CN103708562B - Bi0.90Ho0.10Fe1-XMnXO3 ferroelectric film with high remanent polarization and preparation method thereof - Google Patents

Bi0.90Ho0.10Fe1-XMnXO3 ferroelectric film with high remanent polarization and preparation method thereof Download PDF

Info

Publication number
CN103708562B
CN103708562B CN201310714707.4A CN201310714707A CN103708562B CN 103708562 B CN103708562 B CN 103708562B CN 201310714707 A CN201310714707 A CN 201310714707A CN 103708562 B CN103708562 B CN 103708562B
Authority
CN
China
Prior art keywords
film
ferroelectric membranc
remnant polarization
ferroelectric
preparation
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201310714707.4A
Other languages
Chinese (zh)
Other versions
CN103708562A (en
Inventor
谈国强
耶维
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shaanxi University of Science and Technology
Original Assignee
Shaanxi University of Science and Technology
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shaanxi University of Science and Technology filed Critical Shaanxi University of Science and Technology
Priority to CN201310714707.4A priority Critical patent/CN103708562B/en
Publication of CN103708562A publication Critical patent/CN103708562A/en
Application granted granted Critical
Publication of CN103708562B publication Critical patent/CN103708562B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Inorganic Compounds Of Heavy Metals (AREA)
  • Inorganic Insulating Materials (AREA)

Abstract

The invention relates to a Bi0.90Ho0.10Fe1-xMnXO3 ferroelectric film with high remanent polarization and a preparation method thereof, wherein x is equal to 0.01-0.05, and the film is of a distorted perovskite structure, has a diamond crystal system and has good uniformity, remanent polarization of 78-108 muC/cm<2>, and a dielectric constant of 196.2-271.8. The preparation method comprises the steps of dissolving bismuth nitrate, ferric nitrate, holmium nitrate and manganese acetate in a mixture prepared by mixing ethylene glycol monomethyl ether and acetic anhydride to obtain a precursor solution; spin-coating the precursor solution on a substrate, coating glue evenly, then baking to obtain a dry film, then annealing to obtain a Bi0.90Ho0.10Fe1-xMnXO3 film, and repeatedly spin-coating the precursor solution, baking and annealing to achieve the required film thickness to obtain the film. According to the Bi0.90Ho0.10Fe1-xMnXO3 ferroelectric film with high remanent polarization and the preparation method thereof, the requirements for equipment are simple, the doping amount is easy to control, and the ferroelectric properties of the BiFeO3 film can be greatly improved.

Description

Bi0.90Ho0.10Fe1-xMnxO3 ferroelectric membranc of a kind of high remnant polarization and preparation method thereof
Technical field
The invention belongs to field of functional materials, be specifically related to a kind of Bi of high remnant polarization 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc and preparation method thereof.
Background technology
Due to BiFeO 3that present minority at room temperature shows ferroelectricity and ferromagnetic material (Tc=1103K, T simultaneously n=640K).Therefore it has broad application prospects in magnetic storage, is expected to develop based on this type material simultaneously with ferroelectric material high reading speed and ferromagnetic material height writing speed.So there is a large amount of team to be engaged in BiFeO in recent years 3the research of material.
At present for the preparation of BiFeO 3the method of film has a lot, has chemical Vapor deposition process (CVD), magnetron sputtering method (rf magnetron sputtering), deposition of metal organic method (MOD), metal-organic chemical vapor deposition equipment method (MOCVD), liquid phase deposition (LPD), molecular beam epitaxy (MBE), pulsed laser deposition (PLD), sol-gel method (Sol-Gel) etc.But, BiFeO 3the practical application of material receives serious obstruction.Reason mainly contains: BiFeO 3there is higher leakage current; BiFeO 3nature determines and is difficult to prepare pure phase; BiFeO 3film easily produces Lacking oxygen, Fe in preparation process 3+the problems such as ion appraises at the current rate.So make it be difficult to obtain saturated ferroelectric hysteresis loop at normal temperatures.
Summary of the invention
The object of the present invention is to provide a kind of Bi of high remnant polarization 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc and preparation method thereof, the method equipment requirements is simple, and experiment condition easily reaches, and the uniformity of film of preparation is better, and doping easily controls, and can increase substantially ferroelectric properties and the dielectric properties of film.
To achieve these goals, the present invention adopts following technical scheme:
A kind of Bi of high remnant polarization 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc, its chemical formula is Bi 0.90ho 0.10fe 1-xmn xo 3, x=0.01 ~ 0.05; Under 1kHz frequency, its remnant polarization is 78 ~ 108 μ C/cm 2, specific inductivity is 196.2 ~ 271.8.
Its perovskite structure being distortion, rhombohedral system, space group is R-3m (160), unit cell parameters grain size is 50 ~ 60nm.
Comprise Bi 0.90ho 0.10fe 0.99mn 0.01o 3ferroelectric membranc, Bi 0.90ho 0.10fe 0.98mn 0.02o 3ferroelectric membranc, Bi 0.90ho 0.10fe 0.97mn 0.03o 3ferroelectric membranc and Bi 0.90ho 0.10fe 0.95mn 0.05o 3ferroelectric membranc;
And Bi 0.90ho 0.10fe 0.99mn 0.01o 3ferroelectric membranc is under the extra electric field of 917kV/cm, and remnant polarization is 108 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 218.1 ~ 271.8;
Bi 0.90ho 0.10fe 0.98mn 0.02o 3ferroelectric membranc is under the extra electric field of 1250kV/cm, and remnant polarization is 95 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 195.8 ~ 258.1;
Bi 0.90ho 0.10fe 0.97mn 0.03o 3ferroelectric membranc is under the extra electric field of 1250kV/cm, and remnant polarization is 88 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 166.9 ~ 231.9;
Bi 0.90ho 0.10fe 0.95mn 0.05o 3ferroelectric membranc is under the extra electric field of 1250kV/cm, and remnant polarization is 78 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 125.3 ~ 196.2.
The Bi of high remnant polarization 0.90ho 0.10fe 1-xmn xo 3the preparation method of ferroelectric membranc, comprises the following steps:
Step 1: be 0.95:(1-x in molar ratio): 0.10:x is by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in the mixed solution mixed by ethylene glycol monomethyl ether and acetic anhydride, stirs, and obtains precursor liquid, and wherein total in precursor liquid concentration of metal ions is 0.003 ~ 0.3mol/L, x=0.01 ~ 0.05;
Step 2: be spin-coated on by precursor liquid on FTO/glass substrate and prepare wet film, wet film toasts to obtain dry film after even glue at 180 ~ 200 DEG C, then 550 ~ 580 DEG C of annealing, obtain Bi 0.90ho 0.10fe 1-xmn xo 3film;
Step 3: treat Bi 0.90ho 0.10fe 1-xmn xo 3after film cooling, then at Bi 0.90ho 0.10fe 1-xmn xo 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 1-xmn xo 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc.
In described step 1, in mixed solution, the volume ratio of ethylene glycol monomethyl ether and acetic anhydride is (2.5 ~ 3.5): 1.
X=0.01,0.02,0.03 or 0.05 in described step 1.
First cleaned by FTO/glass substrate in described step 2, dry, then radiation treatment under ultraviolet light, makes FTO/glass substrate surface reach atomic cleanliness degree, finally spin coating precursor liquid again.
Even glue speed in described step 2 during even glue is 3800 ~ 4100r/min, and spin coating time is 12 ~ 20s.
Baking time in described step 2 after even glue is 8 ~ 12min.
In described step 2, annealing time is 10 ~ 15min.
Relative to prior art, the present invention has following beneficial effect:
The invention provides a kind of Bi of high remnant polarization 0.90ho 0.10fe 1-xmn xo 3the preparation method of ferroelectric membranc, adopts sol-gel method, by A position Ho and B position Mn codoped, prepares the Bi of high remnant polarization at FTO/glass substrate surface 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc.The method selects lanthanon Ho to carry out the doping of A position, at BiFeO 3a position doping lanthanon can stablize iron oxygen octahedra in perovskite structure, simultaneously because Ho instead of part Bi, the volatile quantity of Bi in annealing process is reduced, thus decreases the generation of Lacking oxygen, can Bi be made 0.90ho 0.10fe 1-xmn xo 3the insulativity of ferroelectric membranc effectively strengthens, and reduces leakage conductance, improves ferroelectricity.In addition, the present invention also selects Mn to carry out the doping of B position, and the doping of B position can improve BiFeO equally effectively 3the multi-ferrum property of film.Because the Mn selected is+divalent, so at alternative Fe 3+time to reduce the generation of Lacking oxygen because of charge compensation effect, thus effectively can reduce leakage current, the electrical property of raising film integral.Simultaneously to B position Fe 3+the alternative magnetic structure that can affect its intra-die consumingly of ion, and then affect its magnetic and magnetoelectric effect.And Ho 3+radius is less than Bi 3+, Mn 2+radius is greater than Fe 3+, mixing altogether of these two kinds of ions can make the approximate bismuth ferrite crystal lattices distortion in perovskite structure originally, and structural aberration aggravates, thus drastically increases BiFeO 3the ferroelectric properties of film.So that the present invention adopts is the Bi that the ion co-doped method of A position rare earth ion and B position magnetic transition metal (i.e. so-called " compound is alternative ") prepares high remnant polarization 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc.This method can take into account the advantage of two kinds of substitute element, and partly overcomes single element and replace the shortcoming brought, and makes BiFeO 3ferroelectric properties be able to more significantly improve.And compare additive method, the sol-gel method equipment requirements that the present invention adopts is simple, do not need expensive vacuum apparatus, experiment condition easily reaches, reaction is easily carried out, preparation process is easy to control, temperature of reaction is lower, be conducive to the problem that the Fe solved in membrane-film preparation process appraises at the current rate and Bi volatilizees, be suitable for preparing film on large surface and surface in irregular shape simultaneously, easy handling and doping vario-property, effectively can control component and the structure of film, film chemical composition controllable precise, doping easily controls, be particularly suitable for preparation multicomponent oxide film material, accurately can control the stoichiometric ratio of film, be easy to the Uniform Doped realized on molecular level.
The Bi of the high remnant polarization that the present invention obtains 0.90ho 0.10fe 1-xmn xo 3the perovskite structure that ferroelectric membranc (x=0.01 ~ 0.05) is distortion, rhombohedral system, space group is R-3m (160), unit cell parameters grain size is 50 ~ 60nm, good uniformity, and under 1kHz frequency, its remnant polarization is 78 ~ 108 μ C/cm 2, specific inductivity is 196.2 ~ 271.8, has increased substantially BiFeO 3the ferroelectric properties of film and dielectric properties.
Accompanying drawing explanation
Fig. 1 is the Bi of high remnant polarization prepared by the present invention 0.90ho 0.10fe 1-xmn xo 3the XRD spectra of ferroelectric membranc;
Fig. 2 is the Bi of high remnant polarization prepared by the present invention 0.90ho 0.10fe 1-xmn xo 3the SEM figure of ferroelectric membranc, wherein (a) non-doped with Mn of preparing for comparative example 2+bi 0.90ho 0.10feO 3the SEM collection of illustrative plates of film, (b) ~ (e) is respectively Bi prepared by embodiment 1 ~ embodiment 4 0.90ho 0.10fe 1-xmn xo 3the SEM figure of ferroelectric membranc; F Bi that () prepares for embodiment 3 0.9ho 0.1fe 0.97mn 0.03o 3the section SEM of ferroelectric membranc schemes;
Fig. 3 is the Bi of high remnant polarization prepared by the present invention 0.90ho 0.10fe 1-xmn xo 3the dielectric properties of ferroelectric membranc and the graph of a relation of frequency;
Fig. 4 is the Bi of high remnant polarization prepared by the present invention 0.90ho 0.10fe 1-xmn xo 3the ferroelectric hysteresis loop figure of ferroelectric membranc.
Embodiment
Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.
Comparative example
Step 1: select FTO/glass substrate to be substrate, the FTO/glass substrate of well cutting is placed in washing composition, acetone, ethanol ultrasonic cleaning successively, with a large amount of distilled water flushing substrate after each ultrasonic cleaning 10min, finally dry up with nitrogen.Again FTO/glass substrate is put into 70 DEG C of baking oven baking 5min, take out and leave standstill to room temperature.Finally the FTO/glass substrate of cleaning is placed in ultraviolet radiation instrument and irradiates 40min, substrate surface is reached " atomic cleanliness degree ".
Step 2: be 0.95:1:0.10(and x=0 in molar ratio) by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o and Ho (NO 3) 36H 2o is dissolved in mixed solution, obtains even, stable precursor liquid after magnetic agitation 2.5h, and wherein mixed solution is that the ethylene glycol monomethyl ether of 3:1 and acetic anhydride mix by volume ratio, and concentration of metal ions total in precursor liquid is 0.3mol/L.
Step 3: adopt spin coating precursor liquid on the FTO/glass substrate of spin-coating method after processing through step 1 to prepare wet film, with the even glue 20s of even glue speed of 4000r/min, after even cementing bundle, at 200 DEG C, toast 10min obtain dry film, and then at 550 DEG C short annealing 10min, obtain Bi 0.90ho 0.10feO 3film.
Step 4: treat Bi 0.90ho 0.10feO 3after film cooling, then at Bi 0.90ho 0.10feO 3on film, repeating step 2, makes Bi 0.90ho 0.10feO 3film reaches desired thickness, namely obtains Bi 0.90ho 0.10feO 3ferroelectric membranc.
At Bi 0.90ho 0.10feO 3ferroelectric membranc surface ion Slag coating 0.502mm 2au electrode, then 280 DEG C insulation 25min carry out electrode anneal process, electrode is contacted completely with substrate.Adopt XRD determining Bi 0.90ho 0.10feO 3the thing phase composite structure of ferroelectric membranc, as shown in Figure 1, Bi 0.90ho 0.10feO 3ferroelectric membranc belongs to the perovskite structure of distortion, rhombohedral system, and space group is R-3m (160), unit cell parameters bi is measured with FE-SEM 0.90ho 0.10feO 3the microscopic appearance of ferroelectric membranc, be about 80 ~ 100nm by Fig. 2 (a) its grain-size known, film thickness is 590nm.With Agilent E4980A LCR test set test b i 0.90ho 0.10feO 3the dielectric properties of ferroelectric membranc, as seen from Figure 3, under the frequency of 1kHz ~ 1MHz, Bi 0.90ho 0.10feO 3the specific inductivity of ferroelectric membranc is 200.7 ~ 287.5.With the ferroelectric test system and test Bi of TF2000 0.90ho 0.10feO 3the ferroelectric properties of ferroelectric membranc, can find out Bi by Fig. 4 (a) 0.90ho 0.10feO 3ferroelectric membranc there is no saturated ferroelectric hysteresis loop, and its remnant polarization is only 11.2 μ C/cm under the electric field of 250kV/cm 2.
Embodiment 1
Step 1: select FTO/glass substrate to be substrate, the FTO/glass substrate of well cutting is placed in washing composition, acetone, ethanol ultrasonic cleaning successively, with a large amount of distilled water flushing substrate after each ultrasonic cleaning 10min, finally dry up with nitrogen.Again FTO/glass substrate is put into 70 DEG C of baking oven baking 5min, take out and leave standstill to room temperature.Finally FTO/glass substrate is placed in ultraviolet radiation instrument and irradiates 40min, substrate surface is reached " atomic cleanliness degree ".
Step 2: be 0.95:0.99:0.10:0.01(and x=0.01 in molar ratio) by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in mixed solution, obtains even, stable precursor liquid after magnetic agitation 2.5h, and wherein mixed solution is that the ethylene glycol monomethyl ether of 3:1 and acetic anhydride mix by volume ratio, and concentration of metal ions total in precursor liquid is 0.3mol/L.
Step 3: adopt spin coating precursor liquid on the FTO/glass substrate of spin-coating method after processing through step 1 to prepare wet film, with the even glue 20s of even glue speed of 4000r/min, after even cementing bundle, at 200 DEG C, toast 10min obtain dry film, and then at 550 DEG C short annealing 10min, obtain Bi 0.90ho 0.10fe 0.99mn 0.01o 3film.
Step 4: treat Bi 0.90ho 0.10fe 0.99mn 0.01o 3after film cooling, then at Bi 0.90ho 0.10fe 0.99mn 0.01o 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 0.99mn 0.01o 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 0.99mn 0.01o 3ferroelectric membranc.
At the Bi of high remnant polarization 0.90ho 0.10fe 0.99mn 0.01o 3ferroelectric membranc surface ion Slag coating 0.502mm 2au electrode, then 280 DEG C insulation 25min carry out electrode anneal process, electrode is contacted completely with substrate.Adopt the Bi of XRD determining high remnant polarization 0.90ho 0.10fe 0.99mn 0.01o 3the thing phase composite structure of ferroelectric membranc, as shown in Figure 1, the Bi of high remnant polarization 0.90ho 0.10fe 0.99mn 0.01o 3ferroelectric membranc belongs to the perovskite structure of distortion, rhombohedral system, and space group is R-3m (160), unit cell parameters the Bi of high remnant polarization is measured with FE-SEM 0.90ho 0.10fe 0.99mn 0.01o 3the microscopic appearance of ferroelectric membranc, be about about 60nm by Fig. 2 (b) its grain-size known, film thickness is 560nm.The Bi of high remnant polarization is tested with Agilent E4980A LCR test set 0.90ho 0.10fe 0.99mn 0.01o 3the dielectricity of ferroelectric membranc, as seen from Figure 3, the Bi of high remnant polarization under the frequency of 1kHz ~ 1MHz 0.90ho 0.10fe 0.99mn 0.01o 3the specific inductivity of ferroelectric membranc is 218.1 ~ 271.8.With the Bi of TF2000 ferroelectric test system and test high remnant polarization 0.90ho 0.10fe 0.99mn 0.01o 3the ferroelectric properties of ferroelectric membranc, as can be seen from Fig. 4 (b), under the extra electric field of 917kV/cm, its remnant polarization is 108 μ C/cm 2.
Embodiment 2
Step 1: select FTO/glass substrate to be substrate, the FTO/glass substrate of well cutting is placed in washing composition, acetone, ethanol ultrasonic cleaning successively, with a large amount of distilled water flushing substrate after each ultrasonic cleaning 10min, finally dry up with nitrogen.Again FTO/glass substrate is put into 70 DEG C of baking oven baking 5min, take out and leave standstill to room temperature.Finally FTO/glass substrate is placed in ultraviolet radiation instrument and irradiates 40min, substrate surface is reached " atomic cleanliness degree ".
Step 2: be 0.95:0.98:0.10:0.02(and x=0.02 in molar ratio) by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in mixed solution, obtains even, stable precursor liquid after magnetic agitation 2.5h, and wherein mixed solution is that the ethylene glycol monomethyl ether of 3:1 and acetic anhydride mix by volume ratio, and concentration of metal ions total in precursor liquid is 0.3mol/L.
Step 3: adopt spin coating precursor liquid on the FTO/glass substrate of spin-coating method after processing through step 1 to prepare wet film, with the even glue 20s of even glue speed of 4000r/min, after even cementing bundle, at 200 DEG C, toast 10min obtain dry film, and then at 550 DEG C short annealing 10min, obtain Bi 0.90ho 0.10fe 0.98mn 0.02o 3film.
Step 4: treat Bi 0.90ho 0.10fe 0.98mn 0.02o 3after film cooling, then at Bi 0.90ho 0.10fe 0.98mn 0.02o 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 0.98mn 0.02o 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 0.98mn 0.02o 3ferroelectric membranc.
At the Bi of high remnant polarization 0.90ho 0.10fe 0.98mn 0.02o 3ferroelectric membranc surface ion Slag coating 0.502mm 2au electrode, then 280 DEG C insulation 25min carry out electrode anneal process, electrode is contacted completely with substrate.Adopt the Bi of XRD determining high remnant polarization 0.90ho 0.10fe 0.98mn 0.02o 3the thing phase composite structure of ferroelectric membranc, as shown in Figure 1, the Bi of high remnant polarization 0.90ho 0.10fe 0.98mn 0.02o 3ferroelectric membranc belongs to the perovskite structure of distortion, rhombohedral system, and space group is R-3m (160), unit cell parameters the Bi of high remnant polarization is measured with FE-SEM 0.90ho 0.10fe 0.98mn 0.02o 3the microscopic appearance of ferroelectric membranc, be about about 60nm by Fig. 2 (c) its grain-size known, film thickness is 540nm.The Bi of high remnant polarization is tested with Agilent E4980A LCR test set 0.90ho 0.10fe 0.98mn 0.02o 3the dielectric properties of ferroelectric membranc, as seen from Figure 3, under the frequency of 1kHz ~ 1MHz, the Bi of high remnant polarization 0.90ho 0.10fe 0.98mn 0.02o 3the specific inductivity of ferroelectric membranc is 195.8 ~ 258.1.With the Bi of TF2000 ferroelectric test system and test high remnant polarization 0.90ho 0.10fe 0.98mn 0.02o 3the ferroelectric properties of ferroelectric membranc, as can be seen from Fig. 4 (c), under the extra electric field of 1250kV/cm, its remnant polarization is 95 μ C/cm 2.
Embodiment 3
Step 1: select FTO/glass substrate to be substrate, the FTO/glass substrate of well cutting is placed in washing composition, acetone, ethanol ultrasonic cleaning successively, with a large amount of distilled water flushing substrate after each ultrasonic cleaning 10min, finally dry up with nitrogen.Again FTO/glass substrate is put into 70 DEG C of baking oven baking 5min, take out and leave standstill to room temperature.Finally FTO/glass substrate is placed in ultraviolet radiation instrument and irradiates 40min, substrate surface is reached " atomic cleanliness degree ".
Step 2: be 0.95:0.97:0.10:0.03(and x=0.03 in molar ratio) by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in mixed solution, obtains even, stable precursor liquid after magnetic agitation 2.5h, and wherein mixed solution is that the ethylene glycol monomethyl ether of 3:1 and acetic anhydride mix by volume ratio, and concentration of metal ions total in precursor liquid is 0.3mol/L.
Step 3: adopt spin coating precursor liquid on the FTO/glass substrate of spin-coating method after processing through step 1 to prepare wet film, with the even glue 20s of even glue speed of 4000r/min, after even cementing bundle, at 200 DEG C, toast 10min obtain dry film, and then at 550 DEG C short annealing 10min, obtain Bi 0.90ho 0.10fe 0.97mn 0.03o 3film.
Step 4: treat Bi 0.90ho 0.10fe 0.97mn 0.03o 3after film cooling, then at Bi 0.90ho 0.10fe 0.97mn 0.03o 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 0.97mn 0.03o 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 0.97mn 0.03o 3ferroelectric membranc.
At the Bi of high remnant polarization 0.90ho 0.10fe 0.97mn 0.03o 3ferroelectric membranc surface ion Slag coating 0.502mm 2au electrode, then 285 DEG C insulation 25min carry out electrode anneal process, electrode is contacted completely with substrate.Adopt the Bi of XRD determining high remnant polarization 0.90ho 0.10fe 0.97mn 0.03o 3the thing phase composite structure of ferroelectric membranc, as shown in Figure 1, the Bi of high remnant polarization 0.90ho 0.10fe 0.97mn 0.03o 3ferroelectric membranc belongs to the perovskite structure of distortion, rhombohedral system, and space group is R-3m (160), unit cell parameters the Bi of high remnant polarization is measured with FE-SEM 0.90ho 0.10fe 0.97mn 0.03o 3the microscopic appearance of ferroelectric membranc, be about about 50nm by Fig. 2 (d) its grain-size known, film thickness is 540nm.The Bi of high remnant polarization is tested with Agilent E4980A LCR test set 0.90ho 0.10fe 0.97mn 0.03o 3the dielectric properties of ferroelectric membranc, as seen from Figure 3, under the frequency of 1kHz ~ 1MHz, the Bi of high remnant polarization 0.90ho 0.10fe 0.97mn 0.03o 3the specific inductivity of ferroelectric membranc is 166.9 ~ 231.9.With the Bi of TF2000 ferroelectric test system and test high remnant polarization 0.90ho 0.10fe 0.97mn 0.03o 3the ferroelectric properties of ferroelectric membranc, as can be seen from Fig. 4 (d), under the extra electric field of 1250kV/cm, its remnant polarization is 88 μ C/cm 2.
Embodiment 4
Step 1: select FTO/glass substrate to be substrate, the FTO/glass substrate of well cutting is placed in washing composition, acetone, ethanol ultrasonic cleaning successively, with a large amount of distilled water flushing substrate after each ultrasonic cleaning 10min, finally dry up with nitrogen.Again FTO/glass substrate is put into 70 DEG C of baking oven baking 5min, take out and leave standstill to room temperature.Finally FTO/glass substrate is placed in ultraviolet radiation instrument and irradiates 40min, substrate surface is reached " atomic cleanliness degree ".
Step 2: be 0.95:0.95:0.10:0.05(and x=0.05 in molar ratio) by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in mixed solution, obtains even, stable precursor liquid after magnetic agitation 2.5h, and wherein mixed solution is that the ethylene glycol monomethyl ether of 3:1 and acetic anhydride mix by volume ratio, and concentration of metal ions total in precursor liquid is 0.3mol/L.
Step 3: adopt spin coating precursor liquid on the FTO/glass substrate of spin-coating method after processing through step 1 to prepare wet film, with the even glue 20s of even glue speed of 4000r/min, after even cementing bundle, at 200 DEG C, toast 10min obtain dry film, and then at 550 DEG C short annealing 10min, obtain Bi 0.90ho 0.10fe 0.95mn 0.05o 3film.
Step 4: treat Bi 0.90ho 0.10fe 0.95mn 0.05o 3after film cooling, then at Bi 0.90ho 0.10fe 0.95mn 0.05o 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 0.95mn 0.05o 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 0.95mn 0.05o 3ferroelectric membranc.
At the Bi of high remnant polarization 0.90ho 0.10fe 0.95mn 0.05o 3ferroelectric membranc surface ion Slag coating 0.502mm 2au electrode, then 280 DEG C insulation 25min carry out electrode anneal process, electrode is contacted completely with substrate.Adopt the Bi of XRD determining high remnant polarization 0.90ho 0.10fe 0.95mn 0.05o 3the thing phase composite structure of ferroelectric membranc, as shown in Figure 1, the Bi of high remnant polarization 0.90ho 0.10fe 0.95mn 0.05o 3ferroelectric membranc belongs to the perovskite structure of distortion, rhombohedral system, and space group is R-3m (160), unit cell parameters the Bi of high remnant polarization is measured with FE-SEM 0.90ho 0.10fe 0.95mn 0.05o 3the microscopic appearance of ferroelectric membranc, be about about 50nm by Fig. 2 (e) its grain-size known, film thickness is 550nm.The Bi of high remnant polarization is tested with Agilent E4980A LCR test set 0.90ho 0.10fe 0.95mn 0.05o 3the dielectric properties of ferroelectric membranc, as seen from Figure 3, under the frequency of 1kHz ~ 1MHz, the Bi of high remnant polarization 0.90ho 0.10fe 0.95mn 0.05o 3the specific inductivity of ferroelectric membranc is 125.3 ~ 196.2.With the Bi of TF2000 ferroelectric test system and test high remnant polarization 0.90ho 0.10fe 0.95mn 0.05o 3the ferroelectric properties of ferroelectric membranc, as can be seen from Fig. 4 (e), under the extra electric field of 1250kV/cm, its remnant polarization is 78 μ C/cm 2.。
Fig. 1 is different Mn 2+the Bi prepared under doping 0.90ho 0.10fe 1-xmn xo 3the XRD figure spectrum of ferroelectric membranc, in Fig. 1, the unit a.u. of ordinate zou represents that it is arbitrary unit, and X-coordinate 2 θ is angle of diffraction.As can be seen from Figure 1 Bi 0.90ho 0.10fe 1-xmn xo 3the diffraction peak of ferroelectric membranc (012) and (110) crystal face is increased in along with doping skew of turning left gradually, illustrates that film internal structure there occurs change.
Embodiment 5
Step 1: select FTO/glass substrate to be substrate, the FTO/glass substrate of well cutting is placed in washing composition, acetone, ethanol ultrasonic cleaning successively, with a large amount of distilled water flushing substrate after each ultrasonic cleaning 10min, finally dry up with nitrogen.Again FTO/glass substrate is put into 70 DEG C of baking oven baking 5min, take out and leave standstill to room temperature.Finally FTO/glass substrate is placed in ultraviolet radiation instrument and irradiates 40min, substrate surface is reached " atomic cleanliness degree ".
Step 2: be 0.95:0.96:0.10:0.04(and x=0.04 in molar ratio) by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in mixed solution, obtains even, stable precursor liquid after magnetic agitation 2.5h, and wherein mixed solution is that the ethylene glycol monomethyl ether of 3.5:1 and acetic anhydride mix by volume ratio, and concentration of metal ions total in precursor liquid is 0.003mol/L.
Step 3: adopt spin coating precursor liquid on the FTO/glass substrate of spin-coating method after processing through step 1 to prepare wet film, with the even glue 15s of even glue speed of 3800r/min, after even cementing bundle, at 180 DEG C, toast 8min obtain dry film, and then at 500 DEG C short annealing 15min, obtain Bi 0.90ho 0.10fe 0.96mn 0.04o 3film.
Step 4: treat Bi 0.90ho 0.10fe 0.96mn 0.04o 3after film cooling, then at Bi 0.90ho 0.10fe 0.96mn 0.04o 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 0.96mn 0.04o 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 0.96mn 0.04o 3ferroelectric membranc.
Embodiment 6
Step 1: select FTO/glass substrate to be substrate, the FTO/glass substrate of well cutting is placed in washing composition, acetone, ethanol ultrasonic cleaning successively, with a large amount of distilled water flushing substrate after each ultrasonic cleaning 10min, finally dry up with nitrogen.Again FTO/glass substrate is put into 70 DEG C of baking oven baking 5min, take out and leave standstill to room temperature.Finally FTO/glass substrate is placed in ultraviolet radiation instrument and irradiates 40min, substrate surface is reached " atomic cleanliness degree ".
Step 2: be 0.95:0.975:0.10:0.025(and x=0.025 in molar ratio) by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in mixed solution, obtains even, stable precursor liquid after magnetic agitation 2.5h, and wherein mixed solution is that the ethylene glycol monomethyl ether of 2.5:1 and acetic anhydride mix by volume ratio, and concentration of metal ions total in precursor liquid is 0.1mol/L.
Step 3: adopt spin coating precursor liquid on the FTO/glass substrate of spin-coating method after processing through step 1 to prepare wet film, with the even glue 12s of even glue speed of 4100r/min, after even cementing bundle, at 190 DEG C, toast 12min obtain dry film, and then at 580 DEG C short annealing 12min, obtain Bi 0.90ho 0.10fe 0.975mn 0.025o 3film.
Step 4:Bi 0.90ho 0.10fe 0.975mn 0.025o 3after film cooling, then at Bi 0.90ho 0.10fe 0.975mn 0.025o 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 0.975mn 0.025o 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 0.975mn 0.025o 3ferroelectric membranc.
Above-described embodiment 1-6 prepares in the process of precursor liquid in step 1, Bismuth trinitrate (Bi (NO 3) 35H 2o), iron nitrate (Fe (NO 3) 39H 2o), holmium nitrate (Ho (NO 3) 36H 2and manganous acetate (C O) 4h 6mnO 44H 2o) theoretical molar is than being 0.90:(1-x): 0.10:x, x=0.01 ~ 0.05; But due in the process of carrying out annealing in step 2, Bi 3+have the volatilization loss of part, therefore, the present invention prepares in the process of precursor liquid in step 1, Bismuth trinitrate, iron nitrate, holmium nitrate and manganous acetate are according to 0.95:(1-x): the mol ratio of 0.10:x carries out mixed preparing, namely adopts the method adding excessive bismuth ion to compensate Bi in annealing process 3+volatilization, and x=0.01 ~ 0.05.
Above said content is in conjunction with concrete preferred implementation further description made for the present invention, it not whole or unique embodiment, the conversion of those of ordinary skill in the art by reading specification sheets of the present invention to any equivalence that technical solution of the present invention is taked, is claim of the present invention and contains.

Claims (7)

1. the Bi of a high remnant polarization 0.90ho 0.10fe 1-xmn xo 3the preparation method of ferroelectric membranc, is characterized in that, comprises the following steps:
Step 1: be 0.95:(1-x in molar ratio): 0.10:x is by Bi (NO 3) 35H 2o, Fe (NO 3) 39H 2o, Ho (NO 3) 36H 2o and C 4h 6mnO 44H 2o is dissolved in the mixed solution mixed by ethylene glycol monomethyl ether and acetic anhydride, stirs, and obtains precursor liquid, and wherein total in precursor liquid concentration of metal ions is 0.003 ~ 0.3mol/L, x=0.01 ~ 0.05;
Step 2: be spin-coated on by precursor liquid on FTO/glass substrate and prepare wet film, wet film toasts 8 ~ 12min and obtains dry film after even glue at 180 ~ 200 DEG C, then at 500 ~ 580 DEG C of annealing 10 ~ 15min, obtains Bi 0.90ho 0.10fe 1-xmn xo 3film;
Step 3: treat Bi 0.90ho 0.10fe 1-xmn xo 3after film cooling, then at Bi 0.90ho 0.10fe 1-xmn xo 3on film, repeating step 2, makes Bi 0.90ho 0.10fe 1-xmn xo 3film reaches desired thickness, namely obtains the Bi of high remnant polarization 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc.
2. the Bi of high remnant polarization according to claim 1 0.90ho 0.10fe 1-xmn xo 3the preparation method of ferroelectric membranc, is characterized in that: in described step 1, in mixed solution, the volume ratio of ethylene glycol monomethyl ether and acetic anhydride is (2.5 ~ 3.5): 1.
3. the Bi of high remnant polarization according to claim 1 and 2 0.90ho 0.10fe 1-xmn xo 3the preparation method of ferroelectric membranc, is characterized in that: x=0.01,0.02,0.03 or 0.05 in described step 1.
4. the Bi of high remnant polarization according to claim 1 0.90ho 0.10fe 1-xmn xo 3the preparation method of ferroelectric membranc, is characterized in that: first cleaned by FTO/glass substrate in described step 2, dry, then radiation treatment under ultraviolet light, makes FTO/glass substrate surface reach atomic cleanliness degree, finally spin coating precursor liquid again.
5. the Bi of the high remnant polarization according to claim 1 or 4 0.90ho 0.10fe 1-xmn xo 3the preparation method of ferroelectric membranc, is characterized in that: the even glue speed in described step 2 during even glue is 3800 ~ 4100r/min, and spin coating time is 12 ~ 20s.
6. according to the Bi of the high remnant polarization in claim 1-5 described in any one 0.90ho 0.10fe 1-xmn xo 3the Bi of the high remnant polarization that the preparation method of ferroelectric membranc obtains 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc, is characterized in that: its chemical formula is Bi 0.90ho 0.10fe 1-xmn xo 3, x=0.01 ~ 0.05 is the perovskite structure of distortion, rhombohedral system, and space group is R-3m (160), unit cell parameters grain size is 50 ~ 60nm; Under 1kHz frequency, its remnant polarization is 78 ~ 108 μ C/cm 2, specific inductivity is 196.2 ~ 271.8.
7. the Bi of high remnant polarization according to claim 6 0.90ho 0.10fe 1-xmn xo 3ferroelectric membranc, is characterized in that: comprise Bi 0.90ho 0.10fe 0.99mn 0.01o 3ferroelectric membranc, Bi 0.90ho 0.10fe 0.98mn 0.02o 3ferroelectric membranc, Bi 0.90ho 0.10fe 0.97mn 0.03o 3ferroelectric membranc and Bi 0.90ho 0.10fe 0.95mn 0.05o 3ferroelectric membranc;
And Bi 0.90ho 0.10fe 0.99mn 0.01o 3ferroelectric membranc is under the extra electric field of 917kV/cm, and remnant polarization is 108 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 218.1 ~ 271.8;
Bi 0.90ho 0.10fe 0.98mn 0.02o 3ferroelectric membranc is under the extra electric field of 1250kV/cm, and remnant polarization is 95 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 195.8 ~ 258.1;
Bi 0.90ho 0.10fe 0.97mn 0.03o 3ferroelectric membranc is under the extra electric field of 1250kV/cm, and remnant polarization is 88 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 166.9 ~ 231.9;
Bi 0.90ho 0.10fe 0.95mn 0.05o 3ferroelectric membranc is under the extra electric field of 1250kV/cm, and remnant polarization is 78 μ C/cm 2, the specific inductivity under the frequency of 1kHz ~ 1MHz is 125.3 ~ 196.2.
CN201310714707.4A 2013-12-20 2013-12-20 Bi0.90Ho0.10Fe1-XMnXO3 ferroelectric film with high remanent polarization and preparation method thereof Active CN103708562B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201310714707.4A CN103708562B (en) 2013-12-20 2013-12-20 Bi0.90Ho0.10Fe1-XMnXO3 ferroelectric film with high remanent polarization and preparation method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201310714707.4A CN103708562B (en) 2013-12-20 2013-12-20 Bi0.90Ho0.10Fe1-XMnXO3 ferroelectric film with high remanent polarization and preparation method thereof

Publications (2)

Publication Number Publication Date
CN103708562A CN103708562A (en) 2014-04-09
CN103708562B true CN103708562B (en) 2015-06-24

Family

ID=50401965

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201310714707.4A Active CN103708562B (en) 2013-12-20 2013-12-20 Bi0.90Ho0.10Fe1-XMnXO3 ferroelectric film with high remanent polarization and preparation method thereof

Country Status (1)

Country Link
CN (1) CN103708562B (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104478230A (en) * 2014-12-11 2015-04-01 陕西科技大学 Bi[0.92-x]Ho0.08AExFe0.97Mn0.03O3 multiferroic film and preparation method thereof
CN106379934B (en) * 2016-11-23 2017-09-01 湖州师范学院 One kind prepares Ho2TiO5The method of powder
CN107140971B (en) * 2017-04-18 2020-06-30 陕西科技大学 HoSrMnZn co-doped bismuth ferrite ferroelectric film with stable ferroelectricity under high electric field and preparation method thereof
CN113371760A (en) * 2020-06-29 2021-09-10 贵州大学 Perovskite-like structure bismuth ferrite material and preparation method and application thereof
CN113248248A (en) * 2020-08-13 2021-08-13 深圳先进技术研究院 Solid solution multiferroic film, preparation method and electronic device applied to 5G storage technology

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102249659A (en) * 2011-06-16 2011-11-23 桂林电子科技大学 Bismuth ferrite-based leadless piezoelectric ceramic with high Curie temperature and preparation method thereof
CN102633443A (en) * 2012-02-27 2012-08-15 陕西科技大学 Method for preparing Tb-doped BiFeO3 ferroelectric film on surface of conductive glass substrate
CN102886934A (en) * 2012-10-29 2013-01-23 哈尔滨工业大学 Completely-crystallized multiferroic film without producing impure phase and preparation method thereof
CN102976764A (en) * 2012-11-28 2013-03-20 陕西科技大学 Preparation method of low-leakage current Bi0.92Tb0.08Fe(1-x)CrxO3 film
CN103121836A (en) * 2012-11-28 2013-05-29 陕西科技大学 Method for preparing BiFe1-xCrxO3 ferroelectric film by using sol-gel method

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7585474B2 (en) * 2005-10-13 2009-09-08 The Research Foundation Of State University Of New York Ternary oxide nanostructures and methods of making same

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102249659A (en) * 2011-06-16 2011-11-23 桂林电子科技大学 Bismuth ferrite-based leadless piezoelectric ceramic with high Curie temperature and preparation method thereof
CN102633443A (en) * 2012-02-27 2012-08-15 陕西科技大学 Method for preparing Tb-doped BiFeO3 ferroelectric film on surface of conductive glass substrate
CN102886934A (en) * 2012-10-29 2013-01-23 哈尔滨工业大学 Completely-crystallized multiferroic film without producing impure phase and preparation method thereof
CN102976764A (en) * 2012-11-28 2013-03-20 陕西科技大学 Preparation method of low-leakage current Bi0.92Tb0.08Fe(1-x)CrxO3 film
CN103121836A (en) * 2012-11-28 2013-05-29 陕西科技大学 Method for preparing BiFe1-xCrxO3 ferroelectric film by using sol-gel method

Non-Patent Citations (7)

* Cited by examiner, † Cited by third party
Title
CHENG Chuan-pin et al..Influence of pyrolysis temperature on ferroelectric properties of La and Mn co—doped BiFe03 thin films.《Trans.Nonferrous Met.Soc.China》.2012,第22卷第2153-2157页. *
Lattice distortion and room-temperature ferroelectric properties of (Sm, Cr) co-doped BiFeO3 thin films;Wenlong Liu et al;《J Mater Sci: Mater Electron》;20130728;第24卷;第4296-4301页 *
Preparation and properties of rare earth (Eu, Tb, Ho)and transition metal (Co) co-doped BiFeO3 thin films;C.M.Raghavan et al.;《J Sol-Gel Sci Technol》;20120720;第64卷;第178-183页 *
Preparation of Nd-dopedBiFeO3 films andtheirelectricalproperties;Cheng Meng et al.;《Physica B》;20120425;第407卷;第3360页倒数第1段,第3361页第1段 *
Structural and improved electrical properties of rare earth (Sm, Tb and Ho) doped BiFe0.975Mn0.025O3 thin films;C.M.Raghavan et al.;《J Electroceram》;20130223;第31卷;第276页第2-4、4段,第277页第2段,第278页第2-3段,附图4-5 *
Structure transition and multiferroic properties of Mn-doped BiFeO3 thin films;Wenlong Liu et al.;《J Mater Sci: Mater Electron》;20131129;第25卷;第723页倒数第1段、第724页第2段实验部分 *
稀土元素钇和钬掺杂对铁酸铋磁性能的影响;徐军等;《武汉工程大学学报》;20130531;第35卷(第5期);第57-60页 *

Also Published As

Publication number Publication date
CN103708562A (en) 2014-04-09

Similar Documents

Publication Publication Date Title
CN103708562B (en) Bi0.90Ho0.10Fe1-XMnXO3 ferroelectric film with high remanent polarization and preparation method thereof
CN102534588B (en) Method for preparing Nd/Co-codoped BiFeO3 film on FTO (fluorine-doped tin oxide)/glass substrate surface
CN103723770B (en) High-dielectric-constant Bi0.92Ho0.08Fe[1-x]MnxO3 ferroelectric film and preparation method thereof
CN105271798B (en) A kind of high-ferromagnetic can be with the Bi of ferroelectric properties0.9Er0.1Fe1‑xCoxO3Film and preparation method thereof
CN104478234B (en) A kind of Bi0.90er0.10fe0.96co0.02mn0.02o3/ Mn1-xcoxfe2o4composite membrane and preparation method thereof
CN103058646B (en) Method for preparing Tb/Cr-codoped high-remanent-polarization BiFeO3 film by sol-gel process
CN104445996A (en) Multiferroic Bi0.96-xSr0.04RExFe0.94Mn0.04Cr0.02O3-NiFe2O4 composite film and preparation method thereof
CN103121836B (en) Method for preparing BiFe1-xCrxO3 ferroelectric film by using sol-gel method
CN103771527B (en) A kind of Bi of low coercive field 0.92dy 0.08fe 1-xmn xo 3ferroelectric membranc and preparation method thereof
CN104478235A (en) Multiferroic Bi(0.98-x)Sr0.02RExFe0.97Mn0.03O3-CuFe2O4 composite film and preparation method thereof
CN103060887B (en) Method for preparing high-remanent-polarization BiFeO3 film with preferentially growing (110) crystal face by sol-gel process
CN103771528B (en) A kind of Bi of high-k 1-Xho xfeO 3ferroelectric membranc and preparation method thereof
CN103601248B (en) Tb, Mn and Ni ternary co-doped low leakage current BiFeO3 film and preparation method thereof
CN104478236A (en) Bi0.92Ho0.08Fe0.97Mn0.03O3-Zn1-xNixFe2O4 multiferroic composite film and preparation method thereof
CN104478229B (en) A kind of Bi1-xrExfe0.96co0.02mn0.02o3ferroelectric thin film and preparation method thereof
CN104478228B (en) A kind of Bi0.85‑xPr0.15AExFe0.97Mn0.03O3Ferroelectric thin film and preparation method thereof
CN103601247B (en) Bi1-xSmxFe0.94Mn0.04Cr0.02O3 ferroelectric film with high remanent polarization and low leakage current density and preparation method thereof
CN103739019B (en) A kind of BiFe of high remnant polarization 1-xmn xo 3ferroelectric membranc and preparation method thereof
CN103601249B (en) A kind of high remnant polarization and high-k BiFe 0.96-ymn 0.04cr yo 3ferroelectric membranc and preparation method thereof
CN103613144B (en) B-site Mn and Cu codoped high remanent polarization BiFeO3 film and preparation method
CN103663564B (en) Bi0.90Dy0.10Fe1-XMnxO3 ferroelectric film with high dielectric constant, and preparation method for Bi0.90Dy0.10Fe1-XMnxO3 ferroelectric film with high dielectric constant
CN103626236B (en) The BiFeO of a kind of B position Mn and Ni codoped high remnant polarization 3film and preparation method thereof
CN104478230A (en) Bi[0.92-x]Ho0.08AExFe0.97Mn0.03O3 multiferroic film and preparation method thereof
CN103693694B (en) A kind of Bi 1-xdy xfeO 3low-leakage current film and preparation method thereof
CN103723771B (en) A kind of Bi of high-k 1-xdy xfeO 3film and preparation method thereof

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant