantum dot core, purify III-V race the quantum dot with II-VI group compound shell, the shape on the II-VI group compound shell foundation of III-V race quantum dot At an II-VI group compound thickness shell, the III-V race quantum dot with II-VI group compound shell and thick shell is purified, is continued in II- Different II-VI group compound shells is formed on VI compounds of group thickness shell.In one or more embodiments, III-V race quantum dot Core can be formed under conditions of there are II race ion.In one or more embodiments, the core of III-V race quantum dot can be There is no being formed under conditions of II race ion, then core is purified to remove III group ion, and II race ion can be purified in core After add with for growing shell.Without being bound to any particular theory, purification step reduces III in the conventional method of foregoing description Pollution when race's element ion is to subsequent growth II-VI group compound shell and thick shell.When not removed, these III group member Plain ion can reduce luminescence generated by light (PL) performance of final quantum point as electron trap.

Particle in Fig. 1 graphical drawing each step of above-mentioned conventional method.Initial III-V race is quantum dot-labeled It is 10, the quantum dot-labeled III-V race with II-VI group compound shell is 12, has and surrounds II-VI group compound shell Quantum dot-labeled III-V race of II-VI group compound thickness shell is 14, the II-VI group for surrounding above-mentioned thick shell and internal layer shell with one Quantum dot-labeled III-V race of compound shell is 16.In one or more embodiments, thick shell and shell may select on material From identical II-VI group compound, but may be formed in different steps.In general, shell is on the surface in layer What ground was formed, therefore any material that can be grown on the surface can be used as case material.

In the above-described embodiments, being used as shell material (for example, thickness/shell) II-VI group compound can be same composition Or the II-VI group compound of different compositions.In one or more embodiments, it is directly formed around III-V race quantum dot core Shell and the thick shell that is directly formed on shell can be same II-VI group compound, but directly formed on thick shell Another shell is different II-VI group compound.In one or more embodiments, shell can be less than equal to 4 unimolecules The shell material of layer.In contrast, thick shell can be the shell material more than 4 monolayers.

Fig. 2 shows the method flow diagrams that III-V race quantum dot is formed in one or more embodiments.In 200, prepare Good II, III, V, VI race precursor solution.In one or more embodiments, in precursor compound comprising II race or III group sun from Son, and anion common equilibrium charge；Or it is common comprising V race or VI race anion, and cation in precursor compound Balancing charge.In one or more embodiments, precursor solution can be dissolved or dispersed in noncoordinating organic molten by precursor substance It is made in agent, noncoordinating organic solvent is such as C₆-C₄₀Fat hydrocarbon (for example, hexadecane, octadecylene and squalene).One In a or multiple embodiments, concentration of the precursor substance in end reaction mixed liquor is 0.01~1mol/L.In some embodiments In, precursor, which can not be, is formulated into solution, but the form of convection drying uses.

In 202, the mixed liquor of II race and Group III precursor is heated.In one or more embodiments, II race in mixed liquor The molar ratio of element and group-III element is perhaps perhaps 25:1~1:1 or 10:1~1 50:1~1:1 100:1~1:1: 1 or 5:1~1:1.In one or more embodiments, the molar ratio of II race element and group-III element is about in mixed liquor 10:1 perhaps 4:1 or 1:1 or 1:2.

In 204, Group V precursor solution is added into the mixed liquor in 202, and then heating starts to react.At one or In multiple embodiments, the molar ratio of group-III element and V group element is 100:1~1:1 or 50:1~1:1 in mixed liquor, or Person 25:1~1:1 perhaps 10:1~1:1 or 5:1~1:1.In one or more embodiments, group-III element in mixed liquor Molar ratio with V group element is about 8:1 perhaps 4:1 or 2:1 or 1:1.In one or more embodiments, in 204 Solution can Group V precursor solution be added before or after be heated to 50-200 DEG C or 80-150 DEG C.

In 206, it is reacted by heating and forms III-V race quantum dot core.In one or more embodiments, III race's precursor With the mole of the Group V precursor being added in reaction mixture close to identical, thus meet group-III element and V group element it Between stoichiometry it is of equal value.Therefore, III equal-V race quantum dot core of stoichiometric ratio can be formed (for example, indium phosphide, nitridation Gallium, aluminium nitride and other III-V race materials).II race precursor can be used as the ligand of III-V race quantum dot core in reaction mixture Raw material.For example, the II race cation on quantum dot core surface can form with any anion binding and be located at iii-v quantum dot The ligand of core, the ligand can be used for stablizing quantum dot core.III group cation when lacking II race cation, on quantum dot core It can be combined by the anion (coming from precursor) with three negative one valences to dominate core surface environment on quantum dot core surface, and This combination can be very strong so that upset or influence subsequent shell growth, prevents the II race for growing shell and VI race member Element is close to core surface.When II race cation at the beginning of reaction just be added when, it can with quantum dot core surface anion and its He combines anion (for example coming from precursor compound) on core surface.This effect of II race cation can effectively prevent III group Cation and negative one valence anion core surface combination so that the environment on core surface is anti-more suitable for the formation of shell It answers.For example, the stabilization of II race element can promote shell to grow on quantum dot core surface, because core surface is with less dense The III group of degree-anion binding body, when subsequent addition VI race precursor (being added in 208), VI race ion is easier close to table It simultaneously reacts in face.

In 208, VI race precursor solution reacts with II race precursor compound after being added or as iii-v quantum dot The ligand of core.In one or more embodiments, the molar ratio of iii-v quantum dot core and the VI race element of addition is 1:100 ~1:20000 perhaps 1:500~1:10000 or 1:1000~1:5000.The concentration of iii-v quantum dot core passes through ratio That-Lambert law calculates, and absorbance value is related with the concentration of sample.In one or more embodiments, solution in 208 Temperature can be heated to 200-360 DEG C or 240-300 DEG C before or after adding VI precursor solution.In 210, II- VI compounds of group shell is formed on iii-v quantum dot core.

In 212, after reaction solution is cooling, the III-V race quantum dot with II-VI group compound shell is purified.At one Or in multiple embodiments, purifying can be added including hexane (or toluene), methanol (or ethyl alcohol) and fatty amine into solution and mix It closes.After stopping mixing, methanol phase (lower layer's phase) can be separated by mutually separating.In one or more embodiments, Same purifying can carry out second in the case where adding or not adding fatty amine.In one or more embodiments, rouge Fat amine can be C₆-C₂₂Primary alkylamine, such as octylame or oleyl amine.It is not anti-in order to make in purification process that fatty amine, which is added, The precursor answered is dissolved or is easily removed.Acetone can be added so that quantum dot precipitates completely in hexane.In addition, for purifying Number be not particularly limited, as long as purifying does not damage or etches or damage the integrality of quantum dot.At one or In multiple embodiments, the process of purifying be can be 1~4 time.In one or more embodiments, centrifugal process can be used for quantum dot It is separated with supernatant, which includes liquid used at least one purifying.Hexane, acetone, or both combination can add It is added in precipitating, so that precipitating is dispersed, is then centrifuged for that quantum dot is further purified.These steps can according to need repetition Repeatedly, to remove the pollutant and excess ions in quantum dot.In one or more embodiments, the process of purifying can also be with Use column chromatography, Capillary Electrophoresis or other similar mode.

In 214, activator (combination of such as fatty acid or diketone or both) and II race precursor solution are added to purified In quantum dot, heating reaction is carried out to the mixture.In one or more embodiments, heating can occur in addition activator And/or before or after II race precursor solution.In one or more embodiments, activator can be fatty acid or diketone (such as acetylacetone,2,4-pentanedione and its derivative, the chemical structural formula of derivative areWherein, P1, P2 and P3 are independent Ground is selected from alkyl, the alkyl with substituent group, alkenyl, alkenyl or aromatic radical with substituent group).Further, at one or In multiple embodiments, P1 can be hydrogen atom.In one or more embodiments, the activator in the quantum dot solution of purifying is dense Degree is 100-10000 times or 100-1000 times of quantum dot nuclear concentration.In one or more embodiments, the quantum dot of purifying is molten The amount of the substance of activator in liquid is 2-20 times of the amount of the Group V precursor substance for synthetic kernel.Activator is used for promoting amount The loosening of son point core surface ligand (shell may be hindered to grow up) can also be uniformly dissolved nucleation to promote thick shell to grow The by-product II-VI group nano-cluster generated in reaction process.

In one or more embodiments, activator and II race precursor solution are added to the non-of quantum dot after purification It is coordinated in organic solvent, noncoordinating organic solvent such as C₆-C₄₀Fat hydrocarbon (for example, hexadecane, octadecylene and squalene).In In one or more embodiments, fatty acid can be selected from acetic acid, butyric acid, caproic acid, octanoic acid, capric acid, lauric acid, myristic acid, palm fibre One of palmitic acid acid, stearic acid, undecenoic acid, arachic acid, behenic acid and oleic acid are a variety of.One or more real It applies in example, is reacted after heating the mixture to 200-360 DEG C or 240-300 DEG C after material is added.

In 216, activator and VI race precursor solution are added in the mixed liquor heated and react, to obtain 210 To III-V race quantum dot (i.e. being coated an II-VI group shell on III-V race quantum dot core) on form thicker II-VI Shell.In one or more embodiments, primary additive amount can be used for forming one or two single point on III-V race quantum dot The II-VI group compound shell of molecular layers thick.This can be before II race precursor and the VI race by adjusting addition during 214,216 The amount of body is realized.In one or more embodiments, mixture is heated to 200-360 DEG C or 240- after material is added It is reacted after 300 DEG C.

Process, which is shown, may return to 214 218 to grow more single layer shells.On being repeated since 214 Step is stated to grow the shell of the thickening of II-VI group material.This is ratio for the II-VI group shell of 1-2 monolayer of a secondary growth More useful.It only carries out once being likely difficult to form thick shell in 214-218, because can using a large amount of reagents needed for forming thick shell The non-specific nucleation in solution can be will lead to, rather than existing quantum dot is (for example, the quantum in 210 or 218 in the solution Point) on controllably carry out the growth of shell.In one or more embodiments, reaction mixture can be cooled down without purification, Thermal cycle and reagent addition in 214-218 can be repeated as many times, to realize that iii-v quantum dot has the shell thickeied.Phase Instead, after reaching desired thickness of the shell, 220 directly can be entered from 218, just cooling terminates before purifying obtains finished product Reaction.Nevertheless, mixture can be cool below 180 DEG C when repeating the step of 214 addition activators and II race precursor To prevent premature reaction.In one or more embodiments, mixture before or after activator is added can be heated To 200-360 DEG C or 240-300 DEG C.In one or more embodiments, in the circulation for repeating 214 to 218, thus it is possible to vary II Race's precursor and VI race precursor, to form the shell of different chemical compositions.

In one or more embodiments, precursor used in the synthesis process of quantum dot is (for example, II race, III group, V Race, VI race precursor) concentration can be about 0.01-1mol/L.In synthesis, it is mixed that reaction can be reduced using stoichiometric ratio Close the excess ions in object.

In one or more embodiments, the group-III element in iii-v quantum dot can be selected from aluminium (Al), gallium (Ga) With one of indium (In) or a variety of.In one or more embodiments, group-III element can be selected from aluminium dihydrogen phosphate, triacetyl Acetone aluminium, aluminium chloride, aluminum fluoride, aluminium oxide, aluminum nitrate, aluminum sulfate, aluminum carboxylate, acetylacetone,2,4-pentanedione gallium, gallium chloride, gallium fluoride, oxygen Change gallium, gallium nitrate, gallium sulfate, carboxylic acid gallium, trimethyl indium, indium acetate, inidum chloride, indium bromide, indium iodide, Indium Tris acetylacetonate, oxygen Change one of indium, indium nitrate, indium sulfate, carboxylic acid indium or a variety of.

In one or more embodiments, the V group element in iii-v quantum dot can be from elemental nitrogen (N), phosphorus (P), At least one element selected in arsenic (As).In one or more embodiments, V group element can be selected from alkylphosphines, three (trialkyls Silicyl) phosphine, three (dialkyl silyl) phosphines, three (dialkyl amino) phosphines, three (trialkylsilkl) arsines, three (two AIkylsilyl groups) arsine, one of three (dialkyl amino) arsines or a variety of.

In one or more embodiments, the core of III-V race quantum dot can be bianry alloy quantum dot, and selected from GaN, One of GaP, GaAs, GaSb, AlN, AlP, AlAs, AlSb, InN, InP, InAs, InSb or a variety of；III-V race quantum dot Core can be ternary alloy quantum dot, and selected from GaNP, GaNAs, GaNSb, GaPAs, GaPSb, GaPSb, AlNAs, One of AlNSb, AlPAs, AlPSb, InNP, InNAs, InNSb, InPAs, InPSb or a variety of；The core of III-V race quantum dot Can be quaternary alloy quantum dot, and selected from GaAlNP, GaAlNAs, GaAlNSb, GaAlPAs, GaAlPSb, GaInNP, One in GaInNAs, GaInNSb, GaInPAs, GaInPSb, InAlNP, InAlNAs, InAlNSb, InAlPAs, InAlPSb Kind is a variety of.

In one or more embodiments, the diameter of the core of iii-v quantum dot is likely less than equal to 20nm, or may be small In being equal to 10nm, or it is likely less than equal to 9nm, or be likely less than equal to 8nm, or be likely less than equal to 7nm, or be likely less than It in 6nm, or is likely less than equal to 5nm, or is likely less than equal to 4nm, or be likely less than equal to 3nm, or be likely less than and be equal to 2nm.In one or more embodiments, the diameter of the core of iii-v quantum dot is likely larger than equal to 1nm, or is likely larger than In 0.5nm.

In one or more embodiments, the II race element in II-V compounds of group shell can be selected from zinc (Zn), cadmium (Cd) In at least one element.In one or more embodiments, II race element precursor compound can be selected from zinc acetate, dimethyl Zinc, diethyl zinc, zinc polycarboxylate, zinc acetylacetonate, zinc iodide, zinc bromide, zinc chloride, zinc fluoride, zinc carbonate, zinc cyanide, nitric acid Zinc, zinc oxide, zinc peroxide, zinc perchlorate, zinc sulfate, cadmium oxide, dimethyl cadmium, diethyl cadmium, cadmium carbonate, two water of cadmium acetate Compound, acetylacetone,2,4-pentanedione cadmium, cadmium fluoride, caddy, cadmium iodide, cadmium bromide, cadmium perchlorate, cadmium phosphide, cadmium nitrate, cadmium sulfate, One of carboxylic acid cadmium is a variety of.

In one or more embodiments, the VI race element in II-V compounds of group shell can be selected from sulphur (S), selenium (Se) and at least one element of tellurium (Te).In one or more embodiments, the precursor of VI race element is selected from sulphur powder, trialkyl Phosphine sulphur, trialkenyl phosphine sulphur, triphenylphosphine sulphur, diphenylphosphine sulphur, Phenylphosphine sulphur, alkyl amine group sulphur, alkenyl amido sulphur, alkyl sulfide Alcohol, selenium powder, trialkyl phosphine selenium, trialkenyl phosphine selenium, triphenylphosphine selenium, diphenylphosphine selenium, Phenylphosphine selenium, alkyl amine group selenium, alkenyl One of amido selenium, trialkyl phosphine tellurium, trialkenyl phosphine tellurium, alkyl amine group tellurium, alkenyl amido tellurium are a variety of.In one or more In embodiment, VI race precursor solution can be selenium and/or sulphur powder is suspended in noncoordinating organic solvent, such as C₆-C₄₀Fat hydrocarbon etc.. For example, selenium and/or sulphur can be suspended in one of hexadecane, octadecylene and squalene or a variety of.

In one or more embodiments, the quantum dot of the application is InP/ZnSe/ZnS core shell/shell quantum dot.One In a or multiple embodiments, the quantum dot of the application is InAs/ZnSe/ZnS core shell/shell quantum dot.Implement in one or more In example, the quantum dot of the application is InP/GaP/ZnS core shell/shell quantum dot.In one or more embodiments, the application Quantum dot is InAs/InP/ZnSe/ZnS core shell/shell/shell quantum dot.In one or more embodiments, the quantum of the application Point is InP/GaP/ZnSe/ZnS core shell/shell/shell quantum dot.In one or more embodiments, InP/ZnSe/ZnS quantum dot In ZnS shell can have 3 monolayer thickness or thicker.In one or more embodiments, the quantum dot of the application can have One luminescence generated by light (PL) spectrum, the half-peak breadth shown (FWHM:full width at half-maximum) are less than or equal to 55nm, or it is less than or equal to 50nm, or be less than or equal to 45nm, or be less than or equal to 40nm, or be less than or equal to 38nm, or be less than or equal to 35nm, or it is less than or equal to 30nm.In one or more embodiments, it is dynamic can to there is single index PL decay for the quantum dot of the application Mechanics.