以Bi(NO)3·5H2O和Fe(NO)3·9H2O为水热反应原料,选择KOH作为矿化剂合成单相BiFe03.通过调节KOH浓度和升降温速率可控合成了规则的大尺度多面体BiFeO3颗粒.发现高碱浓度有利于合成规则多面体BiFeO3颗粒,合适的水热降温速率是影响高结晶度BiFeO3颗粒合成的重要因素之一.当KOH浓度为6和8 mol/L,降温速率为0.2 ℃/min时,产物为高结晶度准立方和截角立方颗粒,当降温速率调节为0.1 ℃/min时,产物为表面粗糙的立方八面体和截角八面体颗粒.当KOH浓度为8 mol/L,降温速率约为2℃/min时,产物为表面粗糙且有孔洞的截角立方颗粒.通过扫描电镜图片观察到其形貌演变过程并解释了大尺度多面体BiFeO3颗粒的形成机制.
参考文献
| [1] | Arnold D C,Knight K S,Morrison F D,et al.Ferroelectric-paraelectric transition in BiFeO3:crystal structure of the ortho-rhombic β phase.Phys.Rev.Lett.,2009,102(2):027602-1-4. |
| [2] | Selbach S M,Tybell T,Einarsrud M A,et al.The ferroic phase transitions of BiFe03.Adv.Mater.,2008,20(19):3692-3696. |
| [3] | Wang J,Neaton J B,Zheng H,et al.Epitaxial BiFeO3 mul-tiferroic thin film heterostructures.Science,2003,299(5613):1719-1722. |
| [4] | Chu Y H,Mart L W,Holcommb M B,et al.Electrical-field control of local ferromagnetism using a magnetoelectric multiferroic.Nat.Mater.,2008,7(6):478-482. |
| [5] | Sosnowska I,Peterlin-Neumaier T,Steichele E.Spiral magnetic ordering in bismuth ferrite.J.Phys.C:Solid State Phys.,1982,15(23):4835-4846. |
| [6] | Han J T,Huang Y H,Wu X J,et al.Tunable synthesis of bismuth ferrites with various morphologies.Adv.Mater.,2006,18(16):2145-2148. |
| [7] | Li S,Lin Y H,Zhang B P,et al.Controlled fabrication of BiFeO3 uniform microcrystals and their magnetic and photocatalytic behaviors.J.Phys.Chem.C,2010,114(7):2903-2908. |
| [8] | Gao F,Yuan Y,Wang K F,et al.Preparation and photoabsorption characterization of BiFeO3 nanowires.AppL Phys.Lett.,2006,89(10):102506-1-3. |
| [9] | Gao F,Chen X,Yin K,et al.Visible-light photocatalytic properties of weak magnetic BiFeO3 nanoparticles.Adv.Mater.,2007,19(19):2889-2892. |
| [10] | Li S,Lin Y H,Zhang B P,et al.BiFeO3/TiO2 core-shell structured nanocomposites as visible-active photocatalysts and their optical response mechanism.J.Appl.Phys.,2009,105(5):054310-1-5. |
| [11] | Chen Z Z,Shi E W,Yuan R L,et al.Coalescence of the crystallites under hydrothermal conditions(II):the morphology and stability energy calculation of cuprite.Science in China(Series E),2003,46(4):423-431. |
| [12] | Sun S,Zhou F,Wang L,et al.Template-free synthesis of well-defined edge polyhedral Cu2O architectures.Cryst.Growth Des.,2010,10(2):541-547 |
| [13] | Sui Y M,Fu W Y,Yang H B,et al.Low temperature synthesis of Cu2O crystals:shape evolution and growth mechanism.Cryst.Growth Des.,2010,10(1):99-108. |
| [14] | 施尔畏,陈之战,元如林,等.水热结晶学.北京:科学出版社,2004:222-224. |
| [15] | Penn R L,Banfield J F.Imperfect oriented attachment:dislocation generation in defect-free nanocrystals.Science,1998,281(5379):969-971. |
| [16] | Liang X D,Gao L,Yang S W,et al.Facile synthesis and shape evolution of single-crystal cuprous oxide.Adv.Mater.,2009,21(20):2068-2071. |
| [17] | Lee S K,Choi G J,Koo K K,et al.Effect of molar ratio of KOH to Ti-isopropoxide on the formation of BaTiO3 powders by hydro-thermal method.Mater.Lett.,2003,57(15):2201-2207. |
| [18] | Chen C,Cheng J R,Yu S q et al.Hydrothermal synthesis of perovskite bismuth ferrite crystallites.J.Cryst.Growth,2006,291(1):135-139. |
| [19] | 邱忠诚,周剑平.朱刚强,等(QIU Zhong-Cheng,et al).较为宽松条件下水热合成铁酸镶粉体.无机化学学报(Chinese Journal of Inorganic Chemistry),2009,25(4):751-755. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%